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MAXPRO-Net - Honeywell Video Systems

1. 7 9 5 RD316 MODULE RS 422 485 PTZ SITE TRANSMITTER MODULE 7 10 1 7 10 1 General 7 10 1 Y21012 INSTAN AVON rk 7 10 1 7 10 3 IndiCatOors 3 A Gab veka E IDEE See Reged 7 10 2 7 10 4 DIP Switch 8S ciet entire tainted hdl enh a 7 10 2 7 10 5 Diamond Electronics FastScan SmartScan sse 7 10 3 7 10 6 PELCO Intercept Legacy AD 22 7 10 5 7 10 7 PELCO Intercept Legacy Pelco 9750 7 10 5 7 10 8 PELCO Coaxitron Interface 7 10 6 7 10 9 Maxpro RS 485 Non 0 7 10 6 7 10 10 Maxpro RS 485 7 10 6 7 10 11 Vicon Standard u iie ied RR ERE E ERR n ae E 7 10 6 xiv HMXMUO 1018 10 06 TABLE OF CONTENTS CONTINUED 7 11 7 12 FAO 12 Vicon Extended eios a Nu 7 10 7 7 10 13 Panasonic WV CS600 WV RM70 WV CS600A WV RM70 and WV CSR600 7 10 7 7 10 14 Panasonic WV CS850 entere nen 7 10 8 7 10 15 American Dynamics eiie u 7 10 9 7 10 16 Philips B rle ode c xa e cti Po etie ae 7 10 9 7 10 17 Star Chugai Sanyo SMD12P SMD20P 92
2. 11 9 11 14 1 uu 11 9 11 14 2 Vertical Interval Switching 11 10 11 14 3 Black Pause 2 11 10 11 14 4 PAL NTSC Determination esses enne enne 11 10 11 14 5 Cascading Multiple HMX32128 Subracks sss eee 11 11 11 15 HMX4248 I O MODULE FOR HMX32128 eene nnne 11 12 11 15 41 General te ah rate RETE De ere o de eee 11 12 11 152 InistallatiOnis irr eer eas eer rH PR TUE doth RR SM n 11 12 11 15 3 Contact Closure or End Of Line Modes 11 12 11 15 4 Specifications MX 4248 L L n nsn 11 12 11 46 USING THE DIAMOND DOME CAMERA SET UP MENU 11 13 11 16 1 Equipment Configuration U 11 13 11 10 2 Operations u ote U tt a ees 11 14 11 17 128 MODULES WITH DIP SWITCHES OLDER 11 15 11 18 MX826 VIDEO DISTRIBUTION 2 000 0 nu 11 16 11 181 aie va 11 16 11 18 2 Operation hea eet e n terre 11 16 11 18 3 Installations ec Gen ed een oe
3. 7 15 8 7 19 10 1 sd e iet 7 15 9 7 15 11 Workshop Test 22 2 2242 1 21 02 011060 sen 7 15 10 RD494 RESISTIVE LADDER PERIPHERAL UNIVERSAL INTERFACE MODULE 7 16 1 FAG General oce Rae n eia te aperi pe bietet 7 16 1 7 16 2 toni dedi e ei ed fe edt t e te et 7 16 1 7 16 3 Connector Details ege 7 16 3 7 16 4 Description of Control 7 16 6 7 16 5 Workshop Test S PEATA ai KEAS SI asss 7 16 8 5300 nu Re ia E 7 17 1 PALA a 7 17 1 7 17 2 3 Dimensional JOYStICK e y S PENA 7 17 2 7 17 3 Wiring Connections ade d bee ea p e tee e ee 7 17 2 717 4 Keycode Table ii ende dedi I fed ta dens 7 17 3 FAFS Cable em uns 5 0 teat tue dee haha m 7 17 4 7 17 6 E M C Compliance Installation 5 7 17 7 7 17 7 Special Notes Previous Versions of RD 530 7 17 8 747 8 DIP SWitCh SetingS iit tee e e thee ee pete petes 7 17 8 HMXPS9 SYSTEM POWER 7 18 1 7 18 1 Out
4. 7 12 10 7 12 11 E M C Compliance Installation 7 12 12 RD400 ALARM INPUT 1 2 0 0 nn 7 13 1 7 13 1 Contact Closure or End Of Line 2 7 13 1 7 13 2 7 13 1 7 13 3 Wiring COnnections aa et GML Sele eds 7 13 2 7 13 4 DIP Switch SettingS tege c teet e EE E EE ee 7 13 2 HMX440 RELAY OUTPUT MODULE I n n na 7 14 1 7 14 1 Wiring Connections u ta ina edet e P A P ts 7 14 2 7 14 2 Function Cross Reference Table For Direct Control 7 14 2 RD490 UNIVERSAL PERIPHERAL 7 15 1 1 15 31 Gealan nn 7 15 1 7 15 2 cerei EYE 7 15 1 7 15 3 Connector Details ln 7 15 2 7 15 4 Infra red E ED wirlndg nte ed 7 15 8 7 15 5 Installation LI u enin ec Ra e 7 15 3 7 15 6 BIP Switch Seltinigs iier ed erdt dt Cea Ie dias 7 15 3 7 15 7 Alarm Sense Setup SW1 4 way DIP 7 15 5 7 15 8 Error DISplay s acm ce e Ele a e ER EE ai 7 15 7 7 15 9 Description of Control Functions
5. 7 10 10 7 10 18 dedi ut d aee eer re 7 10 10 7 10 19 7 10 10 7 10 20 WV i a 7 10 10 7 10 21 SpeedDomoe dedi P ei E ED 7 10 11 7 10 22 a eee Me en 7 10 11 720 93 7 10 11 7 10 24 uri eet ek laid eG 7 10 12 7 10 25 Ultrak KX Series Multiplexors I n n nana 7 10 12 7 10 26 Ranger 7 10 14 7 10 21 PETS 7 10 14 7 10 28 ertt G t aen Ce 7 10 15 7 029 data gene 7 10 15 7 10 30 VST RS 485 Unidirectional sese 7 10 15 7 10 31 VST RS 485 Bidirectional 7 10 16 RD378E PTZ SITE irc dee eR k Hc a pr rectc 7 11 1 7 11 1 nt wenden tie Gein tite pe Nevin ea ER 7 11 1 71 25 Power Supply 5 ont eene He MER Der HR 7 11 2 7 11 3 Communications int eene lu n 7 11 2 7 14 4 Motor DIVE in d tbe tede dee eth fois 7 11 5 7 14 5 Motor TIME e ERR UE nea RE SER TUE edam agb 7 11 8 7 11 6 Tamper Alarm menie heal net e
6. overtones Format error in INTEL HEX data 8 Notued CAUTION Once an error is displayed the RD490 module must be reset Usually the module would be removed to make DIP switch adjustments Replacing the module in the subrack causes it to be reset 7 15 7 HMXMUO01018 10 06 7 15 9 Description of Control Functions The MAXPRO Net system sends individual function numbers to the RD490 module instructing it to generate each particular control command e g stop play etc The following table details a general list of all available control functions For RS 232 mode up to 32 functions can be used DEVICES eee VCR ee VCR 5 232 1 Stop Stop Stop Camera E key Rewind ____ _____ e passo Passo camera ej reos rea Preview Preview Preview Camera 9 Review Review Review Camera 10 key Rew Play x2 Rew search x7 Skip Rew search d Power ON OFF Power ON OFF Power ON OFF Tape Eject Tape Eject Tape Eject Camera 12 key Zero Back Counter Memory Counter Memory Camera 13 key Memory Stop Stop Stop 2244 Counter Reset Counter Reset Counter Reset Camera 14 key peon Search Set Coarse Search Index Search Forward Camera 15 key Forward Index Search Set Fine Search Index Search Reverse Camera 16 key EET unav
7. primary latch Note this new video source number has not been selected yet When the next vertical interval sync pulse occurs of the currently selected video signal the new video source number is transferred into a secondary latch that actually makes the new video source selection The new video signal is now selected by the RD85 module and available from its video output connector This method of vertical interval switching assumes that all video source signals are all vertically synchronized If they are not then frame roll may still occur Where no video signal was selected previously the new video source selection is made immediately 7 4 1 HMXMU001018 10 06 7 4 3 7 4 4 Rev C Clamp To Black Video Switching Transition When unsynchronized video sources are used in the video switching system a short CLAMP TO BLACK period be inserted at the video switching transition This allows any frame roll that may occur to do so during the Clamp to Black period i e the roll is invisible giving the illusion of synchronized video switching The Clamp to Black period is link selectable by LK2 on the RD85 module PCB The link can be positioned in eight positions to select a different period The period is defined in numbers of video fields to be clamped link settings fields fields milliseconds 0 zero period 0 mw a 4 m m x
8. 3 1 3 2 LQAN PROCEDURE es eR a des Vet E EE ERN UR Ee 3 2 CHAPTER 4 TEST u tm uu u uu Q 4 1 4 1 GENERAL REQUIREMENTS HR ERE ERR LER 4 1 4 14 More GombplexXFaults cuo e be ee o te t tet 4 1 4 2 ON SITE EQUIPMENT iiir iP e Dr ndi iv Q e EE iri Raton 4 1 CHAPTER 5 DIAGNOSIS AND TROUBLESHOOTING 5 1 5 1 GENERAL 515 5 541 5 2 EXAMPLE FAULT ANALYSIS ette tct te e P ag Ire rede P gy 5 1 5 2 1 No Video from One 5 1 5 2 2 No Video on One 1 120000660 0 5 2 5 2 3 No Text on Monitor or 5 iarain iaa iaiia eaa apa e aaa aa 5 2 5 24 No Operation from a Keyboard eene 5 2 5 25 Total System Failure ie ae AA A dee etiarn 5 3 5 2 6 Problems with PTZ or Lens Operation sess 5 3 5 3 MACRO ERRORS tree aeter nes OL 5 4 5 31 ERRORLOG Report in SetMax Configurator 5 6 5 4 DATA STREAM TESTING eicit ee eee Er vea dee e eg 5 7 5 41 RS232 Breakout or
9. 7 4 2 7 4 4 Used As A Black 7 4 2 7 4 5 Used For Audio Switching 7 4 3 7 4 6 Diagnostic Video 7 4 3 TAT IndiCatOr p e x ceeded 7 4 3 RD89 VIDEO FAIL VIDEO ANALYSIS MODUILE enn 7 5 1 7 5 1 Operation isi Idi ET eel e 7 5 1 5 2 InstallatlOni irte ER HE ER ET pepe REDE iD PEE ERR 7 5 1 7 5 3 DIP Switch Definitions y i eR Eua 7 5 1 7 5 4 Video Analyzer Sensitivity Selection sss eene 7 5 2 4 5 5 Indicatorssz NON 7 5 2 RD105 105B SUBRACK CONTROLLER MODULE eese 7 6 1 RD200 TEXT INSERTION MODULE 7 7 1 MX205 TEXT INSERTION MODUIE nnne ns 7 8 1 RD315 PTZ SITE COMMUNICATIONS 7 9 1 LOA PIESNE WING 7 9 2 7 9 2 Switch Setting ziii ee ea eec ier eta 7 9 2 7 9 3 Setting Audio Communication Link 7 9 3 7 9 4 Direct RS 232 Control Or Data Testing 7 9 4 1 9 5 EED Indicators nia nn lan nana 7 9 4 7 9 6 Subrack Slot D25 Connector Pin Allocations
10. Used As Black Source The Clamp to Black can be set to infinity by removing the Black Pause Link and placing it in the Video position of LK1 lower In this position the module will output the Sync pulses only of the default camera selection This can be used in a system as a Blank Black Source Input 1 of the subrack containing the Black Source card MUST have a video source connected 7 4 2 HMXMUO01018 10 06 7 4 5 Used For Audio Switching The Continuous Black Period is selected by removing the Black Pause Link and placing it in the Audio position of LK1 upper when the RD85 is required to switch audio signals 7 4 6 Diagnostic Video Connector The front of the RD85 Module has a 3 pin IDC style connector with the video signal present on the center pin and the ground on either of the two outer pins The video on this connector is the same as the output connector and may be used to diagnose the system from the front of the subrack rather than the rear 7 4 7 Indicator L1 illuminates when the RD85 Module has data written to it by the RD105B Subrack Controller Module Rev C 7 4 3 HMXMUO01018 10 06 Notes Rev C 7 4 4 HMXMUO01018 10 06 7 5 RD89 Video Fail Video Analysis Module CAUTION The following data refers to RD89 modules of revision 5 hardware and later 7 5 1 Operation The RD89 Video Fail Video Analysis Module is specifically designed to provide for automated monitoring of video presence l
11. 099 Panright 102 PTZaux x 7 17 5 Cable Lengths Please note The HEGS5300 Keyboard is supplied with a standard 1 5m flat ribbon cable It is strongly recommended that twisted pair data cable be used from the RJ11 Termination Box when long cable lengths are required to eliminate any data problems Any cable length in excess of RS 232 standards should be fitted with line driver units Honeywell part number LD102 1 5m Telco Cable 1 5m Telco Cable SYSTEM CONTROLLER Twisted Pair Data Cable Rev C 7 17 4 HMXMUO01018 10 06 TO KEYBOARD TO HMXAT200 SIG GND 5 YELLOW Rx 6 BLUE PWR GND Honeywell DRAWN AMENDMENT PPD DATE REV IDWW DM 221 2 0 MAXPRO Net KEYBOARD RJ11 TWO WAY JUNCTION BOX 0365 0009 DRAWING No MG1 0075 Copyright Honeywell Subject to Change without Notice Rev C 7 17 5 HMXMUO01018 10 06 YELLOW 12 NC TX SIG GND SIG GND Rx Rx PWR GND PIN PWR GND Honeywell 85 10899 MAXPRO Net KEYBOARD RJ12 TERMINAL BOX PIN UTILIZATION Ww 10023 COPYRIGHT SUBJECT TO CHANGE WITHOUT NOTICE 4 Rev 7 17 6 HMXMUO01018 10 06 7 17 6 E M C Compliance Installation Requirements The HEGS5300 keyboard supplied includes a one meter standard length of interface cable Should there be a need for a longer cable an extension kit is available from the supplier This kit has tw
12. 1 434 LIL 434 11 35N 35 jSN3S NYd IL NONHOD NONHOD N d HMXMU001018 7 11 23 Rev C tY LNOHLIM OL LOSPANS LH IMAdOS LS on eua NOLLO3NNOJO3S3 LNI ALIS S6 lLd L 3252 pass Far 1 5 LILL 5 434 UIL NYd LDULYANYd 2114 LL NOWAOS 3 NOINIAO2S NY d NO O O P UD HOLOS3NNOO AVM TZ HMXMUO01018 24 7 11 Rev C 10 06 7 12 RD379 PTZ SITE RECEIVER 7 12 1 Features RD379 is an intelligent pan tilt lens controller for use at a remote camera site Its primary function is to operate the pan tilt unit and zoom focus lens controls Features include All communication to from the RD379 site receiver is a common two wire line providing simultaneous control of up to 16 site receivers per network All data traffic is managed by a RD315 two wire transmitter module located in the equipment subrack Sites can be wired star or delta configuration and all sites are protected against high voltage destruction with line isolation transformers on the two wire line Capable of controlling any 24V pan tilt unit some at variable speeds a
13. ES 4 4 4 w E Ed w 5 5 2 2 eur 3 gt 5 a a x gt x m m OO v DD SZE ld O NO TNO ON OM 04 H4HAIYADAY ALIS 92 5 17 ns 17 010 1711 15417 nS 417 0 NUd J N nizsi za HMXMUO01018 8 8 Rev C 10 06 PT327 CONNECTIONS 8 7 v 51 288 uneJg Jo O T uoisinay 11 1111 NUd 5 1 LO4NNOO 82226 14 HOLOANNOD AYN 9 N39 18 1Hf 134 5 18 1Hn N NON 104 1111 5 1 AVM ZT N Doe AN OMT las LHN 5 N AMN9 1Hf op e 1347 1Hf N30 1Hf qaa lHn NM8 1Hf 18 1 4 e e s 9 11 nia N39 134 940 114 N38 18 OTH CO z o AN OTN OM H36 130348 3115 92E 04 HMXMU001018 8 9 Rev C 10 06 RD390 LENS CONTROL EMULATOR CONNECTIONS 8 8 v t ST00HU 158 09830 17WODZWlX Y 16 395955 2661 9 9 19320 at 1 2 uoisinay 48quny 2216 1081 002 SN31 86 48
14. Rev C 2 2 HMXMUO 1018 10 06 CHAPTER 3 WARRANTY AND MODULE REPLACEMENT 31 WARRANTY PROCEDURE Modules are exchangeable items and will be replaced at no charge during the warranty period provided the damage is a normal electronic component failure Outside the warranty period or if a module has been damaged by misuse modules will be repaired in our workshops for a flat rate service charge The replacement module warranty continues until the original warranty period expires Out of warranty repairs or exchanges are warranted only for faulty workmanship Warranty dispatched modules will be invoiced at list price Upon return of the faulty module the invoice will be canceled or reduced to the exchange module value After determining that a unit is faulty and still within the warranty period please use the following procedure Failure to do so may delay the process of repairing replacing and returning the unit Contact Honeywell or your System Supplier to obtain a Return Authorization Number RAN This enables us to track your unit through our system Pack the units appropriately in the original packing if possible Honeywell will charge for repairs to equipment where damage has been caused by poor packing or transport Mark the Return Authorization Number RAN clearly on the outside of the box before shipping as well as in the accompanying documentation If the unit being returned is for repair from outside of Australi
15. 11 17 Rev C xviii HMXMU01018 10 06 TABLE OF CONTENTS CONTINUED 11 19 HMX832 AND HMX832L VIDEO INPUT AND SWITCHING MODULES 11 18 11 19 41 General dier ceca et He cr ane ee eMedia 11 18 11 19 2 HMX832 Connectors ee ee eu o Pa e da o das 11 18 11 19 3 HMX832L 8 11 18 11 19 4 CREER 11 18 11 19 5 Installation Accessories 11 19 CHAPTER 12 VIDEOBLOX INTEGRATION WITH 12 1 12 1 CONNECTION DAG RAMS T A Y s 12 1 12 1 1 Connecting MAXPRO Net Server to Videoblox Chassis through HVBMATPIT 12 1 12 1 2 Connecting MAXPRO Net Server to Videoblox Chassis through VB Converter 12 2 12 1 3 Connecting MAXPRO Net Server to Videoblox Chassis through RS422 PCI Card 12 3 12 2 REFERENCES toe bl idee te ar 12 3 Rev HMXMU01018 10 06 Notes Rev C XX HMXMUO 1018 10 06 CHAPTER 1 GENERAL INFORMATION 11 INTRODUCTION MAXPRO Net combines custom designed software with a high performing Windows 2003 Server resulting in Honeywell s Turn Key Centralized Management Console Server designed for system configuration system management and system monitoring of Honeywell s crosspoint matrix video switchers The modular h
16. DEFAULT 167 16F 177 17F 187 18F 197 19F ON OFF ON 2A0 2A8 2B0 2B8 1A0 1A8 1B0 1B8 2A7 2AF 2B7 2BF 1A7 1AF 1B7 1BF ON OFF OFF 2F8 2A8 2B0 2B8 1A0 1A8 1B0 1B8 2FF 2AF 2B7 2BF 1A7 1AF 1B7 1BF OFF ON ON 3F8 2F8 3E8 2E8 280 288 290 298 3FF 2FF 3EF 2EF 287 28F 297 29F Rev C 7 2 1 HMXMUO01018 10 06 7 2 1 7 2 2 Rev C Switch Settings Continued MX04 Switch Settings sw1 SW2 SW3 PORT1 PORT2 PORT3 PORT4 ON ON ON 3F8 2F8 2 0 2B8 3FF 2FF 2B7 2BF ON ON OFF 160 168 170 178 DEFAULT 167 16F 177 17F ON OFF ON 2A0 2A8 52 0 2B8 2A7 2AF 2B7 2BF ON OFF OFF 2F8 2A8 2B0 2B8 2FF 2AF 2B7 2BF OFF ON ON 1AO 1A8 1BO 1B8 1A7 1AF 1B7 1BF OFF ON OFF 180 188 190 198 187 18F 197 19F OFF OFF ON 3F8 2F8 3E8 2E8 3FF 2FF 3EF 2EF Jumper JP1 This jumper controls the IRQ number for port 1 interrupt Setting the jumper in the top position selects IRQ3 default and in the bottom position selects IRQ4 Selecting IRQ4 may be required in some high level interface applications Ports 2 to 8 or ports 2 to 4 with the MX04 are fixed at interrupt 7 2 2 HMXMUO01018 10 06 7 2 3 Rev C Interface Board The 4 MX08 connects to the interface board via 34 po
17. In most installations some form of communication is required from the camera to the control room monitors VHF or UHF hand held radios best suit this requirement Mobile telephones sometimes have application in this area Adjustments such as focus iris and camera position can usually be set in this manner Back focus can also be done in situ although better results are usually obtained by doing this under controlled conditions in the workshop Rev C 4 1 HMXMUO 1018 10 06 Notes Rev C 4 2 HMXMU01018 10 06 CHAPTER 5 DIAGNOSIS AND TROUBLESHOOTING 5 1 GENERAL All VIDEO TYPE modules have an auxiliary 75 ohm output connection point available on the front edge of the module This provides for simple connection of test equipment when system commissioning or servicing is required This test video output connector is a 3 pin 0 1 spaced male IDC type where the center is the active video output and the other two pins are grounded This test video output on the modules gives the technician total front panel access to all video output channels in a switching system without the need to remove or patch connections on the rear of the video switching subrack equipment 5 2 EXAMPLE FAULT ANALYSIS As every system is different only general techniques for fault location can be provided Fault location can be performed by using the procedures and applying them to the actual block schematic for your specific system It
18. Off On HMXMUO01018 10 06 Notes Rev C 7 3 6 HMXMUO01018 10 06 7 4 7 4 1 7 4 2 Rev C 2085 VIDEO SELECTION MODULE The RD85 video switching module is a single channel video switcher It can select any of the 32 video input signals from the mother board video buss or it s own cascade video input used when stacking multiple video switching subracks All video switching is vertical interval and in addition a clamp to black period can be inserted at the switching transition to HIDE any frame roll that may occur for unsynchronized video signals The video output from the RD85 module is fully DC restored for all video source selections Operation The RD85 video switching module is designed for use in any of the MAXPRO Net video switching subracks One RD85 module is used for every channel of video switching required per subrack or 32 inputs of full matrix The subrack control microprocessor RD105B manages the operation of every RD85 module used within the subrack Video switching commands are sent from the MAXPRO Net system control computer to the subrack control microprocessor RD105B The command is then decoded by the RD105B The actual number of the video input required is then written to the appropriate RD85 video switching module causing the new video source to be selected by that channel Vertical Interval Switching When a new video input selection is written to the RD85 module it is firstly stored
19. AJ Y Sv A 11233302NI SI Qv3H JI SALON 3384 1 434 Zd 3SN3S 3SN3S ILL NOM WO NOW AOD NM u OP m 434 434 11 35835 3SN38 NOANOD 3d NOMNMOJ2 hyd HMXMUO01018 8 5 Rev C 10 06 PT323 CONNECTIONS 8 4 1 l1 jo T uoisinay 18 434 51100 Zl 35435 1111 1111 cu 35435 NUd S110 21 134 89 1111 1711 dn 1111 yolou 1337 NUd 1H914 NUd 80123NNO02 HMXMUO01018 8 6 Rev C 10 06 PT324 CONNECTIONS 8 5 7671 258 98 44 i UunpZtid 9114 9661 9 0 93864 17111 NUd 1384 49 010 1711 YOLOW NUd EET 1111 1711 1337 1H914 8 01123 09 VZE LA T HOLO3NNOO r 892 04 830183238 ALIS HMXMU001018 8 7 Rev C 10 06 PT325 CONNECTIONS 8 6 v E 2 Si 188 unesd 1 NOJSEZLJ 91 4 JO 39945 9661 PTIYETTA iu vu 1 NOILIANNOI 826 14 uoisineay 48gunN 92415 LINN 1111 NUd a aA v k v Em
20. Enabled Disabed OFF 7 Speedi Peftotaie ____ 8 j Sped2 SW3 1 Lens Voltage This switch sets the voltage required to control zoom focus and manual iris on the camera lens SW3 2 Not Used SW3 3 Auto Home If this option is enabled the PTZ returns to the preset position of view 0 after one minute of no operation Note that View 0 must be set before this function can operate SW3 4 Pan Tilt Inversion Allows the camera to be invert mounted on the pan tilt unit Setting this switch ON will reverse pan left right and tilt up down outputs from the RD379 so that the camera can be invert mounted yet maintaining the wiring connections as per connection data SW3 5 Focus Zoom Inversion Manufacturers of lenses vary the use of ve or ve for in out lens functions This switch is set to ensure the button function on the keyboard matches the actual operation performed This must be set correctly for the pan tilt dynamic speed control from zoom position to operate SW3 6 I O Fitted If the optional 378 board is fitted then this switch must be switched ON This allows for seven additional alarm inputs and eight voltage free contact control outputs to operate at the site as well as manual iris control Rev C 7 12 6 HMXMUO01018 10 06 7 12 4 7 12 5 7 12 6 Rev C Motor Drive Continued SW3 7 and SW3 8 Speed Control The factory setting for speed control is SW3 7 OFF and SW3 8
21. C 12 2 HMXMU001018 10 06 12 1 3 Connecting MAXPRO Net Server to Videoblox Chassis through RS422 Card VideoBloX Chassis PIN Re Rx Tx GNDIRS422 Rx Rx GND RS422 MAXPRO Net Server PC The recommended RS422 PCI card is LAVA RS 422 PCI Card 12 2 REFERENCES Please refer to the following Manuals for Videoblox Integration with MAXPRO Net Configuration and User Manuals of Videoblox 900 0809 Videoblox User manual This has the settings on the chassis and for the I P cards e 900 0411 VideoBloX Configuration User Manual e 900 0403 Auxiliary Port Expander User Manual for Auxiliary Port Protocol and configurations Connection Manuals of Videoblox e 900 0595 HVBPIT44 User Manual PITs to PTZ domes e 900 0730 HVBMATPIT User Manual MAXPRO Net to VideoBloX Chassis e 900 0566 422 Smart Combo User Manual 900 0567 HVBI2C160 HVBI2C 161 User Manuals Rev C 12 3 HMXMUO01018 10 06 Honeywell Video Systems Head Office 2700 Blankenbaker Pkwy Suite 150 Louisville KY 40299 www honeywellvideo com TEL 1 800 796 2288 Honeywell Security Australia Pty Ltd Unit 5 Riverside Centre 24 28 River Road West Parramatta NSW 2150 Australia www ademco com au TEL 61 2 8837 9300 Honeywell Security Asia Pacific 33 F Tower A City Center 100 Zun Yi Road Shanghai 200051 China www security honeywell com cn TEL 86 21 2527 4568 Honeywell Security Asia Flat A 16 F C
22. Rev C 7 9 3 HMXMUO01018 10 06 7 9 4 Direct RS 232 Control Or Data Testing Direct connection can be made to the communication processor RS 232 Communications can be used during testing to monitor the serial data traffic going out to other PTZ sites i e A laptop computer can be used to show the actual data information as it is being transmitted This port can also be used to communicate directly with a single PTZ site receiver in a standard RS 232 format RS 232 Part of 0825 connector Description RS 232 Signal Ground RS 232 Receive Data RS 232 Transmit Data 7 9 5 LED Indicators L1 TT indicator If ON indicates that the PTT drive circuit is active PTT active selects transmit mode on a two way radio L2 TX DATA indicator Blinks when the valid data is being transmitted to a PTZ site receiver L3 COMMS indicator Remains ON for valid PTZ site communications Switches OFF if a polled PTZ site receiver does not answer L4 MODULE WRITE indicator Blinks when the RD 315 module has been written to by the RD105 subrack controller module L5 MODULE READ indicator Blinks when the RD 315 module has been read by the RD105 subrack controller module Rev C 7 9 4 HMXMUO01018 10 06 7 9 6 Rev C Subrack Slot D25 Connector Pin Allocations PinNo Description Cd 8 JAF S32Ipu 5 8 j PITcommon GROUND 6 Hi Z Unbalanced TX audio OUTPUT Balanced 2 wire line first wire 4w TX 7 9
23. SMT nil RD490 Peripheral SMT nil RD490 Peripheral SMT Nil HEGS5300 500 600 mA 12 V AC DC n a 9 14 HMXMU001018 10 06 CHAPTER 10 SYSTEM CONFIGURATION 10 1 THE SETMAX CONFIGURATOR FOR MAXPRO Net The SETMAX configuration editor is used to edit the MAXPRO Net system configuration and performance specifications Refer to the COMMISSIONING MANUAL and the MAXPRO Net Software Configuration User Guide for more detailed information Rev C 10 1 HMXMU001018 10 06 Notes Rev C 10 2 HMXMU001018 10 06 CHAPTER 11 HD SERIES QUICK START GUIDE 11 1 GENERAL Your MAXPRO Net HD Series video switching equipment is shipped to you pre assembled and pre configured where possible To assist you in obtaining maximum functionality within the minimum time we have provided the following Quick Start instructions 11 2 UNPACKING a b Remove your MAXPRO Net HD Series equipment from its packaging and install it according to good engineering practice Remove the MX 32128 metal front panel and cardboard support where fitted then replace the front panel 11 3 CONNECTIONS a Rev C Connect the mains power lead s to your System Controller and System Power Supply Ensure the mains voltage settings are correct Connect the supplied power cable between the MX 32128 subrack and your System Controller or MX PS9 System Power Supply Connect the subrack data cable from the MX 3
24. SYGUUNSNYYL 2197 74814 5315 BHLO OL c 345 15414 OL NOILOZNNOJ 2140 JHBLI 26249 HMXMUO01018 7 11 20 Rev C 10 06 HOLLON 39NvHO OL 1237805 LHOMAJOI 9 v EE 90001901 ay maran SNOLLOSNNOOYILNI 85 3115 12 14 ava Er __ cius 000000 11925 OL LON 39NYHO NOLL TOS 2150440 JHL SNvd LI N3HM ILYIGSNW 3573739 LON TIA JMH JHL HO daddy SI 2 ON ASNYOJE NO TI Qv3H Nyd 3Hl SI MWOld us SHL g 40 v AJ v Sv Gaul A1L338302NI SI Qv3H TTLNYd Ji 310N NMA LL 434 LDIL Nvd 43H 35835 3SN3S Nyd kbd JAryg NOM WOOD Nyd C m 434 434 IlLL NYd 2114 3SN3S 35335 Nyd LL ELS NYd HMXMU001018 7 11 21 Rev C 10 06 v x 4105 OL LON SOLON OL LOAPANS LHOlMAdOO 9 8 9 0 LL JAVS8g Ey fa a NOWNOS HMXMUO01018 7 11 22 Rev C 10 06 v SOLON 39NYHO OL 5 2 a ee 10 06 SNOILLO3NNOORIINI 8 M3AIHO03H ALIS 4886 14 31925 OL LON 8 9 6 e
25. microprocessor that is designed to simultaneously monitor all eight input circuits and report any change of state to the subrack controller microprocessor 7 13 1 Contact Closure or End Of Line Modes RD400 modules with revision 6 hardware onwards are DIP switch selectable between open short circuit sensing and 10KQ EOL resistor sensing Set SW1 1 OFF for contact closure mode and ON for 10KQ end of line mode CC Mode When configured in the CC mode the RD400 will detect contact state changes accordingly to the NO NC setting as defined in the Alarm Input table in SETMAX EOL Mode In the EOL mode end of line a setting of NC in SETMAX will cause an alarm to become active when the alarm loop becomes either open or short circuit unsealed conversely in the NO mode the alarm will become active when the loop is in the sealed position 7 13 2 Sensing Each input is checked in approximately 2 usec so even with all input circuits enabled an alarm condition can be recognized in less than 16 usec There is an alarm de bounce period of 20usec so an alarm input has to stay unchanged for this period before the alarm condition is reported The LED indicators on the front edge of the alarm input module indicate an ACTIVE ALARM state not the actual input logic level Only enabled alarm inputs will display on the LED indicators Rev C 7 13 1 HMXMUO01018 10 06 7 13 3 Wiring Connections s o 7 13 4 DIP S
26. resistance to Ground DB25 Pin 13 LEDs on the front edge of the card then indicate the Function Number 1 to 16 see above table The Test Button at the top front of the card when held down presents the resistance to Output 1 Releasing the button steps to the next function where again holding down the button switches the resistance to the output This sequence continues through all 16 functions as 2 groups of 8 The sequence returns to Function 1 after the completion of Function 16 FINISH TESTING To exit the workshop test mode the RD494 module must be powered down or removed from the subrack When power is applied again the RD494 module will resume normal operation 7 16 9 HMXMUO01018 10 06 7 16 5 Workshop Test Mode Continued Error Displays The eight LEDs display the error status on the RD494 module All eight LEDs flashing in phase indicates an error zero Errors 1 8 are indicated by all LEDs flashing with one LED out of phase which corresponds to the error level Error Definitions ______0 General Error po Mode Selection _______2 _______ Device Not Found 8 j UserModeNotDefind 5 NotUsed OE 6 NotUsd 8 ______ 22 Rev C 7 16 10 HMXMUO01018 10 06 7 17 HEGS5300 Keyboard 7 17 1 Rev C Setup Mode HEGS5300 and version 2 and above RD 530 keyboards are setup using the keyboard keys There are 3 user defined settings These are K
27. yellow indicates the RD316 module is writing data to the subrack Lower LED green indicates the RD316 module is reading data from the subrack NOTE All three LEDs will flash continuously if an invalid mode switch setting is selected 7 10 4 DIP Switches Both the operating mode of the RD316 and the transmission format are selectable via the on board DIP switches Mode switch settings and the appropriate format switch settings for the supported interface protocol modes are detailed on the succeeding pages The general function of the format switches are as follows Position Function when ON SW1 1 Connect data output to isolation transformer SW1 2 Connect terminating resistor across RX pair SW1 3 amp 4 Connect TX and RX pairs for two wire half duplex operation Rev C 7 10 2 HMXMU001018 10 06 7 10 5 Diamond Electronics FastScan SmartScan Format switch SW1 1 4 OFF Mode switch SW2 1 8 OFF Data Connection FastScan SmartScan receivers may be daisy chained or star connected with up to 16 receivers supported per RD316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A The auto iris function supported by the receivers may be enabled by setting auxiliary output 1 as defined in MAXPRO Net to ON any manual iris control function activated thereafter will return the receiver to manual iris mode Using The Diamond Dome Camera Set up Menu Before You Start 1 Is the Dome operational an
28. 10 SYSTEM CONFIGURATION 44 24040 0 u u RH 10 1 10 1 THE SETMAX CONFIGURATOR FOR MAXPRO NET I n a 10 1 Rev C xvii HMXMUO1018 10 06 TABLE OF CONTENTS CONTINUED CHAPTER 11 HD SERIES QUICK START GUIDE U 11 1 11d GENERAL us nasua a a efe f e da am teed 11 1 11 2 UNPAGKING SSS Sa a Re DER ER EE as 11 1 11 9 CONNECTIONS iiiaae aaea E daaa RE Rede 11 1 11 4 STARTUP iai a i LIC TRE db Me adit ee 11 2 11 5 CONFIGURATION 11 2 11 6 CUSTOMIZING YOUR CONFIGURATION sees 11 3 11 6 1 Enabling Video Fail Level Detection 11 3 14 62 Pan Tilt Control eL SOS nen 11 3 11 7 CONTROL CARD DIP SWITCH SETTINGS sse nnne nennen 11 4 11 8 S BRACK ADDRESSING ipee pdt Ha 11 7 11 9 RATE ncn etae eer iE 11 7 11 10 SUBRAGK DATA PORTS iab pa tented 11 7 11 11 ALARM DETECTION 11 7 11 12 HD SERIES SUBRACKS AS 6 11 8 11 13 INSTALLATION TIP E eet e o o e 11 8 11 14 TECHNICAL NOTES
29. 5 HMXMUO01018 10 06 Notes Rev C 7 9 6 HMXMUO01018 10 06 7 10 RD316 MODULE RS 422 485 PTZ SITE TRANSMITTER MODULE 7 10 1 7 10 2 Rev C General The RD316 Communications Interface module is specifically designed to provide protocol conversion and direct connection between the MAXPRO Net system and third party peripheral equipment The RD316 allows for simplex two wire half duplex and four wire full duplex communication formats Manchester NRZ and encoding formats are also supported A switch selectable transformer on board provides ground isolation in these modes if required Installation RD316 may be installed in any I O slot within MAXPRO Net subrack All external connections are via the subracks DB25 connector for the appropriate slot The following table lists the connector pin out details 226 8 1 8 9 ____ Transformer B WARNING Honeywell makes no representation and offers no warranties as to the accuracy and or suitability of third party protocols and command formats Such protocols and command formats are based upon information supplied to Honeywell by third party manufacturers suppliers at the time of implementation 7 10 1 HMXMUO01018 10 06 7 10 3 Indicators The RD316 has three on board status indication LEDs The functions of these are as follows Upper LED green indicates the RD316 module is currently transmitting or receiving data Center LED
30. BUTTON will restart TEST LEVEL 6 7 15 11 HMXMUO01018 10 06 Notes Rev C 7 15 12 HMXMUO01018 10 06 7 16 RD494 RESISTIVE LADDER PERIPHERAL UNIVERSAL INTERFACE MODULE WARNING Users should consult the manufacturers manual with regards to the maximum cable lengths for remote control devices when using the RD494 module This information is for the RD494 V2 04 firmware revision If you require information for an earlier RD494 version please contact your MAXPRO Net dealer or Honeywell 7 16 1 General The RD494 Module is compatible with a broad range of VCRs Quads Monitors Frame Store Units Video Printers and other devices The module has the capability to support 1 peripheral device by means of its RS 232 port or up to 8 peripheral devices simultaneously via the eight 8 resistor ladder control ports The module also features 8 level sensing alarm inputs the input threshold being DIP switch selectable 7 16 2 Operation The RD494 can operate in 2 modes In resistive mode it will simulate resistive values normally presented to a peripheral device from a wire line type remote control In the RS 232 mode connection to peripheral equipment is simply achieved by connection to the RS 232 port non standard RS 232 pin outs When configured as level sensing the alarm inputs detect whether a voltage is above or below a pre set threshold of 3 6 9 or 12V The alarm logic may also be inverted A self biasin
31. C 7 11 14 HMXMUO01018 10 06 71111 1 378 Optional I O Expansion Board with 240V Relays Continued Remote Alarm Inputs There are 7 alarm inputs on the RL 378 Each can be individually DIP switch selected for either digital or analogue mode In digital mode standard open circuit and closed circuit conditions are expected In the analogue mode a normal input state requires a total loop resistance of 10KQ The DIP switch settings are as follows DIPSWITCH SETTINGS Sw osscmemon oN 5 analogue s rm Nome The MAXPRO Net software allows these remote alarm inputs to be utilized in exactly the same Way as are those from a RD 400 alarm input card The alarm test facility SW1 8 automatically echoes the current alarm input state back out the relay outputs Using the output LEDs the alarm input can be locally tested and verified Alarm inputs 1 7 are echoed to relay outputs 1 7 The tamper input on the RD 378 is echoed to relay output 8 Note that this test facility should be disabled during normal system operation Manual Iris Control This output provides ve and ve voltages for manual iris control This output is from PL12 on the RL 378 board There are 2 links associated with this output that select between 6 volt or 12 volt iris motors LK1 and LK2 both off for 12V iris motors LK1 and LK2 both on for 6V iris motors These link positions do not affect the zoom
32. CONDUCTOR diameter in Square Millimeters surface area 12 Supply 24v AC 10 tome some tome 4mm tome m ftom wm em u Supply 24v AC 10 Max Load 4 0 Amps 8 0 Amps Max Distance Rev C 9 9 HMXMUO01018 10 06 9 6 1 Mains Power Distribution Mains Supply Power distribution is equally important and raises a second concern for ELECTRICAL SAFETY In most countries the power utilities company will state that any power circuit must deliver a minimum current capacity of 10amps 13amps in some countries at a switched GPO outlet The safety and work practice standards in your country for mains power distribution must be observed at all times The following table should be used as a guide only to help understand how power distribution requirements affect the minimum conductor diameter size Supply 240v AC 5 Max Load 8 Amp Max Distance soon 25 eme 4m iome somme some wm some Rev C 9 10 HMXMUO01018 10 06 9 7 SUBRACK IDENTIFICATION Description Rack Video Video Video Cascad Height slots slots Inputs Outputs e Inputs HMX1132 General purpose video 3 RU 5 32 selection and RD1616 General purpose video 6 RU 1 selection and RD1632 Video pre selection 3RU RD1664 Video
33. Controller failure MX 18 can also be used with MAX 1000 The 18 is fitted with dual Power Supply monitored inputs for true redundancy operation Serial port expansion is also provided for subrack or keyboard communications DIP SWITCH IDENTITY CODE SETTING VERSION 2 xx FIRMWARE Coe eee Code HO OFF OFF H73 OFF H74 OFF H75 OFF H76 OFF H77 OFF H78 H79 H80 H81 H82 H83 H84 H85 Data Speed 19200 baud OFF OFF 9600 baud OFF 1200 baud OFF Data 8 bit 7 bit Format no parity even parity ACK Filter Pass Block lt Ack gt lt Ack gt OFF Rev 7 3 1 HMXMU001018 10 06 7 3 18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT CONTINUED Rev C CAUTION To avoid the MX18 indicating failure during system startup be sure to set the AIl parameter in the CTRL field of the Serial Communications Ports for any ports that are connected to a MX18 The MX18 is designed to report various status information regarding its operation It simulates a RD400 alarm input module located in pseudo slot 0 In order for these alarms to be generated they must first be enabled This is done automatically by the MAX 1000 when the required alarm status pseudo inputs are defined in the External Alarm Input Table CAUTION Alarm inversion is NOT supported All alarms must be defined as N O type alarms With the exception of ALARM 1 all other alarms are enabled only for the 18 using the ba
34. Indicator Boxes sss 5 7 542 PATCH232 Test Program reete ped ep 5 8 CHAPTER 6 MODULE 6 1 6 1 MODULES inet recie i dake esae 6 1 CHAPTER 7 DATA SHEETS Serre decor cu gae nr ea beoe cain 7 1 7 1 DATASHEETS a eur etai ca a pec EP a uei 7 1 7 2 4 MX08 MULTI PORT SERIAL 5 nnne ns 7 2 1 71 21 Switch Setlirigs cue screen o 7 2 1 Rev C xiii HMXMU01018 10 06 TABLE OF CONTENTS CONTINUED 7 3 7 4 7 5 7 6 7 7 7 8 7 9 7 10 Rev C 7 2 2 Jumper JP sete ee a ee 7 2 2 7 2 3 Interface Board oue reste ert ns 7 2 3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER 7 3 1 7 3 1 Integration of MX18 System Controller with MAXPRO Net and VideoBloX Matrix 91 1 1 7 3 5 RD85 VIDEO SELECTION MODULE iiianoe eitri udia un a uqa unpu aus asas sau 7 4 1 7 4 1 Operation umat cline Seti Ca un Gh E Plage nen 7 4 1 7 4 2 Vertical Interval 7 4 1 7 4 3 Video Switching Transition
35. Number is a binary encoded number Examples are shown below Keyboard Identity Settings Baud Rate and Joystick Speed Range Ooo o oo Ooo o as ovsnekeamerseeeos _ Data format 7 data 1 stop even parity D15 CONNECTOR PIN ALLOCATIONS Pin psi RS 232 Transmit Data Primary S GND RS 232 Signal Ground RS 232 Receive Data 12VDC External Power GND Ground External Power Rev C 7 17 8 HMXMU001018 10 06 7 18 HMXPS9 SYSTEM POWER SUPPLY WARNING Please ensure 1RU of rack space is left above each 59 when installed into system racks to allow for ventilation MAINS INPUT FUSES HMXPS9 240 Volts 2A Slow Blow 110 Volts 4A Slow Blow WARNING Please ensure that the correct fuses are installed prior to installation 7 18 1 Output Protection For HMXPS9 The 59 power supply is fitted with 5 Amp self resetting switches fuses to all outputs Therefore apart from the mains input fuses there are no parts devices in the 59 that require replacement by on site personnel Care should be taken to ensure individual outputs are not overloaded or bordering on overload as this may result in the self resetting switches activating periodically The 59 unit is manufactured for standard 19 inch rack mounting Each HMXPS9 rack mount chassis requires 3 5 of rack space The mounting holes are in accordance with EIA RS 310 s
36. OFF This provides fixed output of 50Hz If speed control is required on normal 24V AC pan tilt units some on site trial may be required to establish the best setting for the particular unit in use If the pan tilt unit has internal phase shift capacitors connected a single phase setting should be selected Some units can be modified to remove the internal phase shift capacitors to allow the Bi Phase speed ranges to be used WARNING Speed control is not possible on all AC pan tilt units SINGLE PHASE 50Hz ONE SPEED OFF OFF All speed commands run at speed 5 only SINGLE PHASE FULL SPEED RANGE ON OFF Bottom speed 27Hz Topspeed 62Hz Auto two speed from normal joystick Graded slow P T depending on zoom position BI PHASE FULL SPEED RANGE OFF ON Bottom speed 35Hz Topspeed 83Hz Auto two speed from normal joystick Graded slow P T depending on zoom position BI PHASE FULL SPEED RANGE ON ON Bottom speed 16 Hz Topspeed 125Hz Auto two speed from normal joystick Graded slow P T depending on zoom position Motor Time Out For all types of pan tilt drives a motor time out exists in software i e should a pan tilt run to the end stop and the limit switch not shut the unit off the software will stop the drive after a period of four 4 minutes for any direction Tamper Alarm Input The tamper alarm input can be used to secure the control cabinet and or the camera housing The connections are made at PL10 and an open circuit
37. The wire conductors are polypropylene insulated providing a rating of 300V at 60 C Number WARNING It is advisable to use a cable that contains two pairs of balanced wires The cost difference to a single pair cable is usually minimal The second pair would be required if four wire communications is used or simply as a spare wire pair for on going system maintenance Rev C 9 6 HMXMUO01018 10 06 9 5 3 Rev C Cable Type of Cable Type of RS 232 and RS 422 485 cable The EIA RS 232 standard is an unbalanced signal transmission standard This means that the data signal levels 10v or 10v DC are inserted and measured with respect to a single SIGNAL GROUND wire common to both the receive and transmit data wires This limits the distance over which it can reliably be used approx 30m at 19 2Kb on 100pF m cable Although lower capacitance cables can increase the distances possible caution should be observed with regard to earth loop potential difference between the equipment Generally RS 232 direct wire connections should be restricted to equipment within the same local area and powered from a common main power source having the same earth path Nominal Nominal Wire Outside Capacitance pF m Conductors Diameter between mm conductors Number Pairs 22 Gauge Beldon 8723 2 Stranded Tinned copper 7x30 The recommended cable has individually screened pairs in an aluminum polyester shield with a 24
38. are in one subrack then check that the data LED is flashing on the RD 105 module when selections are made from a keyboard logged to the faulty monitor If not then there may be a communication problem with the control computer or the subrack RD 105 module Use RS 232 tester or PATCH232 to check data flow 5 2 4 No Operation from a Keyboard The symptoms of this fault can occur because a keyboard is logged off Check this first Check that the cable from the keyboard has not been damaged by stretching or excessive flexing and that the keyboard has power If the cable and connections seem okay then insert an RS 232 tester and check that the LEDs flash when a keyboard action is made If the LEDs do flash then it may be necessary to swap with another keyboard to check the input port to the computer do not forget to set the correct keyboard ID code Alternatively use PATCH 232 to verify that the data from the keyboard is of good guality Always check the transmission speed for keyboards especially if it is transferred across a link such as microwave or fiber optic Use of in built test modes as detailed on page 5 8 may be helpful Rev 5 2 HMXMU01018 10 06 5 2 5 5 2 6 Rev C Total System Failure If there are pictures but they cannot be changed then note the text inserters Write down any special messages that may be displayed The system will try and place system error messages on the text inserters if the system control
39. at a point just inside the enclosure A compliance kit of Ferrite Shielding Beads is available from the supplier There is no requirement for Ferrite Shield Beads on the motor drive video and position sense cables from the controller to the Pan and Tilt Head providing the shielding conduit and or cable does not leak Radio Frequency energy In the event of any doubt as to the effectiveness of the shielding at MF HF and above the shield beads should be fitted For the purpose of meeting the EMC Directives only CE approved cables Cameras and Pan and Tilt Heads shall be used WARNING In addition the RD 378 must be installed in a manner which will comply with the safety and services segregation requirements as set out in the 16th edition of the IEE Wiring Regulations or applicable local Electrical Safety Regulations Rev C 7 11 16 HMXMUO01018 10 06 39NvHO OL 5 LHIMAGOI 9 L oy racer 30109 NOILOZNNOJ 4 04 21925 OL LON Tid XH SNOLLO3NNOO 1531 22254 438 wooz snoo4 434 HOOZ SN204 35435 50204 35435 434 IU NYd 434 3SN3S LL 3SN3S Nyd SNOILOANNOOS 135384 SNOILOANNOD 5 31 IMS 0119 00146114 8119417191219 MddWWLZIWAS O ONAOZ OWT 43AWOJSNYMI LAdNI 1709110 HZMOd AZL 20 AZL MW3MOd FAINT Ov kra HMXMUO010
40. aux6 video overlay toggle aux7 home preset call 0 brightness control preset calls 71 79 000 contrast control preset calls 81 89 fff 000 as set node preset call 91 as start preset call 92 as stop preset call 93 as rate 400 preset call 94 as rate 600 preset call 95 as rate 800 preset call 96 7 10 27 Elbex Note The Elbex protocol is effective from version 2 10 firmware and later Format switch SW1 1 4 OFF Mode switch SW2 1 3 6 8 OFF SW2 2 4 5 Data connection One Elbex RS 422 receiver may be connected per RD316 Module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Rev C 7 10 14 HMXMUO01018 10 06 7 10 28 7 10 29 7 10 30 Rev C Tracam Note The Tracam protocol is effective from version 2 10 firmware onwards Format switch SW1 1 4 OFF Mode switch SW2 3 6 8 OFF SW2 1 2 4 5 ON Data connection Tracam RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD316 Module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Notes Auxiliary Output 1 is used for the Drive Forward command Auxiliary Output 2 is used for the Drive Reverse command JVC Note The JVC protocol is effective from version 2 10 firmware onwards Format switch SW1 1 4 OFF Mode switch SW2 1 2 6 8 OFF SW2 3 4 5 Data connection JVC RS 485 receivers may be daisy chain or star connect
41. be reported to the MAXPRO Net system Polling is usually only switched OFF when the communications link is limited to simplex only and no return data is expected 7 12 3 HMXMUO01018 10 06 SW2 4 Not Used This switch is currently not used It must always be set to the ON position SW2 5 to SW2 8 Site ID Number These switches set the ID number of the site receiver Refer to the table below to set required ID number swes swee swae LED Indicators There are two LEDs associated with the communications micro controller L4 is the site communications indicator and lights when the RD379 is polled or receives valid control data L5 is the TX data indicator and lights when the RD379 transmits valid data back to the system This would usually be to indicate a change of state of alarm inputs Rev C 7 12 4 HMXMUO01018 10 06 7 12 4 Rev C Motor Drive The second micro controller on the RD379 receives data from the CC 2000 communications chip and generates the appropriate control waveforms for pan tilt and lens motors Connections Connections for pan and tilt motors are made at PL16 and PL15 respectively The motor speed is varied using pulse width modulation The motor drive and brake outputs are protected with a current limit of 10A Should a current spike pass this threshold the output drive will switch off until a new output is generated from the motor drive processor In addition re settable fuses a
42. computer is in difficulty The first fix would be to try a RESET on the system RD AT100 control computer This may solve the problem Wait a few moments for the system to re boot If there is no action then connect the test monitor to the menu video output on the back of the control computer Re set the system again Check the progress of the boot on the test monitor It may be that a very strong main s power corruption spike has caused change in the CMOS setup RAM This will be evident in the progress of the boot If the computer is operating correctly but the rest of the system is blank then check the power supply LED indicators Ensure that the LEDs are on for all outputs If none are on then the RD PS6 9 may have a blown mains fuse Circuit diagrams are given for the power supplies as a power supply failure could cause significant down time of the system On site repair may be carried out if required The power supplies are well protected with fuses so it is very unlikely that components in a power supply will go faulty Problems with PTZ or Lens Operation From operations on the keyboard it can be determined if a problem is partial at a site or a complete site fail A loss of communications at a site will cause the system alarm to activate for a PTZ fail In some instances a loss of video from the site may occur simultaneously This combined fault would almost certainly indicate a loss of power at the site On opening the site the
43. control The card in slot 17 controls VCR outputs 1 8 and slot 18 controls VCR outputs 9 16 Refer to the diagram on the next page for connection details WARNING The HMX1676 does not provide support for RS 232 VCR control Rev C 7 20 1 HMXMUO01018 10 06 VCR CONTROL Rev C 7 20 2 HMXMU001018 10 06 CHAPTER 8 DIAGRAMS 81 INTRODUCTION This section comprises of the diagrammatic information for individual products and is often supplied with each individual unit when shipped Due to improvements and new products the information on these pages may become incomplete Always verify that diagrams supplied with your units are not of a later version than those in this section before discarding 82 SUBRACK CONNECTIONS With the introduction of RJ11 style connectors to all new subracks or enhanced subracks in the MAXPRO Net product range it is sometimes necessary to adapt the older style subracks from D style sub connectors to RJ11 style connectors The following table lists the pin to pin detail for each type of D connector to RJ style Adaptor D Pin RJ11 pin D25F 2 3 3 5 4 D25M 2 4 3 7 3 D9F 2 5 3 5 4 D9M 2 2 3 4 5 Rev C 8 1 HMXMUO01018 10 06 8 2 SUBRACK CONNECTIONS CONTINUED The RJ11 style products in the MAXPRO Net range have been designed to accept a standard four wire telephone style RJ1
44. is switched ON and in this mode the RD 315 control module will sequentially communicate with all known slave locations PTZ site receivers in the network on a continuous basis If the RD 378 does not respond to this polling then this change will be reported to the MAXPRO Net system Polling is usually only switched OFF when the communications link is limited to simplex only and no return data is expected 7 11 3 HMXMUO01018 10 06 7 11 3 Communications Continued SW2 4 Not Used This switch is currently not used It must always be set to the ON position SW2 5 to SW2 8 Site ID Number These switches set the ID number of the site receiver Refer to the table below to set required ID number se owes LED Indicators There are two LEDs associated with the communications micro controller L4 is the site communications indicator and lights when the RD 378 is polled or receives valid control data L5 is the TX data indicator and lights when the RD 378 transmits valid data back to the system This would usually be to indicate a change of state of alarm inputs Rev C 7 11 4 HMXMUO01018 10 06 7 11 4 Rev C Motor Drive The second microcontroller on the RD 378 receives data from the CC 2000 communications chip and generates the appropriate control waveforms for pan tilt and lens motors Connections Connections for pan and tilt motors are made at PL16 and PL15 respectively The motor speed i
45. is essential that the service engineer has a good operational knowledge of the specific system in question Remember that with the macros the system features can be wide and varied First study the block schematic to understand the video paths the modules of concern and their slot locations A few hours spent on this at this point could save many hours of frustration Remember that each video module has a monitor point on the front of it for easy access of the test monitor Every module has at least one LED indicator to show data flow to the module and bi directional modules have LEDs for data flow in both directions and CPU fail indicators LEDs show all normal operation actions and all abnormal operations either by not flashing or flashing at the wrong time Do not forget to look at the error log file first It is very useful for intermittent fault locating as it may have logged the fault and the slot location in many cases 5 2 1 No Video from One Camera If a specific camera cannot be viewed on any monitor that had the correct source group access then check with a test monitor that video is present at the input to the sub rack If so move the camera cable to another spare input which will have to be programmed for the required camera number PTZ details etc If it then works then the input VDA fitted to the back of the sub rack is most likely faulty Rev 5 1 HMXMUO 1018 10 06 5 2 2 No Video on One Monitor Assuming that the mo
46. is functionality via one subrack ID it was necessary to this to slot numbers which may then be entered via SETMAX the MAXPRO Net configuration editor The hardware mappings are as follows a Video Fail Level Detection Physical Input Slot FSL field in SETMAX 33 64 65 96 97 128 b Pan Tilt Control Ports Physical Outputs on Slot Control Card CSL field in SETMAX 422 gp v 222 O Slot TSL field in SETMAX al 1 8 Output Card 1 1 8 Output Card 2 Output Card 3 Output Card 4 25 32 Rev C 11 9 HMXMU001018 10 06 11 14 TECHNICAL NOTES CONTINUED 11 141 Hardware Mapping Continued d Alarm Inputs Slot ASL field in SETMAX 4500 15 17 24 Control Outputs Output Slot Number OSL field in SETMAX i 11 14 2 Vertical Interval Switching The reference input for vertical interval timing is physical input 1 this is a hardware function and is not user changeable 11 14 3 Black Pause Switching Black pause switching is activated on the MX208 module by the fitting of a jumper across the black pause header pins PB located adjacent to pin 6 of the 48 way communications header This enables the functionality for all 8 channels The MX208 performs clamp to black as a secondary function to text insertion Where multiple switching and text commands are processed simultaneously as would be the case with synchronized scanni
47. is not suitable for use in a Version 4 system CAUTION Only one 75 ohm video output is available for system use from each RD200 module 7 7 2 HMXMU001018 10 06 7 8 Rev C MX205 TEXT INSERTION MODULE The MX205 Text Insertion Module is a single channel video processing device used to write up to five 5 lines of text information onto a video picture with the added benefit of displaying seconds of time unlike the RD200 Text Insertion Module NOTE The 205 is a Surface Mount Device Module that has been designed to supersede the previous RD205 Module In addition to test insertion the MX205 Module provides Dynamic Cable Equalization up to 700 meters The displayed text is used to display labeling and feedback information to the system operators through the video monitors Information such as camera identification time date display monitor number current operator access and other system operation information can all be displayed Some other applications for the MX205 Modules are text labeling for VCR recorded signals recorded camera identity and time date and display of alarm detection information Text can be displayed in a variety of modes including straight forward white text over the video picture white text with black shadowing white text with a solid black background for the entire text insertion window reverse mode to exchange white and black display i e give black text on a white background or shad
48. of Ferrite Shielding Beads is available from the supplier There is no requirement for Ferrite Shield Beads on the motor drive video and position sense cables from the controller to the Pan and Tilt Head providing the shielding conduit and or cable does not leak Radio Frequency energy In the event of there being any doubt as to the effectiveness of the shielding at MF HF and above shield beads should be fitted For the purpose of meeting the EMC Directives only CE approved cables Cameras and Pan and Tilt Heads shall be used CAUTION In addition the RD379 must be installed manner that will comply with the safety and services segregation requirements as set out in the 16th edition of the IEE Wiring Regulations or applicable local Electrical Safety Regulations Rev C 7 12 12 HMXMUO01018 10 06 GOLON 3ONvHO OL 1037808 AYAIN LHORIAdOO 9 00 ENOLO3NNOO 1 4 11 25 OL LON Sid 79 d SNOLO3NNOO 1531 92058 434 WOOZ Sn204 338 MOOZ SNAOJ 33wod 35835 51004 AZL 20 AZL 35435 NOOZ 434 NU NYd 434 NIL NYA 3SN3S IL 3SN3S Nyd SNOILOZNNOO 155444 SN31 INS 0114 02146114 8119417191879 286701 WAZ IYAPE J3A403SNvYMI 43MOd HMXMUO01018 7 12 13 Rev C 10 06 COLON 39NvHO OL 1037815 AVHLIN LHOAdOD 9 4103 GL LON 0005 318 2 T
49. on the rear of the Module to allow 8 video inputs top connector looping to the second 16 way IDC style connector bottom connector This application can be used for Looping or Cascading HD Series Matrix Switches or simply for utilizing the MXBNC64 or MXBNC128 Video Input Plates Patch Panels refer to Product Data Sheets for details of these two products Operation Both the HMX832 and HMX832L Modules are fitted with eight 3 pin jumpers Termination 1 Termination 8 located near the video input connectors at the rear of the Module These jumpers are used to terminate the video on the Module at 75 ohm if required CAUTION The 3 pin Termination Jumpers are only available from board numbers MS001287 and above HMX832 Rev 8 Previous versions of the hMX832L required a MX9018 Plug in Terminator and Audio applications could utilize the HMX832A Module fitted with BNC connectors which did not have the 75 ohm terminating resistors fitted In a Looping or Cascading configuration 75 ohm terminating is not required and the jumpers should be placed in the OFF position to the left If terminating is required or the Module is the last in a Looping or Cascading configuration the jumpers should be placed in the ON position to the right 11 18 HMXMU001018 10 06 If the HMX832 or HMX832L Module is being used to switch Audio signals through the Matrix 75 ohm terminating is not required and the jumpers should be
50. only with a cart stand tripod bracket or table recommended by the manufacturer or sold with the product Any mounting of the product should follow the manufacturer s instructions and should use a mounting accessory recommended by the manufacturer Wall or shelf mounting should follow the manufacturer s instructions and should use a mounting kit approved by the manufacturer A product and cart combination should be moved with care Quick stops excessive force and uneven surfaces may cause the product and cart combination to overturn VENTILATION Slots and openings in the cabinet and the back or bottom are provided for ventilation and to ensure reliable operation of the equipment and to protect it from overheating These openings must not be blocked or covered The openings should never be blocked by placing the product on a bed sofa rug or other similar surface Equipment should never be placed near or over a radiator or heat register This product should not be placed in a built in installation such as a bookcase or rack unless proper ventilation is provided or the manufacturer s instructions have been adhered to POWER SOURCES This product should be operated only from the type of power source indicated on the marking label If you are not sure of the type of power supplied to your home consult your product dealer or local power company For products designed to operate from battery power or other sources refer to the operatin
51. pre selection 6RU 6 RD2264 General purpose video 6 RU 10 selection and 6 RD6464R U Video pre selection RD6464R L Video pre selection R RD3232 Video pre selection RD1601 General text insertion RD3275 Pre text insertion with 6 RU video fail detection R R RD3201 General text insertion RD3276 Loop thru pre text 6 RU insertion with video fail detection U 20 RD16C10U Video combiner with 6 text insertion RD16C10U L Video combiner with 32 3 16 10 32 text insertion 2 16 10 RD16C20U Video combiner with 6 RU 32 16 20 16 text insertion RD16C20U L Video combiner with 6 6 32 3 16 20 32 text insertion 2 16 20 2 Rev 9 11 HMXMU001018 10 06 98 SUBRACK CURRENT CONSUMPTION Description Videomodules modules modules Total HMX 1132 General purpose video RD85 89 200 11 5 1 3 amps selection and 1 RD1616 General purpose video RD85 89 200 16 16 2 8 amps selection and 1 RD1632 Video pre selection 85 89 200 16 __ 2 4 amps RD1664 Video pre selection RD85 89 200 32 40amps selection and 1 502232 Video pre selecton 32 orams 64648 0 Video preselection ADEA ____ ___ ___ SO amps Video preselection _____ 16 esames eee sonon fare RD3275 Pre text insertion with C 2 2 amps video fail detection RD3276 Loop thru pre
52. precautions remove U6 IC from the board and replace with the IC labeled RD100 V4 31 or higher Ensure anti static precautions are taken Replace RD100 subrack controller module s RD105 Subrack Controller Modules Remove RD105 subrack controller module s from subrack s Using anti static precautions remove U6 IC from the board and replace with the IC labeled RD105 V1 04 or higher Ensure anti static precautions are taken Replace RD105 subrack controller module s RD200 Text Insertion Modules All RD200 text insertion modules require the following modifications to be made to LK2 Link 2 located adjacent to U21 With the side cutters cut the link between the centre pin and the B pin Turn the printed circuit board over and with the soldering iron place a solder bridge between the centre and the A pin Replace all RD200 modules back into relevant subrack s 9 2 RS 232 BASICS The MAXPRO Net equipment uses XON and XOFF signaling protocol and therefore does not require hardware handshake signals to be wired Only 3 wires TX Data RX Data and Signal ground are required Using your RS 232 test box even quite high speed data can be seen clearly as the LED indicators flash quickly This will indicate that data is being generated but does not indicate its speed or other characteristics After connecting all equipment ensure that a light is displayed on a Data Breakout Box for each direction This means the TX Data line is connected If
53. protocol for multi drop applications and is suitable for optical fiber TX RX A multi drop ring loop fiber data system can be used to communicate with up to 16 PTZ sites Another option is to run optical fiber to the first PTZ site and then normal 2 wire connection continues onto other sites DIP Switch Settings The use of the communications DIP switch SW2 is summarized in the table below Following is more details of the functions of each switch Sw2 DESCRIPTION ______ __ _ FACTORY 2 Destination Mate OFF 3 __ ____ Enabled Disabled_ ON ____ 5 SteIDNo _ Reftablepage 6 SteIDNo Reftablepage 7 StelDNo ____ Reftablepage 8 StelDNo Reftablepage SW2 4 MUST be to the ON position SW2 1 Mode Select master or slave The RD379 should have this switch set to off to select slave mode SW2 2 Destination Type master or slave The RD379 should always have this switch set to off to select a destination of master SW2 3 Polling mode The polling mode on all RD379 site receivers and RD315 control card on the communications network should be set to the same ON or OFF Usually polling is switched ON and in this mode the RD315 control module will sequentially communicate with all known slave locations PTZ site receivers in the network on a continuous basis If the RD379 does not respond to this polling then this change will
54. receiver LED indicators show the status of all fuses If a site is having problems with part of a control function it is most likely that the problem is in the external hardware of the PTZ or lens Most PTZ site faults occur because of poor installation and the subsequent mechanical damage to the wiring from movement The error log file would also have logged any fail or restore action on the PTZ site receiver even if it is only because of a temporary loss of power However if a PTZ site has genuinely failed then the LEDs tell the story First is the communications LED flashing off and on If not then a check of the cabling to the site may be required If the power supply boards have blown fuses and the change of a fuse does not fix the problem and the fuse blows again a replacement of the control board may be required PTZ sites on poles are often susceptible to lightning strike If this happens then the site receiver may not be serviceable at all 5 3 HMXMUO 1018 10 06 5 3 MACRO ERRORS Macro errors are displayed as a warning message on the video monitors text overlay for a period of two seconds following the error condition occurring It is also recorded ina text file called ERRORLOG that can be viewed in the MaxMon Error Log window or in the Maxmon utility together with a macro trail to help identify the cause of the macro error 7 nvalid PTZ speed Unknown system constant error Unknown text message command
55. required for site communications Linking lt 2w gt selects Balanced two wire communications Note This is the Default setting Linking lt 4w gt selects four wire communications Transmit data is through the line transformer to a balanced two wire and is from the normal two wire connection pins One side of this can be connected to ground if required to make the circuit unbalanced Alternatively the un balanced audio can come from DB25 pin 6 audio and DB25 pin 19 ground Receive audio is through the unbalanced input DB25 pin 7 audio and DB25 pin 20 ground LEVEL POTS These are factory set and should never need adjusting However on long cable runs an increase in levels may be used Both pots increase with a clockwise rotation RV1 is receive level and RV2 is transmit level Line Interface Connector part of DB25 for the used slot Pio J Hiz Unbalanced TX audo OUTPUT Balanced 2 wire line second wire 4 wire TX NOTE For normal system installations the two wire line is connected across pins 22 and 9 of the D25 connector corresponding to the slot position of the RD 315 module The UNBALANCED INPUT should not be wired more than a few meters in length and must be shielded as it is a high impedance input The preferred connection point for 4 wire TX output is from the line transformer pins 22 9 Pinno Desripion I8 Receive Data data to site Transmit Data data from site
56. s access control systems etc An on board VGA chip set is included for displaying system configuration and diagnostic software One PCI Bus 8 Port Serial RS 232 COM card is included providing for communications between external devices such as matrix switching sub racks pan tilt and dome receivers and keyboards Keyboard and mouse included In order to use 232 you will require an IBM compatible computer with two serial communications ports COM1 amp COM2 preferably a portable unit A Hard Disk Drive is recommended if the recorder function is going to be used A variety of patch cords and adapters are usually required Overview 232 is a very useful service tool as it allows you to look at the data being passed down RS 232 link This enables you to evaluate the data and check that what data you think should be appearing is actually there It also allows you to see any data corruption which can be very hard to find if you are not able to see the data Another very useful feature is the ability to insert a command in either direction PATCH232 has a recording mode that allows it to act as a data logger This feature is handy for any intermittent problems as you can leave 232 to record all data passed over the link to be examined at a later date Instructions for Use PATCH232 can be used at either end of the link To connect the laptop remove the cable going to the MAXPRO Net Control Computer from the S
57. slot numbers The net device field is left empty If all the steps have been followed and the physical configuration matches the software configuration the system will now allow access to remote cameras VCRs etc It is vital that Trunk 1 output is connected to Trunk 1 input etc or the system will not work correctly See the MAXPRO Net Commissioning Manual for details on restrictions when using trunked systems Rev C 9 4 HMXMU001018 10 06 9 5 RECOMMENDED SIGNAL CABLES To maintain equipment performance signal quality and EMC compliance only the cables listed below should be used If other cables are selected you must ensure that they meet or surpass the specifications given in these tables 9 5 1 Video cable For video signals always use 75 ohm coax cable with properly matching terminations to prevent electrical reflections within the cable Such reflections could be seen in the displayed picture as a GHOST image To prevent radiation and reduce susceptibility of electromagnetic interference never use coax cable that has less than a 95 braided shield Do not use foil shielded coax cables as the flexing of such cables at or near the physical connector termination may fracture the shield causing an intermittent earth connection for the video signal Conductor Nominal Size AWG Dielectric Jacket Nominal Nominal Attenuation Material Type Size Shield Type Size Impedance Capacitance 200MHz mm mm mm ohms 23 sol
58. software allows these remote alarm inputs to be utilized in exactly the same way as are those from a RD 400 alarm input card The alarm test facility SW1 8 automatically echoes the current alarm input state back to the relay outputs Using the output LEDs the alarm input can be locally tested and verified Alarm inputs 1 7 are echoed to relay outputs 1 7 The tamper input on the RD 378 is echoed to relay output 8 Note that this test facility should be disabled during normal system operation Manual Iris Control This output provides ve and ve voltages for manual iris control This output is from PL16 on the 10 378 board There 2 links associated with this output that select between 6 volt or 12 volt iris motors LK1 and 2 both off for 12V iris motors LK1 and LK2 both on for 6V iris motors These link positions do not affect the zoom or focus motor voltages 7 11 13 HMXMUO01018 10 06 71111 1 378 Optional I O Expansion Board with 240V Relays The RL 378 plugs into the 20 way boxed header J1 on the RD 378 via a ribbon cable The RL 378 provides relay output contacts alarm inputs and lens iris control The RL 378 cannot be mounted inside the RD 378 case so the ribbon cable supplied is long enough to allow the RL 378 to be mounted externally Note On the RD 378 set switch SW3 6 ON This enables the RD 378 to control the RL 378 Relay Outputs Four separate relay output contacts are provided T
59. that all proprietary notices are reproduced thereon Any such copy shall remain part of the Licensed Programs and shall be subject to this agreement 5 OBJECT CODE Licensee understands and acknowledges that the Licensed Programs consist of object code only and that HONEYWELL shall not supply source code versions of the Licensed Programs Licensee shall not create or attempt to create by de compilation or otherwise the source code for the Licensed Programs or any part thereof 6 SECURITY Licensee acknowledges that the Licensed Programs are security related and access to the Licensed Software should be limited to authorized individuals Licensee assumes full responsibility for use of the Licensed Programs whether by authorized or unauthorized individuals Licensee agrees that the License Fee has been set in reliance upon the limitation on liability contained herein and that such provisions are fair and not unconscionable HONEYWELL does not represent that the Licensed Programs may not be compromised or circumvented that the Licensed Programs will prevent any personal injury or property loss by burglary robbery fire or otherwise or that the Licensed Programs will in all cases provide adequate warning or protection Licensee understands that a properly installed and maintained alarm may only reduce the risk of burglary robbery or fire without warning but is not insurance or a guarantee that such will not occur or that there will be no person
60. the information on these pages may become incomplete Please verify data sheets that are supplied with units are not of a later revision to those in this section before discarding 4 MULTI PORT SERIAL CARDS SYSTEM CONTROLLER AUTO CHANGEOVER UNIT VIDEO SELECTION MODULE 1 CH TEXT INSERTION MODULE seconds PERIPHERAL INTERFACE MODULE Rev C 7 1 HMXMU001018 10 06 Notes Rev C 7 2 HMXMUO01018 10 06 7 2 MX04 8 MX08 MULTI PORT SERIAL CARDS The MX04 MX08 cards are used to provide multiple RS 232 serial communication ports in MAX 1000 System Controllers The 04 and MX08 provide 4 ports and 8 ports respectively The boards plug into any available ISA expansion slot in the control computer with the maximum combination being two MX08 and one MX04 boards giving a total of 20 ports Note This card is not used with MAXPRO Net MAXPRO Net uses standard windows PCA Serial Port expanders 7 2 1 Switch Settings Each board has a 4 way DIP switch This sets the address for each port and is detailed in the table below Note that SW4 is not used No two cards in any System Controller should have the same switch settings MX08 Switch Settings SW1 SW2 SW3 PORT 1 PORT2 PORT 3 PORT 4 PORT 5 PORT6 7 PORT 8 ON ON ON 3F8 2F8 2B0 2B8 1A0 1A8 1B0 1B8 3FF 2FF 2B7 2BF 1A7 1AF 1B7 1BF ON ON OFF 160 168 170 178 180 188 190 198
61. then cancel it whilst in the middle of a privacy zone By disabling pan tilt and zoom functions while passing through the privacy zone this problem is avoided The privacy zone alarm messages are sent as normal when the privacy zone is reached The RD 378 does not allow views to be set on the edge of an existing privacy zone Therefore move away from any privacy zones before setting views There may occasionally be a requirement for a view to be set up within privacy zones In this case set the view first and then set the privacy zone MAXPRO Net Information The default number of views accessible in MAXPRO Net is 10 To enable the full 100 views and therefore allow privacy zones to be set a key intercept is required from the lt VIEW gt key Refer to MAXPRO Net commissioning manual regarding intercepting keyboard keys The key replacement macro required for 100 views is v lower case e Obviously it is important to ensure only supervisors have the specific access privilege to set views Refer to MAXPRO Net commissioning manual regarding Keyboard Operators Otherwise operators would easily be able to re position or disable privacy zones 10 378 Optional I O Expansion Board The 10 378 plugs into the 20 way boxed header J1 on the RD 378 a ribbon cable The board is supported by stand offs The 10 378 provides relay output contacts alarm inputs and lens iris control NOTE On the RD 378 set switch SW3 6 ON This enabl
62. to link and CD to link the communications processor to the motor control processor Factory default Four Wire Audio In some situations a 4 wire audio connection may be more suitable For example if an optical fiber AF channel is being used The receive data is an unbalanced input at PL3 while transmit data is via balanced two wire at PL4 Audio sing around or feedback can be avoided using this type of connection The receive data cable should not be wired further than a few meters and must be shielded as it is a high impedance input LK6 must be in position 4W In addition LK2 must have jumpers to link and CD to link the communications processor to the motor control processor CAUTION The UNBAL INPUT should not be wired further than a few meters and must be shielded as it is a high impedance input 7 12 2 HMXMUO01018 10 06 Rev C AF 232 The RD379 also supports AFSK data at RS 232 levels known as AF 232 For this format use connector PL7 and LK6 must be in position 2W LK1 is used to select Echo or Echo off A for data In Position A the site receiver s own data is transmitted in AF 232 format This is also sent in position B but in addition the receive data is also transmitted Note The RD315 communications modules used to control the RD379 have a similar link and only one end can be used in the echo on mode AF 232 communications contain full
63. using a multimeter to determine the transmit pin its voltage should be between 9V and 15V with reference to the ground pin Transmit Data TX pins must always be connected to Receive Data RX pins RS 232 is not balanced or transformer isolated and is generally not suitable for wiring between buildings or locations where the ground potentials are different While most RS 232 drivers and receivers will tolerate short circuits and accidental connection to voltages within the normal signal range they are still subject to Electrostatic Discharge Rev C 9 2 HMXMUO01018 10 06 9 2 RS 232 BASICS CONTINUED The cable distances that can be used are dependent on both the speed of transmission and the type of cable used Reducing the data rate increases the distance available as does low capacitance cable If long distances are required use RS 232 line drivers These line drivers convert from RS 232 to other formats such as RS 485 or Fiber Optic that are better suited to long distance data transmission At the other end the data is converted back to RS 232 format AF 232 as used by MAXPRO Net PTZ communications is not the same as RS 232 Only the signal levels are the same the data format is incompatible with normal multiplexing and packet switching methods AF 232 can be used where the equipment supports RS 232 signal levels but imposes no protocol amp timing restrictions on the data A typical example of this would be an RS 232 link over Op
64. zone simply set the required views at the same position Only if the view positions are different will the zone be enabled Similarly if the view for the top right corner of the privacy zone is set to the left or below the bottom left corner of the zone the privacy zone will be disabled Combining Privacy Zones Privacy zones with shapes other than rectangles can be created by combining 2 or more 2 zones See diagram below Privacy Zone 1 Privacy Zone 2 When combining privacy zones it is best to keep the zoom settings of the bottom left corner views 90 and 92 in the above diagram the same In this way when zooming out both privacy zones will be disabled together and conversely when zooming in both will be enabled together Privacy Zones and Views When recalling views it is possible a privacy zone is between the current position and view setting If this is the case as the pan tilt reaches the edge of the privacy zone all pan tilt Zoom and focus operations from the keyboard for that camera are disabled until the pan tilt reaches the other side of the privacy zone See diagram below Pan and tilt Zoom and focus disabled while in this region 7 11 11 HMXMUO01018 10 06 7 11 9 7 11 10 Rev C RD378 Privacy Zones Continued This is done because a view recall is usually terminated when any pan tilt control input is received from the keyboard Therefore an operator could perform a view recall and
65. 0 06 7 12 11 Compliance Installation Requirements The RD379 is normally supplied with a RITTAL KL 1503 housing in order to ensure compliance with the European Directives on E M C There is also a mandatory requirement to specify the installation parameters in order to comply with the European Directives on E M C The RD379 fully optioned has been installed tested and found to comply under the following minimum requirements The RD379 relies on Pulse Width Modulation to give motor drive waveforms and speed control These waveforms have rapid rise and fall times for efficiency purposes They are therefore rich in harmonics which lie at the audio end of the spectrum 1kHz 100 2 A metallic shield must be provided for the cables between the RD379 housing and the case of the pan and tilt head All cables between the Pan and Tilt Head and the controller including the video cable must be enclosed in a metallic shield The shield may be an overall flexible metallic conduit or individually shielded cables In the case of individually shielded cables all cable screens must be bonded to ground at the entry exit plate of the housing and at the case enclosure of the Pan and Tilt Head The video and control cables from the controller housing to the MAXPRO Net system must be fitted with Ferrite Shielding Beads type 43 6301 or equivalent The beads are to be located on the cables at a point just inside the enclosure A compliance kit
66. 04 Bratislava Slovakia www olympo sk TEL 421 2 444 54 660 Honeywell Video Systems www honeywellvideo com 1 800 796 CCTV North America only HVSsu honeywell com Document HMXMU001018 10 06 Rev 2006 Honeywell International Inc All rights reserved No part of this publication may be reproduced by any means without written permission from Honeywell Video Systems The information in this publication is believed to be accurate in all respects However Honeywell Video Systems cannot assume responsibility for any consequences resulting from the use thereof The information contained herein is subject to change without notice Revisions or new editions to this publication may be issued to incorporate such changes
67. 1 and Port 15651 5 4 DATA STREAM TESTING 5 4 1 Rev C Some of the following sample fault finding techniques suggest looking at the Data Stream There are many methods of viewing the data stream ranging from simple indicator boxes that will help diagnose wiring errors or breaks or loss of data to RS232 data stream logging programs such as PATCH232 RS232 Breakout or Indicator Boxes The MAXPRO Net Server uses XON and XOFF signaling protocol and therefore does not require hardware handshake signals to be wired Only three 3 wires TX Data RX Data and Signal ground are required Using your RS232 test box even high speed data can be seen clearly as the LED indicators flash quickly This indicates that data is being generated but does not indicate its speed or other characteristics After connecting all equipment ensure that a light is displayed on the Data Breakout Box for each direction This means the TX Data line is connected If using a multimeter to determine the transmit pin its voltage should be between 9V and 15V with reference to the ground pin 5 7 HMXMUO 1018 10 06 5 4 2 Rev C PATCH232 Test Program 232 can assist in solving problems relating to speed format and protocol as well as being particularly useful for diagnosing intermittent problems System Requirements MAXPRO Net Server communicates with external devices and accepts commands from external computers keyboards GUI
68. 1 lead When assembling cables the crimp on RJ11 connectors always mount on the same side of the flat cable i e no distinction between ends Rev C 8 2 HMXMU001018 10 06 8 2 SUBRACK CONNECTIONS CONTINUED CONNECTOR CABLE CONNECTOR ALLOCATION 1 E 2 GND 5 CONNECTION WITH MAXPRO NET DEVICE FITTED WITH CANON 3 PIN PLUG SUBRACK ETC MAKE N LOK 59 Pin No s Pin No s __ svp 1 CONTRACT No HONEYWELL DRAWN HMX SERIES PIN UTILISATION DRANG MG 10043 COPYRIGHT SUBJECT TO CHANGE WITHOUT NOTICE SUBRACK POWER SUPPLY POWER INTERCONNECTION 4 Rev 8 3 HMXMUO01018 10 06 PT321 CONNECTIONS 8 3 SNOLLOSNNOOUSLNI 126 14 OL 31925 OL LON 8 g 8 2 L 8 L NOMWMWOO A L 1 d NM THN m HMXMU001018 4 NOHAOJI W L 8 4 NOWHMOS 10 06 CONTINUED 8 3 PT321 CONNECTIONS SNOLIOZNNOOHJINI SNOILF INNANOO 43413034 ALIS 122 14 21925 OL LON 04 r u op AJE NOLLTTOS NOLLO3MK 350440 JHL NI SN d LI NAHA 3593134 LON TIA J4wH8 JHL G3llddy SI ON 3SnwO38 NO NAH TIHA 3Hl SI WOld US ZHL 40
69. 18 7 11 17 Rev C 10 06 35NYHO OL 5 9 010019 oy maan 30112 B 04 0287 ANT 200 2 931 2 11 11925 OL LON 512 04 35 4JdANT 110008 HLONST 318 2 WLOL XVM ALON 7771 GZ MO 2 077 Nid ZL 11016 Nid SNOLWOINNMNOS ILIS 414 Kid 414 d SM34I3 38 315 01 SI SNOLLO3NNOO 01109 JHM OUVOUNVIS MCA 30N3NHOAII SNOLLO3NNOO OldNY 15 54343034 318 9L 40 v GL HMXMUO01018 7 11 18 Rev C 10 06 LNOHUM 39NvHO OL 5 LHOh4AdO2 9 Een 098 ANT 20 72111 M 9M1 Mi dLE 0Y 12 04 SONILUS 4195 OL LON S3HL3W 5 NYHL H3HLH H 38 10N 5 d 104 ONY QGISNYTWANN OL ANN 790 olanv 02 Nid 315 SH3AIJOJM ONY 541 5 2140 33813 5240 34814 VIA NOLLO3NNOO OlQfiv WOldAL HMXMU001018 7 11 19 Rev C 10 06 OL 5 1HOA400 9 ZLODLOH a S 31 25 OL LON 231 2 11 S NILL3S ANN 1 SHOLSOINCIHAIOD AUS
70. 18 10 06 7 11 2 7 11 3 Rev C Power Supply The site receiver is supplied with AC mains power via the IEC connector mounted on the PCB support bracket This connector contains fuses rated at 2A 220VAC anda power filter The IEC socket is connected under the support bracket to the toroidal transformer primary The transformer secondaries provide the following voltages to the site receiver and have the associated fuses installed 2 x 20V 5A PL17 and PL18 F1 and 22 rated at 5A With the fuses in place the resulting unregulated 28V DC will light LED s L18 and L19 Used for pan tilt motor drive 2 x 10 5V 2A PL19 and PL20 F3 and F4 are rated at 2A With the fuses in place the resulting unregulated 12V DC will light LED s L2 and the regulated 5V will light L1 Used to provide power for lens drive 12V DC camera power and to supply the microcontrollers and associated circuits with regulated 5V 1 x 24V 1A PL2 F5 is rated at 1A With the fuse in place LED 120 will light Used for AC camera power The 24V used to power an AC camera is output from the board at PL2 This supply is isolated above ground Alternatively 12 DC camera is used power is supplied from PL1 Communications The RD378 site receiver communications are controlled by the CC 2000 micro controller This section details the switch and jumper settings needed for the required mode of communications Bal
71. 2 from a RD 315 to one PTZ site can also be used over networks requiring a normal RS 232 asynchronous protocol Mixed modes of communication can also be used An optical fiber cable can be used for the first site and a two wire line onto the successive sites Or a two wire line to the first and then the optical fiber cable continuing onto the successive sites The site receiver manuals contain drawings that show many methods of connecting to the RD 315 7 9 1 PTZ Site Wiring The normal connection to the site is a two wire data type cable that carries the AFSK control information from the RD 315 communications module In some situations a 4 wire audio connection may be more suitable for the type of transmission equipment being used i e optical fiber AF channel bi directional In a 4 wire mode link audio ring around or feed back can be avoided There are special interface connections for RS 232 and other types of fiber optics 7 9 2 DIP Switch Setting The RD 315 module uses the standard CC 2000 communications controller chip This chip is also used on all PTZ site receivers As such the CC 2000 chip must be setup for the desired and compatible mode of operation Communications Modes SW Description Factory Mode Select Poll Mode Disabled NotDefined Rev C 7 9 2 HMXMUO01018 10 06 7 9 3 Setting Audio Communication Link Points Line Interface Link 2 wire 4 wire LK1 selects the type of audio connection
72. 2 mode of operation connection to peripheral equipment is achieved by connection to the RS 232 port on the 25 pin D connector to the peripheral device non standard RS 232 pin outs When interfacing via the IR PPM mode the module is capable of driving IR LED s directly This enables an IR LED to be located in close proximity to the receiver on the peripheral device control over the peripheral device is thus achieved without physical connection The alarm inputs are configurable as level sensing inputs the input threshold voltage is adjustable to 3 6 9 or 12V by means of dip switches refer to table 2 The detection logic may also be inverted and a self biasing option is also available The options allow for virtually any peripheral device to be interfaced with ease The RD490 module is pre programmed with IR data for a range of standard VCR types Should a function or sequence be required which is not available in the standard selections then the learn mode can be utilized to user define the functions RS 232 control sequences are also readily programmed into the module The RD490 module features a comprehensive test mode and error display function to enable users to rapidly identify and resolve any difficulties that may arise Rev C 7 15 1 HMXMUO01018 10 06 7 15 3 Connector Details All connections to the RD490 module are via the male DB25 connector located on the rear panel of the I O subrack for the slot position being used It c
73. 2128 subrack to Port 1 of your System Controller Connect a BNC patch cable from the menu output of your System Controller to the last video input connector on your MX 32128 subrack Connect a monitor s to the video output connectors of your MX 32128 subrack Connect both the RD 500 530 and qwerty keyboards to your System Controller Connect video source cables to the inputs of your MX 32128 subrack 11 1 HMXMU001018 10 06 11 4 STARTUP Insert the supplied system software disk into the floppy disk drive of your System Controller Apply power to your System Controller power supply Wait for your system to boot your system will now be operational 11 5 BASE CONFIGURATION Rev C As shipped your MAXPRO Net HD Series switcher is pre configured as follows a video inputs are defined as cameras with names preset to CAMERA xx where is the physical input number The only exception to the above is the final video input which has been defined as the system menu input All cameras have pan tilt zoom control defined Video fail level testing is disabled this is to prevent numerous alarms from unconnected or non existent video sources All video outputs are configured as monitors with text the first monitor output has been configured to display all alarms Keyboard and operator definitions have already been entered however no password log on off requirement has been defined NOTE Q
74. 21311 Skl LS As OHSJdXUL 135 381004 NOVA 811710815002 ENII 301844 092 N1 Q cs 15 rm 100 002 ANINA 51904 9 vh T F 51515 92 9 fr SIS Ol 5184 14 HMXMU001018 8 10 Rev C 10 06 MODULE D25 CONNECTIONS 8 9 Ca L L IS 1 393551 193901 35835 351425 athas m n 11411 OKNO4B 202 58 GNnONS 104100 4 4 104100 10014100 aM Wdd 1 41 0 47864 104100 Arde 104100 4 4 104100 17014100 4 8 4 480020 184 2 1 58 9194 262 58 56 8 86 0 574 nn rt NING 35117 Nania 361129 o 2222222222222222 XXZZZZzEzzz V 8 0 8 0 0 0 3 8 0 0 8 8 0 5 8 8 punos 311414 aq 13 11 311 1 201 1075 03 0 1 snoruvn Wid 48908 HAHLOH 5294 TANYd 893 10 06 HMXMUO01018 8 11 Rev C I O MOD
75. 27 NOV 96 17 39 31 gt MACRO ERROR 15 KB 1 KBO1 KI017 040 041 042 27 NOV 96 17 39 42 gt MACRO ERROR 51 KB 5 KBO5 AS104 301 050 27 NOV 96 17 39 50 gt MACRO ERROR 14 34 34 001 113 114 The following table describes the two letter macro event code for the reported macro error DM Direct macro command from an external system highlevel The macro error report also details other important events in the MAXPRO Net Crosspoint Matrix Video Switching System For example Rev C 5 6 HMXMUO 1018 10 06 5 3 1 ERRORLOG Report in SetMax Configurator Continued Setmax for MAXPRO Net V03 10018 SG Security Eile Server IP 127 0 0 1 v El g Video Inputs Video Outputs Sequence Tables CCTV Keyboards Intercept Keyboard Keys Keyboard Operators Alarm Inputs Auxiliary Control Outputs Edit View Tools Update Help alelx 2181 Sle aj 6 6 System Macro Library Special Parameters Serial Ports Error Log Title and Registration Logical Camera Selection VCR Management Ethernet Ports 08 Mar 2005 12 26 48 gt Licence No V03 10018 5G gt Site Name Security gt Setmax for MAXPRO Net Cleared Errorlog by DISTRIBUTOR gt Client of SetMax Type and 1 Id connected to 2000 gt LUPDATE BEGIN gt LUPDATE COMPLETE gt Deleting Connection Object of Type lt SetMax gt Id 1 gt SETMAX Exit gt
76. 315 two wire transmitter module located in the equipment subrack Sites can be wired star or delta configuration and all sites are protected against high voltage destruction with line isolation transformers on the two wire line Capable of controlling any 24V DC pan tilt unit at variable speeds and the lens functions at two speeds Capable of retaining and subsequent re positioning of up to 100 separate PTZ views presets When a view is selected the pan tilt unit slows down as the required position is approached Pan and tilt soeeds vary with the zoom position of the lens A site tamper alarm input for securing the control cabinet the alarm being sent to the main MAXPRO Net Server Communication options including synchronous bit stream at RS 232 levels known as AF 232 Direct RS 232 from RD315 control card to one RD378 over networks where normal RS 232 asynchronous protocol is required Mixed modes of communication can also be used Fiber can be used to the first site and then the two wire line to the successive sites Or perhaps two wire to the first site and then fiber continuing to successive sites If the optional expansion board 10378 is fitted then an additional seven direct contact or current loop sensing alarm inputs are available The board also provides eight separate relay output contacts and an iris output for control of motorized manual iris lenses Rev C 7 11 1 HMXMUO010
77. 32 or equivalent cut to the required length 9 6 POWER DISTRIBUTION WARNING Always disconnect the mains power supply before accessing the equipment to be serviced WARNING All mains powered equipment should be connected via a locally mounted switched GPO outlet Direct mains connection is illegal WARNING When servicing equipment the use of SERVICE TAGS should be employed at switchboards circuit breakers fuses and or mains outlets to warn other personnel that the distributed power feed has been isolated WARNING All precautions should be observed to prevent ELECTRICAL SHOCK Power distribution is a confusing and difficult area to estimate Choosing the correct cable conductor is of major importance to minimize systems costs while maintaining power requirements for the equipment used Minimum power requirements of PTZ site receivers cameras and other remote equipment must be observed with respect to total load on the power feed and voltage fluctuations caused by varying load demands of the equipment PTZ operation etc This should NOT be calculated on an average consumption basis Maximum worst case conditions should always be assumed Rev C 9 8 HMXMUO01018 10 06 9 6 POWER DISTRIBUTION CONTINUED Below are three tables aimed to help with the estimation of conductor diameters required The variables are stated as follows 9 1 DISTANCE required in Meters 10 2 MAXIMUM LOAD current in Amps 11 3 MINIMUM
78. 799799 o HAVIS 4ALSVW m NI 8 WHLSVW HAVIS DNSW NSW 9 XH 8IXN S IVNDOIS XL T 8 51404 HMXMUO01018 7 3 4 Rev 10 06 7 3 1 Chassis SLAVE MAXPRONET SERVER MASTER MAXPRONET SERVER Integration of MX18 System Controller with MAXPRO Net and VideoBloX Matrix COM1 SUBRACKS COM2 KEY BOARDS COM1 SUBRACKS COM2 KEY BOARDS MAXPRO Net COM 1 9 089 DB9 RJConnector provided by Honey well H UTU H T RS232 RS232 MX18 SUBRACKS Moai Mew e 6 5 4 2 Shw Mister Auxiliary Stay Pomer v
79. AWG stranded tinned copper drain wire The cables are covered with a PVC jacket The wire conductors are polypropylene insulated providing a rating of 300V at 60 c The EIA RS 422 and RS 485 standards use a balanced wire pair to send or receive data signal levels 5v and 5v DC This means that the inserted signal is across the pair and not with respect to ground When measured at the receiving end it is the difference across the wire pair that indicates the data bit being transferred There can be AC or DC potential difference to ground and not affect the recovery of the transferred data Nominal Nominal Wire Outside Capacitance pF m Conductors Diameter between mm conductors Number Pairs 24 Gauge Beldon 9829 2 Stranded Tinned copper 7x32 The recommended cable has individually screened pairs in an aluminum polyester shield with an overall tinned copper braid shield 6596 coverage The cable is covered with a PVC jacket The wire conductors are polypropylene insulated providing a rating of 30V at 60 c The nominal impedance of the cable is 100 ohms 9 7 HMXMUO01018 10 06 9 5 4 Keyboard Extension Cable The HEGS5300 keyboards as supplied include a one meter standard length of interface cable Should there be a need for a longer cable an extension kit is available from the supplier This kit has a male DB15 plug and a female DB15 socket two Amidon Associates FB 43 5621 Shielding Beads and interconnect cable Beldon 87
80. C 11 14 HMXMU001018 10 06 11 17 HMX128 MODULES WITH 3 DIP SWITCHES OLDER VERSIONS MX128 LAYOUT SW1 MODE SWI a Fm 2 m e a PTZ GA1 GA2 GA3 GA4 CONTROL or or o or aa o ae a PROTOCOL GB1 GB2 GB3 GB4 G lt N OFF OFF OFF OFF Diamond FastScan SmartScan a JO CARDDATA ON OFF OFF OFF Diamond SmartScan III KD6 onwards 3 J SERIAL DATA z lic d Loic SC J OFF OFF OFF MAXPRO RS 485 5 D J 2 E Je voor ON ON OFF OFF MAXPRO AF 485 OFF OFF ON OFF Panasonic ON OFF ON OFF Pelco AD Format OFF ON ON OFF Vicon Std ON ON ON OFF Vicon Extended OFF OFF OFF OFF Star Micronics 51 ON OFF OFF OFF VIDEV OFF ON OFF OFF VCL ON ON OFF ON PelcoP Format sw2 am LE OFF OFF 1 IF ID400 5 FL ON OFF ON ON Speeddome 8 3 10300 OFF ON ON ON Kalatel 4 OFF CC EOL mode SUBRACK ON ON ON ON Baxall 7000 Series SW3 pa ADDRESS 1 7 ID 1 99 ar IDA 8 19 2K Baud v R D2 BAUD 1511 This is a system reset button for the MX128 Control Card This is used only for commissioning and troubleshooting Rev C 11 15 HMXMU001018 10 06 11 18 MX826 VIDEO DIST
81. Client of SetMax Type and 1 Id connected to Max2000 gt LUPDATE BEGIN gt LUPDATE COMPLETE gt Deleting Connection Object of Type lt SetMax gt Id lt 1 gt gt Exit MAXPRO Net SERVICE STOP gt Deleting Connection Object of Type Network Id 7 gt Deleting Connection Object of Type Network Id 2 gt Deleting Connection Object of Type Network Id 5 gt Deleting Connection Object of Type Network Id 3 gt MACRO ERROR 26 0 KB47 SN047 gt MACRO ERROR 26 0 100 5 093 gt MAXPRO Net is Now Running gt Connected to server of Type Network and Id 5 gt Client of Network Type and 2 Id connected to Max2000 gt Exit MAXPRO Net SERVICE STOP gt Deleting Connection Object of Type Network Id 1 gt Deleting Connection Object of Type Network Id 2 gt Deleting Connection Object of Type Network Id 4 gt Deleting Connection Object of Type Network Id 5 gt Deleting Connection Object of Type Network Id 2 gt Connected to server of Type Network and Id 5 gt Client of Network Type and 2 Id connected to Max2000 gt MACRO ERROR 26 0 KB47 SN047 gt MACRO ERROR 26 0 100 5 093 gt is Now Running gt SETMAX Now Running by DISTRIBUTOR Ready 222 5 2 ESENCIE 2 31 PM Setmax for MAXPRO Net connected to IP 127 0 0
82. D 378 site receiver firmware V2 00 and above privacy zones can be defined by setting views from the operator keyboard In this way they can be easily defined and changed by supervisors as required To enable privacy zones on the RD 378 set DIP switch SW3 2 ON CAUTION When using the 10 378 module the Privacy Zones option is not available Setting Privacy Zones The RD 378 can have up to 5 privacy zones defined at any time The zones are defined by setting views 90 through 99 For the first zone privacy zone 1 views 90 and 91 define the window that excludes the operator from entering Privacy zone 2 is defined by views 92 and 93 etc See diagram below To set an effective privacy zone the following procedure is followed 4 Set the zoom to the position required 5 Using the keyboard move the pan tilt so the bottom left corner of the required privacy zone is at the very top right corner of the screen At this position set view 90 Move the pan tilt so the top right corner of the required privacy zone is at the very bottom left corner of the screen 8 Atthis position set view 91 The first privacy zone has now been set and will stop the operator panning or tilting into the area 7 11 9 HMXMUO01018 10 06 7 11 9 RD378 Privacy Zones Continued When setting view 90 position the zoom position is stored If the operator then zooms out from this position the privacy zone is disabled However zooming into this posi
83. DW Building 388 Castle Peak Road Tsuen Wan N T Hong Kong www security honeywell com hk TEL 852 2405 2323 Honeywell Security France Parc Gutenberg 8 Voie La Cardon 91120 Palaiseau France www honeywell security fr TEL 33 01 64 53 80 40 Honeywell Security Italia SpA Via Treviso 2 4 31020 San Vendemiano Treviso Italy www honeywell com security it TEL 39 04 38 36 51 Honeywell Security Espana Mijancas 1 3a Planta P Ind Las Mercedes 28022 Madrid Spain www security honeywell com es TEL 34 902 667 800 Honeywell Video Systems Northern Europe Netwerk 121 1446 TR Purmerend The Netherlands www SecurityHouse nl TEL 31 299 410 200 Honeywell Video Systems UK Ltd Aston Fields Road Whitehouse Ind Est Runcorn Cheshire WA7 3DL UK www honeywellvideo com TEL 0844 8000 235 Honeywell Security South Africa Unit 6 Galaxy Park 17 Galaxy Avenue Linbro Park P O Box 59904 2100 Kengray Johannesburg South Africa www honeywell co za TEL 27 11 574 2500 Honeywell Security Deutschland Johannes Mauthe StraBe 14 D 72458 Albstadt Germany www honeywell com security de TEL 49 74 31 8 01 0 Honeywell Security Poland Chmielewskiego 22a 70 028 Szczecin Polska www ultrak pl TEL 48 91 485 40 60 Honeywell Security Czech Republic Havrankova 33 Brno Doln Her pice 619 00 Czech Republic www olympo cz TEL 420 543 558 111 Honeywell Security Slovakia Republic Vajnorska 142 831
84. FF 2 0FF 3 OFF 3 OFF 3 ON 4 4 OFF 4 OFF 5 OFF 5 5 0 6 6 6 OFF 7 7 7 8 ON 8 OFF 8 ON HVE422FT16 RS422 Ecsswa Protocol Q Em ee E MASTER CHANNELS TO FIELD DEVICES j z KARAKARA Hv BMATPIT COMBO Pint Pind HVB422FT16 HVBHIT44 Fin2 Pins 5422 MASTER R422 SLAVE Fins 2 pus ii Pin 1 TX Pin1 RX Fine Pine Reus Pin2 TX Pin2 pin Pin To VideoBox Natrix Switch Chassis HVBRITA4 Pin 3 PX Pin 3 TX Fins Pins Connector 4 AX Fin4 TX Ping Video BloX Pin5 GND Pin5 GND Setto pinout DIF SwibhS1 1 0n 2 OF 3 OF 4 HVBPIT44 DIP Switch Settings for HD6 25 Diamond Protocol Group STH STS 15172 577 First Of On On On HVEPIT44 HD6 PT2s RS422 Master To HDS 25 up to 8 per HVBPIT44 Pin 1 TX Data Pin2 TX Data 4 Note If HVBPIT44 and HD6 FTZs are set for Honeywell VCL Protocol up to 128 25 be connected to each HVBPIT44 Refer to component manuals Rev C 12 1 HMXMU001018 10 06 12 1 2 Connecting MAXPRO Net Server to Videoblox Chassis through VB Converter VideoBloX Chassis Rx Rx Tx GND a eae Tx Txt Rx Rx GND DB9 VB Converter Tx GND RS232 Tx Rx GND MAXPRO Net Server PC Rev
85. L 378 Each can be individually DIP switch selected for either digital or analogue mode In digital mode standard open circuit and closed circuit conditions are expected In analogue mode a normal input state requires a total loop resistance of 10KQ The dip switch settings are as follows 7 12 10 HMXMUO01018 10 06 7 12 10 RL 378 Optional I O Expansion Board with 240V Relays Continued DIP SWITCH SETTINGS s samo mode Awogee Digit s Noma The MAXPRO Net software allows these remote alarm inputs to be utilized in exactly the same way as are those from a RD400 alarm input card The alarm test facility SW1 8 automatically echoes the current alarm input state back out the relay outputs Using the output LED s the alarm input can be locally tested and verified Alarm inputs 1 7 are echoed to relay outputs 1 7 The tamper input on the RD378 379 is echoed to relay output 8 Note this test facility should be disabled during normal system operation Manual Iris Control This output provides ve and ve voltages for manual iris control This output is from PL12 on the RL 378 board There are 2 links associated with this output that select between 6 volt or 12 volt iris motors LK1 and 2 both off for 12V iris motors LK1 and LK2 both on for 6V iris motors These link positions do not affect the zoom or focus motor voltages Rev C 7 12 11 HMXMUO01018 1
86. MAXPRO Net Crosspoint Matrix Video Switching System Hardware Installation Manual HMXMU001018 10 06 Rev ISSUE DATE REVISIONS A March 2005 Initial Release PCN 1980 B March 2006 Revised Installation Instructions Added detailed drawing for connecting to HVBMATPIT and 2006 VideoBloX Chassis in Chapter 12 Revised the part numbers for VideoBloX reference materials Rev C ii HMXMUO 1018 10 06 FCC COMPLIANCE STATEMENT Rev C INFORMATION TO THE USER This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the users will be required to correct the interference at their own expense CAUTION Changes or modifications not expressly approved by the party responsible for compliance could void the user s authority to operate the equipment This Class A digital apparatus complies with Canadian 5 003 Cet appareil num rique de la Classe A est confo
87. MODULE 025 CONNECTIONS nnne nnne nter innen 8 11 CHAPTER 9 SPECIALIST DOCUMENTATION 9 1 9 1 MAXPRO NET UPGRADE INSTALLATION FROM 1000 9 1 9 1 1 Birectlons io eie oe e e radi oe ie e S re ird 9 1 9 2 85 232 BASICS 5 25 ruga S aa dave aa dea ewe oca cepe dee evo 9 2 9 3 VCR CONNECTIONS USING THE 9022 9 3 9 3 1 Cable Manu facture cree ege Rae Ra FER EC Re CERE 9 3 9 4 SINGLE SYSTEM JUNCTIONS SPLIT 4 9 3 9 5 RECOMMENDED SIGNAL CABLES sse eee 9 5 9 5 1 Video cable ava eR REEL 9 5 9 5 2 Audio telemetry Cable u u icio cce cot 9 6 9 5 3 RS 232 and RS 422 485 cable 9 7 9 54 Keyboard Extension Cable 9 8 9 6 POWER DISTRIBUTION airiran hunn HR a dotado dat beoe 9 8 9 6 1 Mains Power nennen ikae 9 10 9 7 SUBRACK 9 11 9 8 SUBRACK CURRENT 9 12 9 9 MODULE CURRENT nnn 9 14 CHAPTER
88. MX826 VIDEO DISTRIBUTION MODULE CONTINUED 11 18 3 Installation MX 826 BNC TERMINATIONS VIDEO INPUT 1 VIDEO OUTPUT 1 1 VIDEO OUTPUT 1 2 VIDEO OUTPUT 1 3 VIDEO INPUT 2 VIDEO OUTPUT 2 1 VIDEO OUTPUT 2 2 11414441 VIDEO OUTPUT 2 3 LI LI LI LI LI LI LI C LI LI 1 BNC connector at the top of the MX 826 is Video Input Number 1 with the following 3 BNC connectors providing video outputs The 5 BNC connector from the top of the MX 826 is Video Input Number 2 with the following 3 BNC connectors providing video outputs Rev C 11 17 HMXMUO01018 10 06 11 19 HMX832 AND HMX832L VIDEO INPUT AND SWITCHING MODULES 11 19 1 11 19 2 11 19 3 11 19 4 Rev C General The HMX832 and HMX832L Video Input and Switching Modules are both 8 input Modules designed to connect video inputs to the HD Series of Video Matrix Switches Either Module style can be fitted to an HMX32128 Subrack and both can be fitted to the same subrack simultaneously Physically they both function in the same manner Up to 16 HMX832 or HMX832L Modules can be fitted into one HMX32128 Subrack maximum of 16 video input slots available HMX832 Connectors The MX 832 is fitted with 8 BNC connectors on the rear of the Module for simple connection of video inputs via industry standard coaxial cable connectors HMX832L Connectors The HMX832L is fitted with two 16 way IDC style male connectors
89. O Net MX range of I O subracks such as the HMX1132 HMX1600 and the HMX1676 MAXPRO Net I O Modules compatible with the RD9021 are RD315 RD316 RD400 MX440 RD490 and RD494 7 19 2 Installation The module simply plugs into the female D25 connector on the rear of the subrack and immediately provides easy to use screw terminals for field cable terminations Two links L1 and L2 are provided on board to alter the type of termination from the D25 connector to terminal strips B amp D Refer to the illustration overleaf for full termination details Rev C 7 19 1 HMXMUO01018 10 06 DB25 MALE J O Ch 4 UN NM 8 COMMON Uo Dar NOT SCALE HONEYWELL DRAWN AMENDMENT APPD 1111 Copyright Honeywell Subject to change without notice Rev C 7 19 2 HMXMUO01018 10 06 7 20 HMX1676 TEXT INSERTION SUBRACK WITH VCR CONTROL SUBRACK 7 20 1 General The HMX1676 is a Text Insertion and VCR control subrack combined It provides 16 video slots suitable for MX205 or RD220 Text Modules and 2 I O slots suitable for RD490 or RD494 Peripheral Interface Modules 7 20 2 Video Slots Slots 1 to 16 are used for text overlay modules Both a loop through video output and an output with text are provided from each slot 7 20 3 Slots Slots 17 and 18 are used for VCR control Each slot is designed for a RD 490 module for IR VCR control or a RD494 module for resistive ladder
90. RIBUTION MODULE 11 18 1 11 18 2 Rev C General The MX826 Video Distribution Module is a two 2 channel Video Input Distribution Module with three 3 outputs per channel Designed specifically to enable video distribution from the MAXPRO Net HD Series HMX32128 subrack the module can be installed into any of the 16 Video Input slots 1 16 or of the Video Output Slots 1 4 on the HMX32128 Subrack Denotes If installing MX 826 Modules into MX 32128 Subrack they MUST NOT be installed in between or before Input Modules MX 832 MX 832L so as not to break the video input bus in the Subrack Whatever warning needed CAUTION The MX826 cannot be installed in Slot 0 most left hand side slot of the HMX32128 This slot is reserved for the HMX128 Subrack Controller Module only If the HMX32128 is being used solely for Video Distribution only populated with MX 826 Modules then a MX 128 Subrack Controller Module is not required No programming is required within SETMAX to enable the module so installation and operation is simple Operation BNC connector number 1 top of the module is the first video input channel The following three 3 BNC connectors are the distributed video signal outputs BNC connector number 5 is the second video input channel The following three 3 BNC connectors bottom 3 of the module are the distributed video signal outputs 11 16 HMXMU001018 10 06 11 18
91. RO Net system as normal Rev C 7 10 4 HMXMUO01018 10 06 7 10 6 PELCO Intercept Legacy AD Format Format switch SW1 1 4 OFF Mode switch SW2 1 3 8 OFF SW2 20N Data connection Intercept Legacy receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Terminal A should connect to RX and terminal should connect to RX Note Receiver addressing via the onboard DIP switch is true binary with a supported range of 1 through 16 on each RD316 Data rate is 2400bps 7 10 7 PELCO Intercept Legacy Pelco 9750 Format Format switch SW1 1 4 OFF Mode switch SW2 2 8 OFF SW2 10N Data connection Intercept Legacy receivers may be connected with up to 16 receivers supported per RD316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Terminal A should connect to RX and terminal B should connect to RX Note Receiver addressing via the onboard DIP switch is true binary with a supported range of 1 through 16 on each RD316 Data rate is 4800bps Note Intercept and Legacy are trademarks of PELCO Rev C 7 10 5 HMXMUO01018 10 06 7 10 8 7 10 9 7 10 10 7 10 11 Rev C PELCO Coaxitron Interface Format Format switch SW1 1 4 OFF Mode switch SW2 2 4 6 8 OFF SW2 1 3 5 Note Receiver addressing via the onboard DIP switch is true binary with a supported rang
92. RS 485 protocol converters may be directly connected with up to 16 receivers supported per RD316 Module Converter cables may connect to 0825 pin pair 7 B and 20 A or pin pair 8 B and 21 A Tours 1 4 where supported on Kalatel product may be activated through use of auxiliary outputs 5 8 Auxiliary output 2 is mapped to the auto focus function Note A Kalatel protocol converter must be used to convert the protocol to RS485 format One type is the KTD 93 1 7 10 23 Baxall Format switch SW1 1 4 OFF Mode switch SW2 1 2 4 6 8 OFF SW2 3 5 ON Data connection Baxall RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD316 Module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Rev C 7 10 11 HMXMUO01018 10 06 7 10 24 Format switch SW1 2 4 OFF SW1 10 Mode switch SW2 1 2 5 8 OFF SW2 3 4 Data connection Bocom Manchester receivers may be daisy chain connected with up to 16 receivers supported per RD 316 Module Field cables may connect to DB25 pin pairs 22 A and 9 B 23 A and 10 B 24 A and 11 B 25 A and 12 B 7 10 25 Ultrak KX Series Multiplexors Format switch SW1 1 4 OFF Mode switch SW2 4 6 8 OFF SW2 1 3 5 Data connection Ultrak multiplexers may be daisy chain connected with up to 16 units supported per RD316 module Multiplexer data terminal RXA connects to DB25 pin 20 or 21 data terminal RXB to DB25 p
93. SHOCK DO NOT EXPOSE THIS PRODUCT TO RAIN OR MOISTURE WARNING DO NOT INSERT ANY METALLIC OBJECT THROUGH VENTILATION GRILLS THIS PRODUCT TO RAIN OR MOISTURE WARNING THIS UNIT MUST BE OPERATED WITH A PROPERLY GROUNDED 3 PIN CONNECTION NON OBSERVANCE OF THIS STANDARD PRACTICE MAY RESULT INA STATIC ELECTRICITY BUILD UP THAT MAY RESULT IN AN ELECTRIC SHOCK WHEN EXTERNAL CONNECTIONS ARE TOUCHED Rev C vi HMXMU01018 10 06 WARNINGS CONTINUED WARNING OBSERVE PRECAUTIONS FOR HANDLING ELECTROSTATIC SENSITIVE DEVICES Grounded wrist straps must be worn and proper ESD safety precautions observed when handling the electrostatic sensitive printed circuit boards Rev C vii HMXMUO 1018 10 06 SOFTWARE LICENSE AGREEMENT Honeywell International Inc 165 Eileen Way Syosset NY 11791 You should carefully read the following terms and conditions If you do not consent to be bound by this License Agreement you must promptly return the unopened package to the person from whom you purchased it within fifteen 15 days from date of purchase and your money will be refunded to you by that person If the person from whom you purchased this Software fails to refund your money contact HONEYWELL immediately at the address shown above Important This Software is security related Access should be limited to authorized individuals 1 GRANT OF LICENSE Subject to all terms and conditions hereof of Honeywell International Inc acting
94. ULE D25 CONNECTIONS CONTINUED 1 S3d0HN X 58 3314 TY 18111 1010 1 18845 2661 Ydy 28100 ni e uoisinay 1848 4018 8216 SAVIGH AdLAYHSYA 214 andggz113 4 de 38NUND N 5 8 4144 S5NIYU 19140 9 11 lt 8 gt d Adin 9 9 8 21 Z1 173 pil os 1 ex 1310 a 114 2 q p i i Hs gt un e Z 4 0 214 8 i 34 159440 53 32918 es X314 3803 RM Ua 4 5 Wz t id UHNSHUOJ ZLA ai a x Q10N1105 40 34 uaHsun A4 114 Ls 1104 A385 4360130938 ALIS 58 04 542 01 AHL 43449301 v E Z 1 8 9 10 06 HMXMUO01018 8 12 Rev C CHAPTER 9 SPECIALIST DOCUMENTATION 91 MAXPRO Net UPGRADE INSTALLATION From MAX 1000 WARNING The equipment required to be modified in the following procedure is static sensitive Please ensure anti static precautions are taken MAXPRO Net runs on a standard windows CPU with serial port outputs The serial devices to MAX 1000 should be connected in the same order to MAXPRO Net Serial ports The following items will be required to pe
95. WERTY keyboards have menu access through the SHIFT and keys when operated simultaneously 11 2 HMXMU001018 10 06 11 6 CUSTOMIZING YOUR CONFIGURATION System configuration details are covered in the MAXPRO Net Commissioning Manual supplied with your system There are however a number of items specific to the HD Series which are detailed below 11 6 1 Enabling Video Fail Level Detection HD Series hardware includes video fail level detection hardware This may be enabled by entering the appropriate value into the FSL field Video Failed Detector Slot Number of the video input table within the SETMAX Configurator Values are as follows FSL field in SETMAX NOTE In all other respects video fail level detection is as detailed within the Commissioning Manual 11 6 2 Pan Tilt Control As shipped all video inputs are defined as cameras with pan tilt control During commissioning it is advantageous to disable pan tilt control for fixed cameras or other video sources not having control This provides for automatic operator feedback from the system if control of a fixed camera is attempted To disable pan tilt control for a particular camera remove the entries from the CID CSL and CSI fields in the Video Input table within the SETMAX Configurator HMX32128 subracks have 8 ports for pan tilt control These are divided into two groups A amp B Group A consists of ports 1 4 and group B ports 5 8 This a
96. YLOL ALON SA 3Al3034 315 L SI CHON3HHOO33 SH3 3234 315 91 40 TWLOL v OL 414 19 0289 ANT 1 Y M7 MZ 9 1 620 04 GZ MD beer ee Nid 21 MO LOLE SNOLLO3NNOO JHIA Mc L1 SI d 35 YJdANP SNOLWOINNMNOS 315 2 15 HMXMUO01018 7 12 14 Rev C 10 06 39NwHO 01 19379015 urn 18908400 9 on Y pn Ny 9n 1 62 05 51 04 SONILIGS 10N CINOHS d 104 INFANA OL NOU JNNOO ILON 55440 3884 VIA NOUO3NNOO ONY HMXMUO01018 7 12 15 Rev C 10 06 LOM 1 01 1237905 MYELIN 18088402 2 31 25 OL LON HMXMUO01018 7 12 16 Rev C 10 06 MOHLA 39NvHO OL 1237815 0 m ay mavan SNOLLOSNNODYSLNI JAJAJA IUS 64 04 OL 66 14 31935 OL LON 434 494 2114 3SN3S 3SN3S NOMIAOO 1431 9114 NMOd 2v NOWAOS 2v HMXMUO01018 7 12 17 Rev C 10 06 NOTES Rev C 7 12 18 HMXMUO01018 10 06 713 RD400 ALARM INPUT MODULE WARNING The following data refers to RD400 modules of revision 6 hardware and above The RD400 alarm input module is an eight 8 input alarm sensing card developed for use in the MAXPRO Net I O subrack equipment The RD400 module has its own
97. a the paperwork should clearly mention the following the original purchase order number Return Authorization Number RAN and that the units are to be repaired Serial numbers are often helpful Freight for all repairs is borne by the customer at all times Please state your preferred carrier account numbers and any other details required for returning your units after repair Repairs are normally completed quickly If you wish to enquire about the status of a repair please have your Return Authorization Number RAN reference ready Following this procedure will greatly assist Honeywell in turning around your unit quickly and minimize the cost and interruption to your customers Rev 3 1 HMXMU01018 10 06 3 2 Rev C LOAN PROCEDURE When requesting loan equipment please use the following procedure Failure to do so may delay the process of receiving goods or affect further loan requests Contact Honeywell to obtain a Return Authority Number RAN This enables us to track your loan equipment through our system Fax an official company purchase order to Honeywell for the full value of the goods required for loan purposes Ensure the Return Authority Number RAN is clearly stated on the purchase order to avoid delays Discounts DO NOT apply to loan equipment Freight for all loan equipment from and to Honeywell is borne by the customer at all times Please state your preferred carrier account numbers and any other detail
98. ailable Real time 3h mode Real time 3h mode Full Screen key unavailable Time lapse 12h Time lapse 12h Quad Screen key mode mode unavailable Time lapse 24h Time lapse 24h Multi Screen key mode mode unavailable Time lapse 48h Time lapse 48h Picture in Picture key mode mode unavailable Time lapse 72h Time lapse 72h Spot key mode mode Rev C 7 15 8 HMXMUO01018 10 06 7 15 9 Description of Control Functions Continued FUNCTIO ALLIR PPM RS 232 RS 232 DEDICATED N VCR PANASONIC VCR MITSUBISHI VCR MICROS NUMBER DEVICES MULTIPLEXER RS 232 22 unavailable Time lapse Time lapse 120h mode Activity key 120h mode 23 unavailable Time lapse Time lapse 168h mode Encode key 180h mode 24 unavailable Time lapse Time lapse 240h mode Decode key 240h mode 25 unavailable Time lapse Time lapse 480h mode VCR key 480h mode _ 122222 Alarm clear unavailable Hold freeze key 12222 unavailable Set Time Set Time 3 00am Set Time 3 00am 3 00am CAUTION IR PPM devices are limited to only 16 control functions 1 to 16 RS 232 devices support a maximum of 32 control functions 7 15 10 Learn Mode The RD490 module has the capability to learn IR control sequences This is of particular value should the control be required for a device for which no generic device mode exists or where functions other than those which are pre programmed in the generic mo
99. al injury or property loss as a result 7 DISCLAIMER OF WARRANTIES HONEYWELL does not warrant that the Licensed Programs will meet your requirements that operation of the Licensed Programs will be uninterrupted or error free or that all Licensed Programs errors will be corrected The entire risk as to the quality and performance of the Licensed Programs is with THE IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT ARE DISCLAIMED NO ORAL OR WRITTEN INFORMATION OR ADVICE GIVEN BY HONEYWELL ITS EMPLOYEES DISTRIBUTORS DEALERS OR AGENTS SHALL INCREASE THE SCOPE OF THE ABOVE WARRANTIES OR CREATE ANY NEW WARRANTIES SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OF IMPLIED WARRANTIES SO THE ABOVE EXCLUSION MAY NOT APPLY TO YOU IN THAT EVENT ANY IMPLIED WARRANTIES ARE LIMITED IN DURATION TO NINETY 90 DAYS FROM THE DATE OF DELIVERY OF THE LICENSED PROGRAMS This warranty gives you specific legal rights You may have other rights which vary from state to state Rev C viii 8 LIMITATION OF REMEDIES Licensee s exclusive remedy shall be either the replacement of any diskette or other media not meeting the limited warranty set forth above and which is returned to HONEYWELL with a copy of Licensee s paid invoice or if HONEYWELL is unable to deliver a replacement that is free of defects Licensee may terminate this Agreement by returning the Licensed Programs and thereupon the License Fee sh
100. all be retunded HONEYWELL shall have no obligation under this Agreement if the Licensed Programs are altered or improperly repaired or serviced by anyone other than HONEYWELL factory service For warranty service return Licensed Programs transportation prepaid to HONEYWELL Factory Service 165 Eileen Way Syosset New York 11791 9 LIMITATION OF LIABILITY REGARDLESS OF WHETHER ANY REMEDY SET FORTH IN THIS AGREEMENT FAILS OF ITS ESSENTIAL PURPOSE IN NO EVENT WILL HONEYWELL OR ITS SUPPLIERS BE LIABLE TO YOU FOR ANY SPECIAL CONSEQUENTIAL INDIRECT OR SIMILAR DAMAGES INCLUDING ANY LOST PROFITS OR LOST DATA ARISING OUT OF THE USE OR INABILITY TO USE THE LICENSED PROGRAMS OR ANY DATA SUPPLIED THEREWITH EVEN IF HONEYWELL OR ANYONE ELSE HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES OR FOR ANY CLAIM BY ANY OTHER PARTY THIS PROVISION IS INCLUDED FOR THE BENEFIT OF HONEYWELL AND ITS LOCAL REPRESENTATIVES AND IS ENFORCEABLE BY EACH OF THEM SOME JURISDICTIONS DO NOT ALLOW THE LIMITATION OR EXCLUSION OF LIABILITY FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES SO THE ABOVE LIMITATION OR EXCLUSION MAY NOT APPLY TO YOU IN NO CASE SHALL THE LIABILITY OF THE LICENSED PROGRAMS PROVIDERS OR OF HONEYWELL EXCEED THE PURCHASE PRICE PAID FOR THE PRODUCT 10 REGISTRATION In order to qualify to receive notification of HONEYWELL updates to the Licensed Programs Licensee must complete and return a Registration Form to HONEYWELL within twenty 20 days fr
101. an Poner LAORE IDEST RS232 RS232 MX18 KEYBOARDS DB9 RJ Connector On 8 7 6 5 4 2 1 Sie Meter Auxiliary Powe Man n Provided by Honeywell E IUIS OG Gog MASTER RS232 Coiled Cable Supplied w Ultrakey Ultrakey Pin 3 RX P N 849518 0306 Keyboard Pin 2 TX 1600 5 GND pem O HVBMATPIT MASTER 5232 16 15 4 3 12 10 8 T 6 5 4 DATA Fail ej SLAVE ES 85422 HVBMATPIT DIP SWITCH SETTINGS 51 52 55 1 ON 1 OFF 1 OFF 2 ON 2 OFF 2 OFF 51 set to Bossware input protocol 19 2KB RS422 3 OFF 3 OFF 3 ON S3setto MAX 1000 Output protocol reverse direction at 19 2 Protocol 1 4 OFF 4 OFF 4 OFF 5 OFF 5 OFF 5 ON 6 OFF 6 0FF 6 OFF 7 OFF 7 0FF 7 OFF 8 ON 8 OFF 8 ON RS422 Protocol 2 HVB422FT16 85422 WIRING PIT COMBO Pint Pin4 Pin2 Pin 3 2 4 1 5 5 6 Pin 6 Pin 7 Pin 7 Pin8 Pin8 Pin9 Pin9 gt Note If Pins 6 and 9 are connected as shown above the HVBMATPIT receives power from the HVB422FT16 Do not attach an additional power supply to the HVBMATPIT Rev C 7 3 5 1 2 8 4 To Matrix Switch Comms VideoBloX Chassis Set to Slave pin out DIP Switch 51 On Off
102. an be wired for PPM Infrared control of eight devices or RS 232 control of one device cr 5 rov O s Pop I Rev C 7 15 2 HMXMU001018 10 06 7 15 4 Infra red LED wiring The LED PPM drive outputs are active LOW and must connect to the cathode side of the LED All of the Anode ends of the LED s must connect to the 5v supply provided on pin 17 IR LED CONNECTION DETAILS PIN 17 2 PPM OUT PINS 5 12 CAUTION The center frequency of the LED PPM drive output has been factory set to 36KHz This is suitable for most VCR types If VCR control problems are experienced try adjusting RV1 which will vary this center frequency Check wiring and dip switch settings BEFORE adjusting RV1 7 15 5 Installation Aid L12 The RD490 module is fitted with an LED green to indicate that IR data is being transmitted from the IR ports on the module When an infrared LED is correctly connected to the RD490 Module as detailed above L12 will momentarily light as IR data is transmitted This feature is extremely helpful when fault finding IR remote controlled peripheral devices connected to the RD490 L12 is connected in series with the output drive so if remote IR LED s are not correctly connected or cabling is open circuit this LED will not light during IR transmission 7 15 6 DIP Switch Settings The RD490 module can be used to provide Infra red PPM control of VCR equipment or send commands to ONE only RS 232 serial
103. anasonic RS 485 receivers may be connected with up to 16 receivers supported per RD316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 The WV RM70 should be set up at a data rate of 9600bps All other settings should be left at factory default values Note It should be noted that some Panasonic receivers do not have preset view set command capability via RS 485 and as such this function will not work WV CS600A and later equipment supports this functionality Connection details from a Panasonic WV CSR600 dome to the I O slot of a subrack populated with a RD 316 module 7 10 7 HMXMUO01018 10 06 7 10 14 Panasonic WV CS850 Series Format switch SW1 1 4 OFF 19 2Kbps Mode switch SW2 2 4 8 OFF SW2 1 3 9600bps Mode switch SW2 1 4 8 OFF SW2 2 30N Note WV CS850 Protocol was introduced in version 2 07 firmware This version only supports 19 2Kps However version 2 08 firmware and above does support 9600bps as well as 19 2Kbps Data connection Panasonic RS 485 receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A The WV CS850 should be set for 4 wire duplex operation Connection details from a Panasonic WV CSR600 CS850 dome to the I O slot of a subrack populated with a RD 316 module Rev C 7 10 8 HMXMUO01018 10 06 7 10 15 American Dynamics Two for
104. anced TWO wire audio The normal connection to the site receiver is a two wire type cable that carries AFSK control information from a RD 315 communications module For this mode of operation the cable is connected into PL4 LK6 must be in position 2W In addition the LK2 must have jumpers to link and CD to link the communications processor to the motor control processor Factory default FOUR wire audio In some situations a 4 wire audio connection may be more suitable For example when an optical fiber AF channel is being used The receive data is an unbalanced input at while the transmit data is a balanced two wire at PL4 Audio sing around feedback can be avoided using this type of connection The receive data cable should not be wired further than a few meters and must be shielded as it is a high impedance input LK6 must be in position 4W In addition the LK2 must have jumpers to link AB and to link the communications processor to the motor control processor CAUTION The UNBAL INPUT should not be wired further than a few meters and must be shielded as it is a high impedance input 7 11 2 HMXMUO01018 10 06 7 11 3 Rev C Communications Continued AF 232 The RD378 also supports AFSK data at RS 232 levels known as AF 232 For this format use connector PL7 and LK6 must be in position 2W LK1 is used to select Echo on B or Echo off A for data In Posi
105. anual Iris open Relay 6 Manual Iris close Relay 7 Wash control Relay 8 Wipe Control The power required for these or any other auxiliary devices must be provided separately and cannot be powered from the site receiver power supply circuit Each relay output has an associated LED L1 to L8 which lights up when that output contact is closed Remote Alarm Inputs There are 7 alarm inputs on the 10 378 Each can be individually DIP switch selected for either digital or analogue mode In digital mode standard open circuit and closed circuit conditions are expected In analogue mode a normal input state requires a total loop resistance of 10K The dip switch settings are as follows DIP SWITCH SETTINGS sw on s rame mode analogue bir Noma 7 12 9 HMXMU001018 10 06 7 12 9 7 12 10 Rev C 10 378 Optional I O Expansion Board Continued The MAXPRO Net software allows these remote alarm inputs to be utilized in exactly the same way as are those from a RD400 alarm input card The alarm test facility SW1 8 automatically echoes the current alarm input state back out the relay outputs Using the output LED s the alarm input can be locally tested and verified Alarm inputs 1 7 are echoed to relay outputs 1 7 The tamper input on the RD378 379 is echoed to relay output 8 Note this test facility should be disabled during normal system operation Manual I
106. ardware architecture and flexible configuration software design simplifies troubleshooting for customers or Honeywell Field Service Engineers The equipment utilizes replaceable modules fitted with LED indicators to assist with fault diagnosis Before attempting fault finding on any system some knowledge of the basic operation is required This is most easily obtained by reference to the system block diagram The system access codes are required for some of the more sophisticated diagnostic facilities provided within the MAXPRO Net crosspoint matrix video switch This is followed by a simple logical one step at a time identification of actions and operation By analyzing the LED indications and swapping suspect modules within the subrack it is possible to locate faults remotely with a Technician in front of the rack and an Engineer on the telephone For all of the following information it is assumed that service is being carried out on a previously operating system that is one that has been commissioned correctly and has become faulty after some time of normal operation Fault finding techniques differ slightly during commissioning and are usually more complex and difficult to isolate as they often occur in conjunction with other faults masking the symptoms and responses to changes made Incorrect programming can falsely present itself as faulty equipment Some of the module exchange techniques may be of assistance in verifying incorrect program
107. atus Window This window displays the current comms and the recorder status Commands lt ESC gt To return to DOS lt M gt Send command to MASTER Pressing the M key enables you to enter a string or command that will be sent to the MASTER For example you could send to the MAXPRO Net Control Computer the Subrack 1 reset command 12 which would cause the MAXPRO Net software to WARM BOOT and update all subracks lt 5 gt Send command to SLAVE Pressing the S key enables you to enter command that is sent to the SLAVE lt R gt Recorder log ON OFF Pressing the R key toggles the record status on and off When the record mode is enabled all data received is time and date stamped and recorded to files on the hard disk Two files are created MASTER LOG that contains all data received from the MASTER 1 and SLAVE LOG that contains all data received from the SLAVE COM2 If the files already exist PATCH232 will append them Internal Diagnostics Additional Diagnostics are available from MaxMon See MaxMon Diagnostics Utility The MaxMon Utility can display the following details simultaneously at runtime e Received data e Transmitted data e Macro Trails e Macro Execution sequence e Video Source Control Selection e Video Switch selections 5 9 HMXMUO 1018 10 06 5 4 2 232 Test Program Continued In addition MaxMon can act as a Remote system keyboard Direct camera menu control can be exer
108. between the two terminals indicates an alarm condition This will be detected by the motor control micro controller which will pass a message to the CC 2000 communications controller This in turn sends a message to the MAXPRO NetSystem Controller 7 12 7 HMXMUO01018 10 06 7 12 7 7 12 8 Rev C Installation Notes After all connections are made and the dip switches are set the pan tilt unit must be manually controlled and the limit switches on the pan and tilt functions set This is done inside the pan tilt unit itself and is not a site receiver function With the limit switches set the unit must be driven from stop to stop in every direction to allow the preset pots to clutch into the correct position After all these mechanical and electrical settings have been done press the initialize button labeled SW1 The PTZ will then go through an initializing dance which operates all the PTZ functions This allows the site receiver to measure the direction of voltage tracking for the presets and make auto reversals if required If the site detects presets then the lens will track fully zoom in and fully zoom out then return to the spot it was set at previously This is to range the zoom for auto speed control and this auto set up may take up to 10 seconds CAUTION All directional control settings and lens controls must be set and tested to be correct from one of the system keyboards prior to this final RESET being presse
109. calls and Step pause run for small increments of manual position placement 7 11 7 HMXMU001018 10 06 7 11 5 Motor Time Out For all types of pan tilt drives a motor time out exists in software i e should a pan tilt run to the end stop and the limit switch not shut the unit off the software will stop the drive after a period of four 4 minutes for any direction 7 11 6 Tamper Alarm Input The tamper alarm input can be used to secure the control cabinet and or the camera housing The connections are made at PL10 and an open circuit between the two terminals indicates an alarm condition This will be detected by the motor control micro controller which will pass a message to the CC 2000 communications controller This in turn sends a message to the MAXPRO Net Server 7 11 7 Installation Notes After all connections are made and the dip switches are set the pan tilt unit must be manually controlled and the limit switches on the pan and tilt functions set This is done inside the pan tilt unit itself and is not a site receiver function With the limit switches set the unit must be driven from stop to stop in every direction to allow the preset pots to clutch into the correct position After all these mechanical and electrical settings have been done press the initialize button labeled SW1 The PTZ will then go through an initializing phase that operates all the PTZ functions This allows the site receiver to measure the direction of v
110. can you control it Pan Tilt etc Check Firmware version Controller Card Firmware Version RD316 V2 0 and later HMX128 MX308 Chip V1 06 and later Equipment Required MAXPRO Net System e Dome to be configured Utility QWERTY Keyboard e Two monitors Equipment Configuration MAX Switching System 5 6 7 8 of 4 12 13 14 Operator Monitor Output 19120 21 23 24 25 26 27 28 29 31 32 2 Operator PC Monitor Monitor VGA RGB Output MAXPRO Net CPU with MaxMon with Keyboard Emulation Tab 0000 0000 0000 CO COCO COCO CO 0000 0000 aa QWERTY Keyboard RD 500 530 11 13 HMXMU001018 10 06 11 16 USING THE DIAMOND DOME CAMERA SET UP MENU CONTINUED 11 16 2 Operation 1 Log QWERTY keyboard System Keyboard to the Operator monitor See MaxMon Manual For details 2 Select the Dome being configured to the Operator monitor 3 Select the required Set up menu from the Test monitor in the Maxmon menu 4 Select the required option from the menu now displayed on the Operator monitor 5 Make the required changes 6 Esc to exit the configuration menu on the Operator monitor 7 Log off System Keyboard from MaxMon 8 Use the MAXPRO Net system as normal Rev
111. cised from MaxMon MaxMon also provides recent system status Configuration status Monitor keyboard operator relations These run time diagnostics are particularly useful as they enable you to diagnose the operations of the system while it is running When some experience has been gained these facilities assist in rapid commissioning and debugging Rev C 5 10 HMXMUO 1018 10 06 CHAPTER 6 MODULE INFORMATION 6 1 MODULES The following table provides a list of the modules available for use with the MAXPRO Net Crosspoint Matrix Video Switching System and the availability of Data Sheets and other information Configuration connections DIP switch settings etc where available can be obtained from the sources listed in the table Modules are listed in numeric order Rev C 6 1 HMXMU01018 10 06 6 1 MODULES CONTINUED The information location keys are listed in the preferred order of access Whilst it may be easier to call Technical Support this may not optimize your usage of Technical Support Units For further details please refer to your Commissioning Manual Data Sheet packed with product Service amp Install Manual Via Technical Support From your DISTRIBUTOR Product Specific Manual Rev C 6 2 HMXMUO 1018 10 06 CHAPTER 7 DATA SHEETS 71 DATA SHEETS The pages in this section are copies of the information supplied with each individual unit as shipped Due to improvements and new products
112. communications device such as a time lapse VCR or multiplexer Although support of the earlier MAX 1000 Version 3 systems is possible usually only version 4 modes would be selected Use of the PPM and RS 232 user defined modes can also be selected Refer to the section in this document titled IR LEARN MODE Rev C 7 15 3 HMXMUO01018 10 06 7 15 6 Rev C DIP Switch Settings Continued Operating Mode SW2 8 way DIP switch emus sus ows ow ows IR PPM 8 output MAX V4 scorn or on or Requires USER490 exe from the MAX TOOLS disk supplied with each HMXAT200 System Controller IR PPM Operating Mode SW2 8 way DIP switch Device Description ___________ sus sws SAMSUNG VCR Generic CAUTION Other device selections are not defined will return a FATAL ERROR display of 2 Device Not Found CAUTION Honeywell makes no representation and offers no warranties as to the accuracy and or suitability of third party protocols and command formats Such protocols and command formats are based upon information supplied to Ultrak by third party manufacturers suppliers at the time of implementation 7 15 4 HMXMUO01018 10 06 7 15 6 DIP Switch Settings Continued RS 232 Operating Mode SW2 8 way DIP switch Device Description PANASONIC TIME LAPSE VCR MITSUBISHI TIME LAPSE VCR JVC TIME LAPSE VCR DEDICATED MICROS MULTIPLEXER CAUTION Other de
113. d SW3 4 SW3 5 must be set correctly Suitable cable sizing for PTZ heads when connecting to Site Receivers As it is not unusual for Pan Tilt heads to operate on relatively high current it is imperative that cable with adequate conductor size is installed between the PTZ site receiver and the PTZ head The following table indicates the recommended cable conductor size based on cable feed distance Cable Feed Cross Sectional Area Distance of Conductor 1 0mm 17 AWG 1 0mm 17 AWG 1 5mm 15 AWG 1 5mm 15 AWG 2 5mm 10 AWG 7 12 8 HMXMUO01018 10 06 7 12 9 Rev C 10 378 Optional 1 0 Expansion Board The 10 378 plugs into the 20 way boxed header J1 on the RD378 379 a ribbon cable The board is supported by stand offs The 10 378 provides relay output contacts alarm inputs and lens iris control Note On the RD378 379 set switch SW3 6 ON This enables the RD378 379 to control the 10 378 Note Always remove the right angle connectors from the RD378 379 PCB prior to fitting the 378 otherwise the board will not fit correctly Relay Outputs Eight separate relay output contacts are provided Six of these outputs are rated at 1A Outputs 7 and 8 have higher rating of 2A 30V and are intended for wash and wipe motors respectively When enabled in the MAXPRO Net software four of the outputs are utilized for special functions These are Relay 5 M
114. d can you control it Pan Tilt etc 2 Check Firmware version Controller Card Firmware Version RD316 V2 0 and above HMX128 MX 308 Chip V1 06 and above 3 Equipment Required e MAXPRO Net System e Dome to be configured Utility e QWERTY Keyboard e Two monitors Rev C 7 10 3 HMXMUO01018 10 06 7 10 5 Diamond Electronics FastScan SmartScan Continued Equipment Configuration MAX Switching System Diamond Dome 6 7 8 9 10 v 12 13 14 15 Operator Monitor Output 17 18 19 zo 21 22 23 24 25 26 27 28 29 30 31 32 Operator PC Monitor Monitor VGA RGB Output MAXPRO Net CPU with MaxMon with Keyboard Emulation Tab DDD 0000 CO CO 0000 0000 0000 0000 DD QWERTY Keyboard RD 500 530 Operation 1 Log QWERTY keyboard System Keyboard to the Operator monitor See Manual for details 2 Select the Dome being configured from the Operator monitor 3 Select the required Set up menu from the Test monitor in the Maxmon menu 4 Select the required option from the menu now displayed on the Operator monitor 5 Make the required changes 6 Esc to exit the configuration menu on the Operator monitor 7 Log off System Keyboard from MaxMon 8 Use the MAXP
115. d for herein shall not be deemed a waiver of such right or any further Agreement may be brought more than two 2 years after the date such cause of action shall have arisen HONEYWELL shall have the right to collect from Licensee any expensed incurred including attorneys fees in enforcing its right under this agreement HMXMU01018 10 06 PATENT AND TRADEMARK INFORMATION One or more of the following patents or trademarks protects portions of MAX 1000 its software and its components Australian Patent 674652 693914 US Patent 5923364 5745166 British Patents GB2305061 GB2323739 GB2323740 GB2323741 Singaporean Patent 9700491 5 Australian Trademarks 679926 679927 679928 679929 679930 679931 US Trademark 75 142790 Rev C ix 001018 10 06 MAXPRO NET TECHNICAL SUPPORT REGISTRATION License Key SITS NAME COMPANY M Contact person Positiori lille pen t bh ned dns rte ren rre etes Pri a dee rin eno nete Technical Support Information Honeywell provides technical support by phone to the installers and users of our various products We are happy to assist with installation wiring connections and system planning commissioning identifying cabling
116. des are required Learn Mode Procedure 1 Select learn mode on Dip Switch 2 6 8 on 5 7 off 2 Plug in the card after reset press the learn button at the top front edge of the PCB board Note that LED s 1 3 5 7 will flash 3 Direct the IR remote control towards the IR sensor at a distance of approximately 35mm approx 1 Press any key and then release LED s 2 4 6 8 will now flash 4 Press the remote control key again and release after about 0 5sec Note LED 1 will now flash Rev C 7 15 9 HMXMUO01018 10 06 7 15 10 7 15 11 Rev C I R Learn Mode 5 Press the remote control key for function 1 and release LED 1 will momentarily be steady and then flash again To verify that the function has been correctly analyzed the RD490 module immediately regenerates the same function on the IR PPM 1 output The VCR device fitted to this output should respond When you are happy with the remote key analyzed press the learn button again to store the last analyzed IR remote control key Note that LED 2 will now flash indicating that the function has been stored and the RD490 is ready to learn function 2 6 Repeat process for each of the sixteen functions as listed in the function table LED s 1 8 will progressively cycle as each function is learnt The LED s will cycle twice The first time the LEDs represent functions 1 to 8 while the second time though represents functions 9 to 16 sk
117. e Setup SW1 4 way DIP switch Continued Detection Logic Once the status required is detected it is necessary to set the required ALARM ACTIVE state Sometimes this is for a high voltage swing and sometimes for a low In the NORMAL setting a high swing is detected as the alarm active condition In the INVERTED setting a low voltage swing is detected as the alarm active Detection Logic 54 30 Normal OFF Inverted Input Type Some time lapse VCRs provide an open collector output or dry contact output relay To detect these contact closure conditions it is necessary to bias the contact Select CONTACT CLOSURE to enable self biasing of a dry contact alarm output circuit Select LEVEL SENSING for normal voltage level threshold detection Input Type Contact Closure Self Biasing Level Sensing NOTE For CONTACT CLOSURE input type always set the THRESHOLD LEVEL to 12V SW1 1 and SW1 2 to ON as the internal self biasing voltage is 5 volts Rev C 7 15 6 HMXMUO01018 10 06 7 15 8 Rev C Error Display setup error invalid DIP switch setting or function control error should occur the RD490 will flash the eight indicator LED s at 0 5sec to display the appropriate error status All eight LEDs flashing in phase will indicate an error zero Errors 1 to 8 are indicated by all LEDs flashing with one LED out of phase corresponding to the error level Error Definitions s
118. e of 1 through 16 on each RD 316 Data rate is 4800bps RS 485 Non Polling Format switch SW1 1 4 OFF Mode switch SW2 2 3 5 SW2 1 4 Data connection Maxpro RS 485 receivers may be connected with up to 16 receivers supported per RD316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Maxpro RS 485 Polling Format switch SW1 1 2 OFF SW1 3 4 Mode switch SW2 1 3 5 8 OFF SW2 2 40N Data connection Maxpro RS 485 receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 Vicon Standard Format switch SW1 1 4 OFF Mode switch SW2 4 8 OFF SW2 1 30N Data connection Vicon RS 485 receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A 7 10 6 HMXMU001018 10 06 7 10 12 7 10 13 Rev C Vicon Extended Format switch SW1 1 4 OFF Mode switch SW2 1 3 5 8 OFF SW2 40N Data connection Vicon RS 485 receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A Panasonic WV CS600 WV RM70 WV CS600A WV RM70 and WV CSR600 Format switch SW1 1 4 OFF Mode switch SW2 1 2 4 8 OFF SW2 Data connection P
119. ed with up to 16 receivers supported per RD316 Module Field cables may connect to 0825 pin pair 7 B and 20 A or pin pair 8 B and 21 A VST RS 485 Unidirectional Note The VST Unidirectional and bi directional protocol is effective from version 2 15 firmware onwards Format switch SW1 1 4 OFF Mode switch SW2 1 6 8 OFF 2 5 ON Data Connection VST RS 485 receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A 7 10 15 HMXMUO01018 10 06 7 10 31 VST RS 485 Bidirectional Format switch SW1 1 OFF 2 4 ON Mode switch SW2 6 8 OFF 1 5 ON Data Connection VST RS 485 receivers may be connected with up to 16 receivers supported per RD 316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A The RD 316 will report PTZ site communication failure alarms and the status of the alarm inputs on the VST receiver 7 10 16 HMXMUO01018 Rev C 10 06 7 11 RD378E PTZ SITE RECEIVER 7 11 1 Features 0378 is an intelligent pan tilt lens controller for use at a remote camera site Its primary function is to operate the pan tilt unit and zoom focus lens controls Features include All communication to from the RD378 site receiver is a common two wire line providing simultaneous control of up to 16 site receivers per network All data traffic is managed by a RD
120. elected as the system controller The alarm will CLEAR if the MASTER computer is selected as the system controller This alarm is activated by Automatic amp Manual selection changeover ALARM 8 Not defined The MAX PROTOCOL commands that the MX18 will recognize and respond to are listed below It will only listen to commands from the currently selected MASTER or SLAVE Computer Commands from the non selected one will be ignored Z RESET command RX TX When a warm reset is received the MX18 only re initializes the alarm states No other action or indication is given POLL command RX TX When the poll request command is received the MX18 will immediately generate the poll answer sequences This is used to satisfy the subrack polling mode if in use R READ command TX When an enabled pseudo alarm changes state a read command sequence is generated to represent the new status of that specific alarm The format is identical to that generated by a RD400 alarm input module 7 3 3 HMXMUO01018 10 06 7 3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT CONTINUED HIVOS OL LON Oa m I 4 4 WHMOd AHINVIS KUWITIXAW WHLSVW HAVIS T z 9 5 XH v IVNDIS XL 8TXW Z T SAVIS NIVW 15 027 HHLOdWOO YALSVW 61 9 LaOdIL IAW T 81 S WIV TIV4 SNId 709709
121. eplacing the module in the subrack causes it to be reset Rev C 7 16 5 HMXMU001018 10 06 7 16 4 Description of Control Functions The MAXPRO Net system sends individual functions numbers to the RD494 module instructing it to generate each particular control command e g stop play etc The following table details a general list of all available control functions For RS 232 mode up to 32 functions can be used FUNCTION ALL RESISTIVE PANASONIC VCR MITSUBISHI VCR RS 232 JVC VCR NUMBER VCR DEVICES RS 232 RS 232 1 Stop Stop Stop 2 Play Play 3 Fast Fwd 4 Rewind 5 Pause Pause ON 6 Slow Play 7 Frame Advance 8 Record Fwd search x7 Skip Fwd search 10 Rew search x7 Skip Rew search 1 Power ON OFF 12 Tape Eject 13 AV Input Select Counter Memory Counter Memory Counter Memory Stop Stop Stop 14 Display Clear 15 Time Lapse 24 Set Coarse Search Index Search Forward Index Search Forward Hour or LP 16 Real Time 3HR or Set Fine Search Index Search Reverse Index Search Reverse SP 17 unavailable Real time 3h mode Real time 3h mode 18 unavailable Time lapse 12h mode Time lapse 12h mode Time lapse 12h mode 19 unavailable 20 unavailable Time lapse 48h mode 21 unavailable 22 unavailable Time lapse 120h mode Time lapse 120h mode Time lapse 120h mode 23 unavailable Time lapse 180h mode Time lapse 168h mode Time lapse 168h mode 24 unavailable Time lapse 240h mode Ti
122. error Invalid operator sign used with commands invalid keyboard identification number Invalid alarm stack entry not an alarm macro Invalid alarm display group 1 lt gt 50 only Macro string exceeds 255 characters Conditional statement missing closed brackets nvalid real time clock time or date definition nvalid video source command 9 N 3 N 06 08 09 29 M 9 Rev C 9 4 HMXMUO 1018 10 06 5 3 MACRO ERRORS CONTINUED 0 String variable command formaterror U I o Scan sequence entry number is out of range i e greater than 99 Too many digits requested for keyboard macro numeric input N Unknown Special WORD command eg lt WARM BOOT gt etc 3 Other errors detected during Cold Warm Boot Check ERRORLOG 53 Rev 5 5 HMXMU01018 10 06 5 3 1 ERRORLOG Report in SetMax Configurator When a Macro Error is detected it is written into the ERRORLOG database that can be viewed from SetMax Configurator ErrorLog Tab This error report contains the time date that the macro error occurred the macro error number and a macro trail The macro trail details the actual event that caused the macro to begin execution and lists the various system macro library lines called prior to the macro error occurring This information is essential in locating the actual macro command that generated the error The following are examples of reported macro errors
123. es the RD 378 to control the 10 378 NOTE Always remove the right angle connectors from the RD 378 PCB prior to fitting the 10 378 otherwise the board will not fit correctly Relay Outputs Eight separate relay output contacts are provided Six of these outputs are rated at 1A 930 Outputs 7 and 8 have higher rating of 2A 30V and are intended for wash and wipe motors respectively When enabled in the MAXPRO Net software four of the outputs are utilized for special functions These are Relay 5 Manual Iris open Relay 6 Manual Iris close Relay 7 Wash control Relay 8 Wipe Control 7 11 12 HMXMUO01018 10 06 7 11 10 Rev C 10 378 Optional I O Expansion Board Continued The power required for these or any other auxiliary devices must be provided separately and cannot be powered from the site receiver power supply circuit Each relay output has an associated LED L1 to L8 that lights up when that output contact is closed Remote Alarm Inputs There 7 alarm inputs on the 10 378 Each can be individually DIP switch selected for either digital or analogue mode In the digital mode standard open circuit and closed circuit conditions are expected In an analogue mode a normal input state requires a total loop resistance of 10K The DIP switch settings are as follows DIPSWITCH SETTINGS Sw osscmemon Jor 5 analogue s rm Nome The MAXPRO Net
124. evel and quality This functionality in conjunction with the crosspoint matrix video switching capability provided by MAXPRO Net software allows a high level of automated and custom response to video source exceptions The RD89 monitors analyzes video inputs up to 32 maximum ona sequential basis The typical monitoring period is 100ms per input and therefore the module can scan all 32 inputs in approximately 3 seconds If less video inputs have been configured for monitoring the scan period will be reduced accordingly 7 5 2 Installation The RD89 may be installed in any 3RU video slot within MAXPRO Net subrack The module may be configured to monitor analyze subrack bus video or an external input via the subrack cascade input 7 5 3 DIP Switch Definitions SW1 1 Video Fail Mode Video Analysis Mode In the OFF position the RD89 functions in the Video Fail detection mode and detects lost video low and high level video In the ON position the RD89 functions as a Video Analyzer for automatic VCR playback analysis SW1 2 Video Bus Cascade Select In the OFF position the video input to the RD89 is from the subrack video bus In the position the video input is from the subrack cascade input Rev C 7 5 1 HMXMUO01018 10 06 7 5 3 7 5 4 7 5 5 Rev C DIP Switch Definitions Continued SW1 3 Low Level Video Enable Video Analyzer Sensitivity 1 In the Video Fail mode of operation this switch if ON enables repor
125. ey at this final stage to ensure the joystick is zeroed Setup information is stored in non volatile memory so the settings will be retained if the keyboard is unplugged 7 17 1 HMXMUO01018 10 06 7 17 2 3 Dimensional Joystick The HEGS5300 keyboard is fitted with a 3 dimensional joystick This allows zoom in and zoom out functions to be performed by twisting the top of the joystick either clock wise zoom in or anti clockwise zoom out The ZOOM and ZOOM OUT buttons located on the keyboard still operate as normal 7 17 3 Wiring Connections RJ11 Socket on rear of keyboard RJ11 Socket on rear of MXAT200 Pin 1 Power GND Pin 6 Power GND Pin 2 TX Data Pin 5 RX Data Pin 3 Signal GND Pin 4 Signal GND Pin 4 RX Data Pin 3 TX Data Pin 5 2 N C Pin 6 12Vdc Pin 1 12Vdc RJ11 Socket on keyboard RJ Leads for connecting keyboards 2 015 Terminations FUNCTION PIN NO ___ 2 SignlGND 5 3 8 Rev C 7 17 2 HMXMUO01018 10 06 7 17 4 Keycode Table cad Name st 4001 Fullscreen 49 4002 Quadscreen 400 Mux 0 03 051 __ Autorecord 004 Clearalarms A 4052 Autoprint 005 9 006 Leftarrow lt 054 6 007 Rightarrow gt 055 7 008 Sca
126. eyboard ID valid IDs 1 to 99 Default ID 1 e Baud Rate 19K2 or 9600 Default 19K2 Data format is fixed at 7 data bits 1 stop bit even parity Joystick speed range There 2 ranges of pan tilt speeds from the analogue joystick The default is a range of 5 speeds 0 5 to 5 Maximum speed The alternative is a range of 26 As before O STOP but the speeds generated are from A slowest through to Z fastest Speed Z is equivalent to speed 5 in that it is generated when the joystick is at its maximum pan or tilt position To enter SETUP MODE hold down the lt MENU gt key or the f key to the right hand side of the LCD as the keyboard is powered up Note When some custom keyboard overlays are fitted to keyboards the MENU key may be located in a different position Therefore using the next to the LCD is always a preferred option Note The key option is only available on keyboards with firmware revisions 2 02 and above Once setup mode the LCD prompts the user to enter the required information using the numeric keypad Pressing the lt ENTER gt key or the U key moves to the next stage Pressing the key goes back to the previous setup screen When the keyboard ID baud rate and joystick speed range has been entered the final setup stage will store the settings and the joystick reference position The keyboard should be flat on the desk when pressing the lt gt k
127. g instructions GROUNDING OR POLARIZATION The power supply supplied with this unit may be equipped with a polarized alternating current line plug a plug having one blade wider than the other This plug will fit into the power outlet only one way This is a safety feature If you are unable to insert the plug fully into the outlet try reversing the plug If the plug should still fail to fit contact your electrician to replace your obsolete outlet Do not defeat the safety purpose of the polarized plug OVERLOADING Do not overload outlets and extension cords as this can result in a risk of fire or electric shock Rev C iv HMXMUO 1018 10 06 IMPORTANT SAFEGUARDS CONTINUED 14 16 17 18 19 20 21 22 23 POWER CORD PROTECTION Power supply cords should be routed so that they are not likely to be walked on or pinched by items placed upon or against them paying particular attention to cords and plugs convenience receptacles and the point where they exit from the monitor OBJECT AND LIQUID ENTRY Never push objects of any kind into this unit through openings as they may touch dangerous voltage points or short out parts that could result in a fire or electric shock Never spill liquid of any kind on the unit SERVICING Do not attempt to service this unit yourself as opening or removing covers may expose you to dangerous voltage or other hazards Refer all servicing to qualified service person
128. g option is also available for contact closure alarms The RD494 is pre programmed to suit a range of VCR and Multiplexer types which can be selected by SW2 Rev C 7 16 1 HMXMUO01018 10 06 7 16 2 Operation Continued The RD494 features comprehensive test mode and error display functions to enable users to easily identify and resolve any difficulties that may arise The RD494 module can be installed in any I O Subrack location Connection to the RD494 is via the 25 pin D connector or 8411 connectors associated with the subrack slot Full D connector pin out defaults are detailed in Table 1 Alternatively multiple machines may be connected via a RJ to D25 interface module RD 9005 or RD 9022 Rev C 7 16 2 HMXMU001018 10 06 7 16 3 Operating Mode SW 5 Connector Details re 16 Control output2 ______8 ______ 19 Control outputs Operating Mode SW2 8 way DIP switch SW 6 SW 7 SW 8 RS 232 USER serial output MAX V4 Upload Download USER DATA via RS 232 Rev C 7 16 3 HMXMU001018 10 06 SONY SANYO GENERIC MITSUBISHI GENERIC PANASONIC GENERIC PHILIPS LTC3991 Rev C Resistive Mode Device Selection SW2 8 way DIP Switch Device Description Firmware 0 SONY YS DX316P MULTIPLEXER OFF SANYO SRC 850 DSR M800 SW 5 to SW 8 must all be set to OFF NOTE The Sony YS DX316P multiplexer has 2 resistive ladder inpu
129. ges of circuit boards This is to minimize the chance of static damage and to avoid deposit of acids from the skin on critical surfaces d Do not poke your finger at components or touch IC pins These are all good ways of causing static damage Components are also physically delicate e All circuit modules equipped with memory components are to be protected from sunlight and strong UV light f If static potential is high from carpet floor coverings chairs or other furnishings additional grounding should be used by way of a wrist strap for the person handling the installation of cards g Circuit modules with backup batteries can be easily damaged as some parts of the circuit are still live even when un plugged The backup battery itself can cause damage if conductive objects make contact with the circuit board gt To protect against physical damage leave individual circuit boards in their boxes and in their anti static bags until they are required Rev C 2 1 HMXMU01018 10 06 21 WARNINGS CONTINUED i When plugging leads into the back of a sub rack or computer always make personal contact with the chassis of the sub rack or computer before mating the connectors This will at least equalize static levels between the lead and the computer WARNING These procedures apply egually to both working and faulty circuit modules Careless handling storage and transporting will cause secondary or future faults
130. gistered your new MAXPRO Net software licence PRIOR to requesting our technical support services This should be done immediately to activate you MAXPRO Net software What is the License key number You will need to know the licence number for the MAXPRO Net system you are ringing about The licence number is detailed at the top of this page as well as on the rear side of the SYSTEM floppy disk It can also be read from the title and registration page displayed within the system configuration editor program SETMAX You re now ready to contact technical support You are now ready to contact technical support Telephone 972 620 6500 Toll Free USA 1 800 796 2288 Email HVSsupport honeywell com Our staff may need to research your inquiry This may require time outside of the original phone call Rev C xi HMXMUO 1018 10 06 Notes Rev C xii HMXMU01018 10 06 TABLE OF CONTENTS CHAPTER 1 GENERAL INFORMATION U 1 1 1 1 INTRODUCTION x tette teft ei aa hatha ata qay io dte ems 1 1 1 2 AGKNOWEEDGMENITS L ICE Fes E ERR ED Yap Lond s 1 2 CHAPTER 2 ELECTROSTATIC DISCHARGE 0 2 1 2 1 WARNINGS inge Ae a eae A erie i eels 2 1 CHAPTER 3 WARRANTY AND MODULE nnne 3 1 3 1 WARRANTY PROCEDURE e DER
131. he detected site failure The RD315 module provides an RS 232 port This allows for easy monitoring and servicing of other two wire networks and some special modes of communication connection Five LED indicators are provided on the front edge of the module 11 Green PTT Active L2 Red TX Failed L3 Green PTZ Comms L4 Yellow Reading Data From Subrack L5 Green Writing Data To Subrack The RD315 uses a Telecom approved line isolation transformer This provides the connection to the 600 ohm balanced two wire network Note Only standard twisted pair cable is required for the line connections up to 5 Km of cable length The data format is true AUDIO to Line 0 3 to 5 kHz bandwidth and can tolerate a total line attenuation of up to 2088 It supports 4 wire audio interface for connection to simplex audio channels microwave optical fiber etc The most important feature is that all communications to from the RD315 is through a common TWO WIRE line providing simultaneous control of up to 16 site receivers per two wire network 7 9 1 HMXMUO01018 10 06 7 9 RD315 PTZ SITE COMMUNICATIONS MODULE CONTINUED Sites can be of wired star or delta configuration and the RD315 is protected against high voltage destruction with a line isolation transformer on the two wire lines Optional communications are through direct bit transfer type radio or optical fiber links at RS 232 levels using a synchronous bit stream depicted as AF 232 Direct RS 23
132. he torroidal transformer primary The transformer s secondaries provide the following voltages to the site receiver and have the associated fuses installed e 2 x 20V 5A via PL17 and PL18 F1 and F2 are rated at 5A With the fuses in place the resulting unregulated 28V DC will light LED s L18 and L19 Used for pan tilt motor drive 2 x 10 5V 2A PL19 and PL20 F3 and F4 are rated at 2A With the fuses in place the resulting unregulated 12V DC will light LED s L2 and the regulated 5V will light L1 Used to provide power for lens drive 12V DC camera power and to supply the micro controllers and associated circuits with regulated 5V 1 x 24V 1A PL2 F5 is rated at 1A With the fuse in place LED 120 will light Used for AC camera power The 24V used to power an camera is output the board at PL2 This supply is isolated above ground Alternatively if a 12V DC camera is used power is supplied from PL1 Communications The RD379 site receiver communications are controlled by the CC 2000 micro controller This section details the switch and jumper settings needed for the required mode of communications Balanced Two Wire Audio The normal connection to the site receiver is a two wire type cable that carries AFSK control information from a RD315 communications module For this mode of operation the cable is connected into PL4 and LK6 must be in position 2W In addition LK2 must have jumpers
133. hese are rated at 10A 240V AC When enabled in the MAXPRO Net software the relays are controlled by the following outputs Output 1 relay 1 Output 2 relay 2 Output 7 relay 3 Wash control Output 8 relay 4 Wipe Control The power required for any other auxiliary devices must be provided separately and cannot be powered from the site receiver power supply circuit Each relay output has an associated LED that lights up when the output contact is closed Control of 240V AC Pan Tilt Units using the RL 378 The RL 378 can be used to control 240V AC pan tilt units by programming the MAXPRO Net system to intercept keyboard joystick commands and issuing relay output control commands to the RD 378 The following example assumes that relay 1 is connected to Tilt Up relay 2 to Tilt Down relay 3 to Pan Left and relay 4 to Pan Right Key Replacement Macros MAXPRO Net Within Setmax edit the Intercept Keyboard Keys data as shown Key Key Replacement Macro Key Release Macro 96 tilt up C C 711 C C 21 C C 22 97 tilt down C C 12 C C 22 C C 21 98 panle 17 IC C 27C C 28 99 right C C 718 C C 28 27 The key replacement macros switch the required control outputs on at the currently selected camera when joystick commands are received When the joystick is released the outputs are switched off by the key release macros Rev
134. id 95 bare Black NPVC Copper 58 CCS braid 6 15 RG59B U 14 solid 2 95 CCS 10 29 Select the BNC connectors specifically for the coax cable being used The center pin must match the inner conductor size dielectric diameter overall cable diameter and Nominal impedance Your cable supplier should recommend the correct 75 ohm BNC connectors for their cable CAUTION Never use a 50 ohms BNC connectors The center pin on 50 ohms male BNC connectors is slightly smaller in diameter which has the potential for intermittent connection when plugged into a 75 ohm socket Rev C 9 5 HMXMUO01018 10 06 9 5 2 Audio telemetry cable The audio telemetry data signals used for PTZ site receiver control requires a minimum of a single pair of balanced conductors in two wire mode with an overall screen or shield This shield must be grounded at the subrack equipment end of the cable to prevent radiation and reduce susceptibility of electromagnetic interference CAUTION To prevent potential earth loop problems do not ground the shield at the PTZ camera site Nominal Nominal Wire Outside Capacitance pF m Gable Type ef Conductors Diameter between Pairs mm conductors 22 Gauge Belden 8723 2 Stranded Tinned copper 7x30 The recommended cable has individually screened pairs in an aluminum polyester shield with a 24AWG stranded tinned copper drain wire The cables are covered with a PVC jacket
135. identity code number the MAX protocol commands will only be accepted by the correct RD105 module 7 6 1 HMXMUO01018 10 06 Rev C Watch Dog RESET The design of the RD105 module is of a conventional nature with the exception of the RESET circuit Due to the overall importance of the system s continuous operation the reset circuit is actually a Watch Dog RESET circuit Its function is as follows While the RD105 module is operating normally a continually pulsing output is generated by the on board RD105 subrack management software This pulsating signal is monitored by the hardware circuit being the watch dog reset If the pulsing output should cease for more than 500msec then the watch dog reset circuit generates a new hardware RESET to the microprocessor restarting the module s management software and attempts correcting the fault condition Note that the RD105 module also generates a RESET command string that is sent to the MAXPRO Net Server to force a re initialization of the system RD105 LED Indicators There are four LED indicators on the RD105 module Their functions are as follows RESET Whenever the RD105 module resets this RED LED L1 illuminates actually displays the logic condition of the CPU FAIL signal on the bus POWER Whenever power is applied to the RD105 module this GREEN LED L2 becomes on and remains on until the power is removed SEL This YELLOW LED 13 indicator blinks when any slot
136. in 7 or 8 The list of supported functions is as follows Function No Multiplexer Function 1 Camera 1 2 Camera 2 3 Camera 3 4 Camera 4 5 Camera 5 6 Camera 6 7 Camera 7 8 Camera 8 9 Camera 9 10 Camera 10 11 Camera 11 12 Camera 12 13 Camera 13 14 Camera 14 15 Camera 15 16 Camera 16 17 Full screen 18 2x2 display mode 19 2x3 display mode Rev C 7 10 12 HMXMUO01018 10 06 7 10 25 Rev C Ultrak KX Series Multiplexors Continued Function No Multiplexer Function 20 Set 21 4x4 display mode 22 Zoom 23 Select 24 Live record 25 VCR 26 Sequence 27 Hold freeze 28 Up arrow 29 Down arrow 30 Left arrow 31 Right arrow 32 Menu 7 10 13 HMXMUO01018 10 06 7 10 26 Ranger FLIR Note The Ranger FLIR protocol is effective from version 2 08 firmware onwards Format switch SW1 1 4 OFF Mode switch SW2 1 3 6 8 OFF SW2 4 50N Data connection A single Ranger FLIR camera is supported by each RD316 module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A The data rate frame specification is 19k2 8 data bits no parity 1 stop bit The special functions within the Ranger FLIR camera are mapped to the following MAXPRO Net functions power on off aux1 auto brightness toggle aux2 power standby aux3 reticle on off aux4 polarity toggle aux5 calibration
137. in the subrack is written to e COMM When a protocol command is received by the RD105 module this YELLOW LED indicator L4 blinks The SEL and COMM LED indicators are useful for following data communications between the MAXPRO Net Server and any module within a subrack 7 6 2 HMXMU001018 10 06 DIP Switch Settings Subrack Identity Number 001 to 799 BAUD RATE DESCRIPTION Normal subrack control RD 104 RD 6464 subrack RD84 control Note SW2 4 and SW2 5 are not currently used They should always be left OFF Rev C 7 6 3 HMXMU001018 10 06 Notes Rev C 7 6 4 HMXMU001018 10 06 7 7 RD200 TEXT INSERTION MODULE The RD200 text inserter module is a single channel video processing device used to write up to five 5 lines of text information onto a video picture The displayed text is used to display labeling and feedback information to the system operators through the video monitors Information such as camera identification time date display monitor number current operator access and other system operation information can all be displayed Some other applications for the RD200 text inserter modules are text labeling for VCR recorded signals recorded camera identity and time date display of alarm detection information Text can be displayed in a variety of modes including straight forward white text over the video picture white text with black shadowing white text with a solid black backgr
138. ion mode may be switched between contact closure mode and end of line resistor mode SW3 4 Rev C 11 7 HMXMU001018 10 06 11 12 HD SERIES SUBRACKS AS COMBINERS The HMX32128 subracks can be used as combiners with 3 operating modes selectable by DIP switch number 3 positions 7 amp 8 Normal operating mode is selected SW3 7 and SW3 8 the OFF position Other operating modes are shown below When creating a 32C08 combiner by using a 16 08 and a 16C08 B both subracks share the same ID 128 Mode Switch 3 7 Switch 3 8 Standard OFF OFF 32C04 ON OFF 16C08 A OFF ON 16 08 11 13 INSTALLATION TIP Rev C If operating the HD Series switcher with the front cover removed the input and output cards HMX832 MX108 MX208 MX116 may have a tendency to move forward slightly when coaxial connectors are being installed on the rear Before testing your HD Series switcher ensure all cards are seated correctly It is for this reason that it is a good idea to leave the front panel on until you are ready to commission test 11 8 HMXMU001018 10 06 11 14 TECHNICAL NOTES 11 141 Hardware Mapping The subrack ID as setup on the HMX128 card defines the ID for all functions of the HMX32128 subrack i e when defining pan tilt control or text attributes the subrack ID fields will be as per the HMX128 setting As the MAXPRO Net HD series incorporates all of
139. ip a function that is not required press the learn button The RD490 will mark that function as undefined and step on to the next one 8 When all 8 functions have been addressed all 8 LED s will be flashing Remove the module from the subrack and select the DIP switches to one of the user defined modes SW2 Replace the module back into the subrack and re boot the system CAUTION Ifthe IR remote control is moved away from the IR sensor on the RD490 board while learning a GENERAL ERROR may be reported terminating the learn sequence Be careful to hold the remote control accurately near the IR sensor 85mm or 1 5 and begin the learn process again Workshop Test Mode Workshop test modes are used to perform a complete hardware test of the RD490 module Hold pressed LEARN BUTTON during power on RESET and hold for one 1 second All LED s will flash for the usual 0 5 sec and then remain OFF until the LEARN BUTTON is released The card will use its RS 232 comms output to firstly identify the MODEL and VERSION of the software installed Test level 1 will begin immediately To move on to the next test level press the LEARN BUTTON again hold for approx 0 5 sec A text message is written via the RS 232 comms output to indicate the TEST LEVEL that is currently running TEST LEVEL 1 This is an individual and sequential LED test cycling from the top LED to the bottom It also activates the PPM DRIVE outputs from output 1 t
140. llows two independent PTZ control protocols to exist For example ports 1 4 could be assigned to Diamond protocol and ports 5 8 could be assigned to Maxpro protocol Rev C 11 3 HMXMUO01018 10 06 11 7 CONTROL CARD DIP SWITCH SETTINGS The 128 controller card the left most card when viewing the front of the subrack has four 8 way DIP switches The upper switches SW1 and SW2 control the Pan Tilt protocol while the lower two SW3 and SW4 control the subrack ID baud rate and alarm detection mode The upper switch SW1 controls Pan Tilt protocol for Group A ports 1 to 4 on rear of HMX128 card The lower switch SW2 controls Pan Tilt protocol for Group ports 5 to 8 on rear of MX 128 card Below are the DIP Switch for SW1 and SW2 7 8 7 1 2 OFF ON O ON versa ON OFF OFF or OFF OFF veon mere ORF ORF ON or or or or Sermons OFF OFF ON OFF OFF or OFF vey OFF ye lor or or e ON NN 1 MX302 firmware version 2 06 or higher Rev C 11 4 HMXMUO01018 10 06 11 7 CONTROL CARD DIP SWITCH SETTINGS CONTINUED As shipped pan tilt control is defined in SETMAX Configurator as follows Physical Port PTZ Site No Input CSL CSI HERZ OC OIM CES m 2 r j 33 48 1 16 49 64 1 16 x m 8 8 F w
141. m r mum 3 t The above default configuration may be modified to suit cabling and or protocol requirements Rev C 11 5 HMXMU001018 10 06 11 7 CONTROL CARD DIP SWITCH SETTINGS CONTINUED HMX128 LAYOUT PTZ PROTOCOL GROUP A PTZ PROTOCOL GROUP B A carp DATA C rowr D 3 11 van B1 1100 MI 2 sms i ID200 NI D400 MODE mO MODE Blo 1 SUBRACK mi ADDRESS ID 4 ID m 16 m 32 m 64 BAUD a MS001310 PCB and later revisions 51 This is a system reset button for the HMX128 Control Card This is used only for commissioning and troubleshooting Rev C 11 6 HMXMUO01018 10 06 11 8 SUBRACK ADDRESSING The subrack address is set up by SW3 and SW4 SW4 sets the binary subrack address in the range 1 99 SW3 sets the 100 s group eg SW3 ALL OFF SW4 1and3ON subrack address 5 e g SW3 2 ON SW4 4 ON subrack address 208 11 9 SUBRACK BAUD RATE This is set SW4 8 The default is 19 2K OFF 11 10 SUBRACK DATA PORTS When using 2 or 3 HMX32128 subracks use ports 1 2 amp 3 respectively on your System Controller The default baud rate for the subrack is 19 2K however this can be changed to 9600bps using DIP switch 4 position 8 on the HMX128 Controller Card 11 11 ALARM DETECTION MODE If the optional HMX4248 I O board is fitted the alarm detect
142. mats are implemented 2 byte suitable for single speed receivers e g AD 1689 and a 4 byte version suitable for Cobra domes 2 Byte Manchester Format switch SW1 1 ON SW1 2 4 OFF Mode switch SW2 1 2 ON SW2 3 8 OFF 4 Byte Format switch SW1 1 ON SW1 2 4 OFF Mode switch SW2 1 2 4 SW2 3 5 80FF Data connection AD Manchester receivers may be daisy chain connected with up to 16 receivers supported per RD316 Module Field cables may connect to DB25 pin pairs 22 A amp 9 B 23 A amp 10 B 24 A amp 11 B 25 A amp 12 B Pin A is equivalent to AD pin designation White 7 10 16 Philips Burle Format switch SW1 1 4 OFF Mode switch SW2 1 4 6 8 OFF SW2 50N Data connection Up to 16 Philips Burle RS 232 receivers may be connected suitable RS 485 converter s to a RD316 Module Data communication to the receivers is simplex reguiring only a two wire circuit The RS 485 232 converter s may connect to D25 pin pair 7 B and 20 A or pin pair 8 B and 21 A The RD 316 utilizes a data rate of 9600bps wiring distances and topology should be carefully planned to ensure reliable data transfer Rev C 7 10 9 HMXMUO01018 10 06 7 10 17 Star Chugai Sanyo SMD12P SMD20P VCC9200P Format switch SW1 1 4 OFF Mode switch SW2 1 3 4 6 8 OFF SW2 2 50N Data connection Star Chugai Sanyo RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD 316 Module Field cable
143. me lapse 240h mode Time lapse 240h mode 25 unavailable Time lapse 480h mode 26 unavailable 27 unavailable unavailable Alarm Clear 28 unavailable 29 unavailable unavailable 30 unavailable unavailable unavailable 31 unavailable 32 unavailable Set Time 3 00am Set Time 3 00am unavailable gt Denotes table continues over the page Record stop for Sanyo DRS M800 Rev C 7 16 6 HMXMUO01018 10 06 Continuation of table from previous page FUNCTION DEDICATED ULTRAK MULTIVISION PRO ULTRAK QUAD NUMBER MICROS MULTIPLEXER ROBOT MULTIPLEXER RS 232 MULTIPLEXER RS 232 RS 232 RS 232 Camera 1 key Camera 1 key Camera 1 key Camera 1 key Camera 2 key 7 Camera 7 key unavailable unavailable unavailable 10 unavailable Camera 11 key 12 0 0 1 1 Camera 12 key unavailable Camera 13 key unavailable Camera 14 key unavailable 5 5 6 4 41 4 0 1 2 3 4 5 IL JS OS Camera 15 key unavailable 16 Camera 16 key Camera 16 key 17 Full Screen key unavailable 18 Quad Screen key 2 2 screen 19 Multi Screen key 0 Picture in Picture 21 unavailable Right arrow Function Right arrow Right arrow I N 22 23 24 25 26 27 28 29 30 31 32 Rev 7 16 7 HMXMU001018 10 06 7 16 5 Workshop Test Mode Workshop test modes are used to perform a complete hardware test of the RD494
144. ming However this manual does not attempt to cover any aspects of macro programming This manual is intended for service of the MAXPRO Net only and does not attempt to solve problems with cameras monitors or video link equipment General purpose service manuals and aids can be ordered from your system agent Rev 1 1 HMXMUO 1018 10 06 12 ACKNOWLEDGMENTS WINDOWS Registered trademark of the Microsoft Corporation SMARTEXT Trademark of Honeywell Inc FLASHBACK Trademark of Honeywell Inc MAXPRO and MAXPRO SYSTEMS LOGO are Registered Trademarks of Honeywell Inc Rev C 1 2 HMXMU01018 10 06 CHAPTER 2 ELECTROSTATIC DISCHARGE ESD 21 WARNINGS All circuitry in this system contains a considerable number of MOS and other static sensitive components Static damage may or may not cause instant failure of a circuit and therefore could go undetected This damage can cause reduced life span or early system failure a If possible switch off the RD PS6 9 supplying the subrack under service when changing modules Module exchange can be done while the system is powered however special care should be taken to ensure that modules are plugged in and out squarely and do not touch other adjacent modules 6 Always discharge static from yourself by touching a conductive part of the main equipment cabinet before handling any circuit module c All precautions should be taken not to handle electronic connection ed
145. mmed to by the MAXPRO Net to de energize RV1 RV1 is used to determine the energized period of the outputs when using the pulse mode via LK1 The time variable is approximately 0 2second minimum to approximately 1 second maximum 7 14 1 HMXMUO01018 10 06 7 14 1 Wiring Connections memos Demo o 7 14 2 Function Cross Reference Table For Direct Control ve PTZ Como Rev C 7 14 2 HMXMU001018 10 06 7 15 RD490 UNIVERSAL PERIPHERAL INTERFACE WARNING This information is for RD490 modules fitted with V4 02 firmware and hardware or above If you require information for an earlier RD490 version please contact your MAXPRO Net dealer or Honeywell 7 15 1 General The RD490 Module is compatible with a broad range of VCRs Quads Monitors Frame Stores and Video Printers The Module has the capability to support 1 peripheral device by means of its RS 232 port or up to 8 peripheral devices simultaneously via the 8 PPM IR drive ports The module also features 8 level sensing alarm inputs the input threshold being Dip Switch selectable sensor is provided to enable the module to learn user defined functions 7 15 2 Operation The RD490 Module can be installed in any I O Subrack location Connection to the RD490 is via the 25 pin D connector associated with the subrack slot Full D connector pin out defaults are as per Table 1 In the RS 23
146. module Press and hold the TEST BUTTON on the front edge of the circuit board during power on reset for one 1 second The card will output on its RS 232 comms port the MODEL and VERSION of the software installed and the current TEST LEVEL Test Level 1 will begin immediately To move on to the next test level hold the Test Button in for approximately 0 5sec TEST LEVEL 1 This is an individual and sequential LED test cycling from the top LED to the bottom TEST LEVEL 2 This test echoes SW2 8 way dip switch to the LEDs Each dip switch can be verified to operate properly TEST LEVEL 3 This test echoes SW1 4 way DIP switch to the LEDs 1 to 4 only Again each DIP switch can be verified to operate properly TEST LEVEL 4 This test enables ALL alarm inputs By setting SW1 DIP switch to its various modes the correct operation of all alarm inputs can be verified Alarm ACTIVE CLEAR data is also generated on the subrack BUS thus generating a MAX PROTOCOL alarm command from the RD 105 subrack controller to the MAXPRO Net system Rev C 7 16 8 HMXMUO01018 10 06 7 16 5 Rev C Workshop Test Mode Continued TEST LEVEL 5 This test is not applicable to RD494 TEST LEVEL 6 This test mode is used to test the resistor ladder network used to synthesize the various resistance values required for the different control functions Set SW1 1234 to OFF OFF OFF OFF to allow testing of output 1 DB25 5
147. mples in Chapter 7 9 3 HMXMU001018 10 06 9 4 SINGLE SYSTEM JUNCTIONS SPLIT MATRICES CONTINUED Definition Where multiple matrices are controlled by one MAXPRO Net System Controller amp are interconnected via Trunklines The A matrix will be the matrix importing the video signals exported from the B matrix Step 1 In special parameters set the Network Node Id to a number from 1 to 99 and set your preferred STEAL MODE Step 2 Define video inputs in the A matrix noting the source group The net source field is left empty Step 3 Define video inputs in the B matrix but use a different source group to the A Matrix Place the word LINK in the net source field Step 4 Define the network video inputs As these do not have direct physical connections to the system do not fill any fields that may indicate that this is the case If the device requires control copy the control attributes of the exported device The source group is set to the same as the for video inputs on the matrix Place the description of the redirected resource in the net source field The format of this description is Nodeld Deviceldentifier e g 01 C25 Step 5 Define the trunk inputs on the A matrix using the same source group as the B matrix The net source field is set to the Nodeld e g 01 Step 6 Define the trunk outputs on the B matrix providing access to the B matrix source group You may also need to redefine the
148. nd the lens functions at two speeds Capable of retaining and subsequent re positioning of up to 100 separate PTZ views presets When view is selected pan tilt unit slows as the required position is approached Pan and tilt soeeds vary with the zoom position of the lens A site tamper alarm input for securing the control cabinet the alarm being sent to the main System Controller Communication options including synchronous bit stream at RS 232 levels known as AF 232 Direct RS 232 from RD315 control to one RD379 over networks where normal RS 232 asynchronous protocol is required Mixed modes of communication can also be used Fiber optic cables can be used to the first site and then two wire lines to the successive sites Or perhaps two wire to the first site and then fiber optic cables continuing to the successive sites If the optional expansion board 378 is fitted then an additional seven direct contact or current loop sensing alarm inputs are available The board also provides eight separate relay output contacts and an iris output for control of motorized manual iris lenses Rev C 7 12 1 HMXMUO01018 10 06 7 12 2 7 12 3 Rev C Power Supply The site receiver is supplied with AC mains power via the IEC connector mounted on the PCB support bracket This connector contains fuses rated at 1A 220VAC The IEC socket is connected under the support bracket to t
149. nel DAMAGE REQUIRING SERVICE Unplug the unit from the outlet and refer servicing to qualified service personnel under the following conditions a When the power supply cord or plug is damaged b If liquids have been spilled or objects have fallen into the unit c Ifthe unit has been exposed to rain or water d Ifthe unit does not operate normally by following the operating instructions Adjust only those controls that are covered by the operating instructions as an improper adjustment of other controls may result in damage and will often require extensive work by a qualified technician to restore the unit to its normal operation e Ifthe unit has been dropped or the enclosure has been damaged f When the unit exhibits a distinct change in performance this indicates a need for service REPLACEMENT PARTS When replacement parts are required be sure the service technician has used replacement parts specified by the manufacturer or have the same characteristics as the original part Unauthorized substitutions may result in fire electric shock or other hazards SAFETY CHECKS Upon completion of any service or repairs to this unit ask the service technician to perform safety checks to determine that the unit is in proper operating condition LIGHTNING AND POWER LINE SURGES For added protection of this unit during a lightning storm or when it is left unattended and unused for long periods of time unplug it from the wall outle
150. ng on multiple monitors the effectiveness of clamp to black in hiding visible frame roll may be reduced 11 14 4 PAL NTSC Determination MX 208 cards perform automatic PAL NTSC standard determination in order to accurately synchronize screen text updates Each MX 208 acts independently and utilizes source video from its channel 1 as the reference for determination Rev C 11 10 HMXMUO01018 10 06 11 14 TECHNICAL NOTES CONTINUED 11 14 5 Cascading Multiple HMX32128 Subracks The HMX32128 subracks in spite of not having a dedicated cascade input may still be chained together to form switchers with greater than 128 inputs A maximum of three HMX32128 subracks may be cascaded The method of inter connection is as detailed on the following diagram Note that the outputs of the first MX 32128 are patched to the inputs of the second MX 32128 on a one to one basis output 1 connects to input 1 and so on This procedure is repeated for the third 32128 Programming for cascading is as per that detailed in the Commissioning Manual Rev C 11 11 HMXMU001018 10 06 11 15 HMX4248 I O MODULE FOR HMX32128 11 15 1 General 11 15 2 11 15 3 11 15 4 Rev C The HMX4248 module is an I O Input Output expander for the HD Series MAXPRO Net Subrack The unit features twenty four alarm inputs which may be configured as either contact closure or end of line resistor sensing dip switch selectable on
151. nitor operation has been checked by applying a direct signal the fault could be in a number of modules For a small system only one RD 85 and one RD 200 are in the video circuit for the monitor channel It is critical that the block diagram is used to locate the signal path and modules related to the faulty channel The first step would be to make a normal keyboard selection for this monitor While doing this watch the LED indicators on the modules and check that a yellow LED flashes on the subrack RD 105 RD 85 and the RD 200 If they do then it is reasonable to assume that the communication to these modules is operating There are now two ways to determine the faulty module The first is to swap one ata time with modules from an operating channel The second is to monitor the video test output on the front of each module with the test monitor If the data indicator LEDs do not flash on one of the modules then it would be worth swapping this with another channel to verify its operation Press the Reset button on the upper front edge of the sub rack controller RD105 and allow a few seconds for the system to warm boot before continuing with the tests 5 2 3 No Text on Monitor or Monitors Very similar to test as for the above Make a normal action and check that the data LEDs flash If text is lost on one monitor only then swap the module with another and reset If there is no text or no text update on any monitor and all the RD 200 modules
152. nselect 5 056 8 1 11 010 __ Alternatekey 058 1 4011 Multiscreen 059 4012 Pictureinpic 40600 R 4013 1 M 4014 Nextalarm 402 Ji 1 _ ____ _ 016 __ inet 064 017 Delete 4 Ea 5 D 4022 Live 08 16 mi mi a 069 Downarrow 070 7 7 07 8 oe o 025 Camera 4029 mi mi Camera 075 o 24 5 4032 Spot 080 403 081 VCRpause u 0834 082 VCRforward f 0355 VCReject E 4068 VCRslow 407 1 085 Tet 0 B O 0958 086 409 7 Zoomout h 4040 08 Focusfar 4041 Active 089 Focusnear OE se 4033 F 4045 HT RN Jj IEEE NI 5 75 F1 F2 i F3 F4 F5 b iwa wasi p 1004 Fight ___ __ 048 25 Rev 7 17 3 HMXMUO01018 10 06 7 17 4 Keycode Table contd 097 100 5 098 Panlet 101 Scroldown
153. o Amidon Associates FB 43 6301 Shielding Beads and interconnect cable Beldon 8723 or equivalent cut to the required length As the HEGS5300 is supplied as an O E M component there is therefore a mandatory requirement to specify the installation parameters in order to comply with the European Directives on E M C The HEGS5300 keyboard has been installed tested and found to comply under the following conditions 1 With the standard lead attached to the System Controller 2 With the standard lead attached to an approved telecommunications modem and with the power requirements supplied by a CE approved Plug Pack 3 With the standard lead attached to an Optic Fiber Transmitter and with the power requirements supplied by a CE approved Plug Pack 4 With a passive extension not exceeding 50m total using the cable and Shield Beads defined above and with the Shield Beads fitted adjacent to the connectors WARNING It should be noted that any variation to the above conditions may not comply with the European Directives on E M C and therefore must be cleared with the supplier before implementation Rev C 7 17 7 HMXMUO01018 10 06 7 17 7 Special Notes Previous Versions of RD 530 For previous versions of RD 530 keyboards fitted with dip switches the following tables are a guide to the setup Please contact your MAXPRO Net distributor for further information if required 7 17 8 DIP Switch Settings The Keyboard Identity
154. o output 8 7 15 10 HMXMUO01018 10 06 7 15 11 Rev C Workshop Test Mode Continued TEST LEVEL 2 NOTE This test echoes SW2 8 way DIP switch to the LEDs Each DIP switch can be verified to operate properly TEST LEVEL 3 This test echoes SW1 4 way DIP switch to the LEDs 1 to 4 only Again each DIP switch can be verified to operate properly TEST LEVEL 4 This test enables ALL alarm inputs By setting SW1 DIP switch to it s various modes as per the tables above the correct operation of all alarm inputs can be verified Alarm ACTIVE CLEAR data is also generated on the subrack BUS thus generating a MAX PROTOCOL alarm command from the RD105 subrack controller to the MAXPRO Net system TEST LEVEL 5 This test automatically tests memory in the 2 used for storing USER DEVICE DATA Beginning from the bottom LED the E2PROM is completely filled with a specific byte pattern As the column of LED s decreases every location is read and verified This test will cycle If an error is detected in the memory all LED s will flash continuously halting this test level TEST LEVEL 6 This is the Infrared PPM test mode Similar to the IR Learn mode this test mode begins by ANALYSING the first 2 keypresses from the IR remote control Once this is done the following keypresses are read and re written out of a PPM output selected by SW1 for direct equipment control verification Pressing the LEARN
155. o output channel position it may sometimes be desirable to locate the MX205 Modules in a separate stand alone video switching subrack This depends on the video output channel requirements within a given system application The subrack control microprocessor RD105 manages the operation of every MX205 text inserter module used within a subrack Text insertion update commands are sent from the MAXPRO Net Server to the subrack control microprocessor RD105 The command is then decoded by the RD105 The new text information is then written to the appropriate MX205 module LED Indicators L1 Lights when MX205 Module is written to by the RD105 Subrack Controller Module L2 Lights when MX205 Module writes to RD105 Subrack Controller Module 7 8 2 HMXMUO01018 10 06 7 9 Rev C RD315 PTZ SITE COMMUNICATIONS MODULE The RD315 site communications module is used to communicate with theRD378E site receivers RD379 site receivers and the RD380 Elbex Dome Site Receivers The RD315 can control any combination of these site receivers for up to 16 PTZ sites all connected to the same two wire network The RD315 uses a specially designed communications protocol allowing control data to be transported at high speed over the two wire network All PTZ sites connected to the two wire network may be automatically monitored polled If any site should become inactive i e blown fuse cut cables then an alarm may be generated corresponding to t
156. oltage tracking for the presets and make auto reversals if required If the site detects presets then the lens will track fully zoom in and fully zoom out then return to the spot it was set at previously This is to range the zoom for auto speed control and this auto set up may take up to 10 seconds CAUTION All directional control settings and lens controls must be set and tested to be correct from one of the system keyboards prior to this final RESET being pressed SW3 4 SW3 5 must be set correctly 7 11 8 Suitable cable sizing for PTZ heads when connecting to Site Receivers As it is not unusual for Pan Tilt heads to operate on relatively high current it is imperative that cable with adequate conductor size is installed between the PTZ site receiver and the PTZ head The following table indicates the recommended cable conductor size based on cable feed distance Cable Feed Cross Sectional Area Distance of Conductor 1 0mm 17 AWG 1 0mm 17 AWG 1 5mm 15 AWG 1 5mm 15 AWG 2 5mm 10 AWG Rev C 7 11 8 HMXMUO01018 10 06 7 11 9 Rev C RD378 PRIVACY ZONES Introduction Privacy zones are a method of restricting operator access of pan tilt and zoom operations They allow supervisors to define areas that surveillance operators can and cannot view For example in residential areas it would not be suitable to allow operators to zoom into windows etc With the R
157. om date of purchase Notwithstanding HONEYWELL is under no obligation to release updates to the Licensed Programs 11 TERMINATION Upon the breach or non compliance with any term provision of this agreement HONEYWELL shall have the right to terminate the license granted hereby by written notice to Licensee Upon such termination Licensee shall immediately turn over to HONEYWELL all copies of the Licensed Programs and any documentation supplied in connection therewith Such remedy shall be in addition to and cumulative to any other remedies HONEYWELL may have at law or in equity with respect to such breach or non compliance 12 GENERAL This agreement is the complete and exclusive statement of the understanding of the parties hereto with respect to the transaction contemplated hereby and supersedes any and all prior proposals understandings and agreements This Agreement may not be modified or altered except by a written instrument signed by Licensee and authorized representative of HONEYWELL its rights duties or obligations under this Agreement to any person or entity in whole or in part If any provision of this Agreement is invalid under any applicable stature or rule of law it is to that shall be governed by the laws of the State of New York and the sole venue for suit shall be in an appropriate state or federal court located in the State and City of New York The failure of HONEYWELL to exercise in any respect any rights provide
158. onfiguration As it occupies a slot position in the video switching subrack i e another possible video output channel position it may sometimes be desirable to locate the RD200 modules in a separate stand alone video switching subrack This all depends on the video output channel requirements within a given system application The RD200 module has an in built video distribution amplifier VDA to buffer the processed video signal The VDA gives a true 75 ohm drive capability at its output Rev C 7 7 1 HMXMU001018 10 06 7 7 RD200 TEXT INSERTION MODULE CONTINUED Rev C Diagnostic Video Connector The front of the RD200 has a 3 pin IDC style connector with video present on the centre pin and ground connected on the outer pins The video on this connector is the same as the output connector and may be used to diagnose the system from the front of the subrack Indicators The L1 located on the front of the RD200 illuminates when the RD200 is receiving data from the RD105 RD105B Subrack Controller Module Jumper Settings The RD200 may have a settable link labeled LK2 consisting of three in line pins or solder points The two end points will be marked and If the system is operating on Version 3 MAX 1000 software then link B to the centre point If the system is operating on Version 4 MAX 1000 software then link A to the centre point If the RD200 does not have a LK2 jumper facility then it
159. or Drive Continued LED Indicators The motor brake and lens outputs each have a pair of LEDs to indicate when the output is driving either ve or ve These are listed below L Zoom ve Tilt ve Tilt ve Tilt Brake Tilt Brake ve Pan ve SW3 Switch Settings The use of the motor drive switch SW3 is summarized in the table below Following is a more detailed description of the use of each switch On SW3 1 Lens Voltage This switch sets the voltage reguired to control zoom focus and manual iris on the camera lens SW3 2 Privacy Zones Privacy Zones When switched on privacy zones are enabled 7 11 6 HMXMU001018 10 06 7 11 4 Rev C Motor Drive Continued SW3 3 Auto Home If this option is enabled the PTZ will return to the preset position of view 0 after one minute of no operation Note that View 0 must be set before this function can operate SW3 4 Pan Tilt Inversion Allows the camera to be invert mounted on the pan tilt unit Setting this switch ON will reverse pan left right and tilt up down outputs from the RD 378 so that the camera can be invert mounted yet maintaining the wiring connections as per connection data SW3 5 Focus Zoom Inversion Manufacturers of lenses vary the use of ve or ve for in out lens functions This switch is set to ensure the button function on the keyboard matches the actual operation performed This must be set correctly for
160. or focus motor voltages Rev C 7 11 15 HMXMUO01018 10 06 7 11 12 E M C Compliance Installation Requirements The RD 378 is normally supplied with a RITTAL KL 1503 housing in order to ensure compliance with the European Directives on E M C There is also a mandatory requirement to specify the installation parameters in order to comply with the European Directives on E M C The RD 378 fully optioned has been installed tested and found to comply under the following minimum requirements The RD 378 relies on Pulse Width Modulation to give motor drive waveforms and speed control These waveforms have rapid rise and fall times for efficiency purposes They are therefore rich in harmonics that lie at the audio end of the spectrum 1kHz 100 2 A metallic shield must be provided for the cables between the RD 378 housing and the case of the pan and tilt head All cables between the Pan and Tilt Head and the controller including the video cable must be enclosed in a metallic shield The shield may be an overall flexible metallic conduit or individually shielded cables In the case of individually shielded cables all cable screens must be bonded to ground at the entry exit plate of the housing and at the case enclosure of the Pan and Tilt Head The video and control cables from the controller housing to the MAXPRO Net system must be fitted with Ferrite Shielding Beads type 43 6301 or equivalent The beads are to be located on the cables
161. or interconnection problems macro programming reconfigurations as well as ongoing service fault finding and general maintenance advice Every licensed product receives technical support at no charge when the software has been licensed through our technical support department Call 972 620 6500 1 800 796 2288 in North America to register your software via telephone or contact tech support at MAXPRONETREGI HONEYWELL COM to register via email The form can be mailed to Honeywell s Technical Support Dept located at 12880 A Valley Branch Lane Farmers Branch TX 75234 Other information If you wish to minimize the requirement of technical support Honeywell provides technical training courses to allow our distributors and clients to further develop their own in depth knowledge and understanding about our products Please contact our company for more information at www honeywellvideo com agree to abide by the terms and conditions as detailed in the software license agreement Please Sign date and return to Honeywell Video Systems Signature Date Rev C x HMXMU01018 10 06 MAXPRO NET TECHNICAL SUPPORT BEFORE YOU CONTACT TECHNICAL SUPPORT License Key No Before you call requesting technical support you should obtain the following information This will save you time and allow our support staff to attend to your difficulties promptly Have you registered the site As discussed on the registration form you must have pre re
162. ound for the entire text insertion window reverse mode to exchange white and black display i e give black text on a white background or shadow Normal or double height text when bold displays are required e g alarm display for VCR recording to increase replay readability A text display can be FLASHED to attract the system operator s attention The positioning of the text on the screen is programmable from the Setmax Configurator No manual settings are done on the RD200 module itself so modules may be swapped and changed without worrying about resetting DIP switches or trim pots for each application Operation The RD200 text inserter module is designed for use in the MAXPRO Net video switching subrack and occupies one slot It is capable of processing one video signal only so one RD200 module is needed for every video output channel requiring text insertion The cascade input for each slot is used as the video input to each RD200 module The processed video signal video text is returned at the video output for that slot The usual implementation of a RD200 module is as follows The video output from a video switching module RD85 is patched to the cascade input of the allocated RD200 module The resultant output from the RD200 module video text is then taken away as the actual video output for that video switching channel The slot allocation for the RD200 modules is totally variable programmable at the time of system c
163. ow and normal or double height text when bold displays are required e g alarm display for VCR recording to increase replay readability A text display can also be FLASHED to attract the system operator s attention The positioning of the text display on a screen and display mode required is programmable from the MAX 1000 System Configuration Utility No manual settings are done on the MX205 Module 7 8 1 HMXMUO01018 10 06 7 8 MX205 TEXT INSERTION CONTINUED Rev C Module Operation The MX205 Text Inserter Module is designed for use in a MAXPRO Net video switching subrack or a Pre Text subrack and occupies one slot It is capable of processing one video signal only so one MX205 Module is needed for every video output channel requiring text insertion The cascade input for each slot is used as the video input to each MX205 Module The processed video signal video text is returned at the video output for that slot The usual implementation of a MX205 Module is as follows The video output from a video switching module RD85 is patched to the cascade input of the allocated MX205 module The resultant output from the MX205 Module video text is then taken away as the actual video output for that video switching channel The slot allocation for the MX205 Modules is totally variable programmable at the time of system configuration As it occupies a slot position in the video switching subrack another possible vide
164. placed in the OFF position to the left 11 19 5 Installation Accessories From the factory the HMX832L is provided with one MXLCM4 cable This cable is 400mm in length is fitted with one 16 way IDC style female connector at each end This cable assembly is used to connect HMX832L Modules to subsequent HMX832L Modules or to MXBNC64 MXBNC128 Video Input Plates Patch Panels An optional MXLCM8 can be ordered which is 800mm in length There is also a MXCCxM cable assembly x denotes variables 1 2 or 3 for 1000mm 2000mm or 3000mm lengths used to inter connect MX 832L Modules to MX116 Video Output Modules in the HD Series of Matrix Switches Rev C 11 19 HMXMUO01018 10 06 Notes Rev C 11 20 HMXMU001018 10 06 CHAPTER 12 VIDEOBLOX INTEGRATION WITH MAXPRO NET 121 CONNECTION DIAGRAMS 12 1 1 Connecting MAXPRO Net Server to Videoblox Chassis through HVBMATPIT MAXPRONET SERVER OOM 1 Subracks COM 2 Keyboards all Eat 12 oat oa m 1 Pin3 TX ee Pin5 GND DB RJ Connector provided by Honey welll fon L5 too d LI RS232 MAXPRO Protocol 4 1 to Key boards Ultrakey or HEGSS300 DES RJ Connector provided by Honeywell MASTER RS232 DF _____ Fin3 RX Pin2 TX Fins GND DIP SWITCH SETTINGS 52 1 OFF 1 OFF 1 2 0N 2 0
165. put Protection For 59 2 0 000 000 0 nen 7 18 1 7 18 2 Interconnecting HMXPS9 to Canon Style 5 7 18 1 xvi HMXMUO 1018 10 06 TABLE OF CONTENTS CONTINUED 7 19 RD9021 INTERFACE 7 19 1 FAQ 1 General Cd b t ta Poe iced f Pe ets 7 19 1 7 19 2 10558 ed cn UI ERO n Tei Ee c 7 19 1 7 20 1676 TEXT INSERTION SUBRACK WITH VCR CONTROL 50 7 20 1 7 20 1 Generalin ri a e nd eH PUEDE REPRE edenda 7 20 1 7 20 2 Video Slots utere ee ES MINER Re candles EN 7 20 1 7 20 3 OSI OS 2 55 ciet erede eet de epi e aee 7 20 1 CHAPTER 8 DIAGRAMS 8 1 8 1 INTRODUCTION nik rete e dm tee deber 8 1 8 2 SUBRACK CONNEGCTIONS i E EE MD SUD e a 8 1 8 4 PT321 8 reti pr Gg e e Eb de 8 4 8 5 PT323 CONNECTIONS err Eee tes ge e pen e dal t podra de d 8 6 8 6 24 td ban viene hai San iet bec et esi na 8 7 8 7 2 et e ae d 8 8 8 8 PT327 CONNECTIONS 8 9 8 9 20390 LENS CONTROL EMULATOR 8 10 8 10 I O
166. re cedet ra en nena Ds 7 11 8 7 1127 Installation Notes inei ai inis 7 11 8 7 11 8 Suitable cable sizing for PTZ heads when connecting to Site Receivers 7 11 8 7 11 9 RD378 PRIVACY ZONES contre trend dee dite ter p t es 7 11 9 7 11 10 10 378 Optional I O Expansion 12 7 11 11 RL 378 Optional I O Expansion Board with 240V Relays 14 7 11 12 E M C Compliance Installation 5 7 11 16 RD379 PTZ SME RECEIVER 2 A eal 7 12 1 Tta T EGatUreS eh eel eat redd ee d a 7 12 1 12 2 Power SUDply an redet ated 7 12 2 7 12 3 GOMMUNICATONS teeta cheated u 7 12 2 7 12 4 Motor Drive u uu ene aie es 7 12 5 7 12 5 Mea ita ie a a 7 12 7 7 12 6 Tamper Alarim Inputs aiin cede E 7 12 7 712 7 Installation Notes ioi ne hne pe dte 7 12 8 7 12 8 Suitable cable sizing for PTZ heads when connecting to Site Receivers 7 12 8 XV HMXMU01018 10 06 TABLE OF CONTENTS CONTINUED 7 13 7 14 7 15 7 16 7 17 7 18 Rev C 7 12 9 10 378 Optional Expansion Board 7 12 9 7 12 10 RL 378 Optional I O Expansion Board with 240V Relays
167. re used to protect the output These become open circuit after a few seconds if excess current but less than 10A is drawn from either motor drive output After a few seconds these fuses automatically reset The zoom and focus drive is output from PL9 Speed is again controlled using pulse width modulation and this time the output is current limited to 80mA Preset Connections If the pan tilt motors and lenses used are fitted with position pots up to 100 preset views can be programmed into the RD379 site receiver The board provides a 5V reference that is output to the pan tilt pots at PL12 and to the focus zoom pots at PL14 The return voltage is then dependant on the position of the associated pot and is input at PL11 for pan tilt and PL13 for focus zoom The views are set and recalled from the system keyboard LED Indicators The motor brake and lens outputs each have a pair of LED s to indicate when the output is driving either ve or ve These are listed below 7 12 5 HMXMUO01018 10 06 7 12 4 Motor Drive Continued Switch Settings The use of the motor drive switch SW3 is summarized in the table below Following is more detailed description of the use of each switch swa DESCRIPTION FACTORY 2 nouses AuoHome Enabled Disabed OFF 4 Panmitinverson inverted Noma 5 FocusZoominversion inverted OFF 6
168. rform the hardware upgrade of the MAXPRO Net Server from MAX 1000 systems Medium Philips head screw driver Small flat bladed screw driver Anti static work station with anti static strap Fine side cutters Soldering iron and solder 9 1 1 Directions Ensure that power is disconnected from all equipment before commencing the upgrade RD500 Operator Keyboards Remove the RD500 operator keyboard bottom panel screws This will allow the front cover of the keyboard to be removed Take the cover off the keyboard and lift the keyboard up from the rear to the front Looking at the bottom of the keyboard printed circuit board ensure the unit is fitted with an 8 way dip switch before proceeding If a 4 way dip switch is fitted to the unit this keyboard cannot be upgraded to operate with MAXPRO Net Server Remove the four Philips head screws holding the printed circuit board to the bottom of the case Carefully lift the circuit board and keyboard plate and place upside down take care not to damage joystick Remove U4 IC from the board and replace with the replacement processor RD500 V4 XX Ensure anti static precautions are taken Move dip switch number 6 to the OFF position to enable version 4 operation Re assemble keyboard and connect to MAXPRO Net Server Rev C 9 1 HMXMUO01018 10 06 9 1 1 Directions Continued RD100 Subrack Controller Modules Remove RD100 subrack controller module s from subrack s Using anti static
169. ris Control This output provides ve and voltages for manual iris control This output is from PL16 on the 10 378 board There 2 links associated with this output that select between 6 volt or 12 volt iris motors LK1 and 2 both off for 12V iris motors LK1 and LK2 both on 6V iris motors These link positions do not affect the zoom or focus motor voltages RL 378 Optional I O Expansion Board with 240V Relays The RL 378 plugs into the 20 way boxed header J1 on the RD378 379 via a ribbon cable The RL 378 provides relay output contacts alarm inputs and lens iris control The RL 378 cannot be mounted inside the RD378 379 case so the ribbon cable supplied is long enough to allow the RL 378 to be mounted externally Note On the RD378 379 set switch SW3 6 ON This enables the RD378 379 to control the RL 378 Relay Outputs Four separate relay output contacts are provided These are rated at 10A 240V AC When enabled in the MAXPRO Net software the relays are controlled by the following outputs Output 1 relay 1 Output 2 relay 2 Output 7 relay 3 Wash control Output 8 relay 4 Wipe Control The power required for any other auxiliary devices must be provided separately and cannot be powered from the site receiver power supply circuit Each relay output has an associated LED which lights when that output contact is closed Remote Alarm Inputs There are 7 alarm inputs on the R
170. rme a la norme NMB 003 du Canada USERS OF THE PRODUCT ARE RESPONSIBLE FOR CHECKING AND COMPLYING WITH ALL FEDERAL STATE AND LOCAL LAWS AND STATUTES CONCERNING THE MONITORING AND RECORDING OF VIDEO AND AUDIO SIGNALS HONEYWELL VIDEO SYSTEMS SHALL NOT BE HELD RESPONSIBLE FOR THE USE OF THIS PRODUCT IN VIOLATION OF CURRENT LAWS AND STATUTES iii HMXMU01018 10 06 IMPORTANT SAFEGUARDS 10 11 12 13 READ INSTRUCTIONS All safety and operating instructions should be read before the unit is operated RETAIN INSTRUCTIONS The safety and operating instructions should be retained for future reference HEED WARNINGS All warnings on the unit and in the operating instructions should be adhered to FOLLOW INSTRUCTIONS All operating and use instructions should be followed CLEANING Unplug the unit from the outlet before cleaning Do not use liquid cleaners or aerosol cleaners Use a damp cloth for cleaning ATTACHMENTS Do not use attachments not recommended by the product manufacturer as they may result in the risk of fire electric shock or injury to persons WATER AND MOISTURE Do not use this unit near water or in an unprotected outdoor installation or any area that is classified as a wet location ACCESSORIES Do not place this product on an unstable cart stand tripod bracket or table The product may fall causing serious injury to a child or adult and serious damage to the equipment Use
171. s required on the purchase order Loan equipment is provided for fourteen days only Any extension to this time must be approved by Honeywell Failure to return equipment within fourteen days can affect future loan services and or credit facilities All loan equipment if not covered by warranty conditions is subject to a standard 20 re stocking fee All loan equipment must be re packed in the original packing and must not have any damage Honeywell will charge for repairs to equipment where damage has been caused by poor packing or transport Mark the Return Authority Number RAN clearly on the outside of the box before shipping as well as in the accompanying documentation Do NOT write directly on the carton If the RA number cannot be identified the product will be returned immediately at your expense Following this procedure will greatly assist Honeywell in providing this service 3 2 HMXMUO 1018 10 06 CHAPTER 4 TEST EQUIPMENT 41 GENERAL REQUIREMENTS BNC patch cables and joiners Test monitor preferably portable Test video cord 3 pin IDC to BNC Digital multimeter 75 ohm termination BNC T adapter RS 232 indicator modules and Patch Cords 4 1 1 More Complex Faults 20 MHz Oscilloscope Video generator Test program PATCH232 EXE Supplied on the MAXTOOLS disk Null modem cables and adapters IBM compatible computer with at least two serial ports Preferably a portable unit 4 2 ON SITE EQUIPMENT
172. s may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 7 10 18 Mark Mercer Format switch SW1 1 4 OFF Mode switch SW2 1 5 8 SW2 2 3 4 Data connection Mark Mercer RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD 316 Module Field cables may connect to DB25 pin pair 7 B 20 A pin pair 8 B and 21 A 7 10 19 Videv Format switch SW1 1 4 OFF Mode switch SW2 5 80FF SW2 1 40N Data connection Videv RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD 316 Module Field cables may connect to DB25 pin pair 7 B and 20 A or pin pair 8 B and 21 A 7 10 20 VCL Format switch SW1 1 4 OFF Mode switch SW2 2 4 6 8 OFF SW2 1 5 Data connection VCL RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD 316 Module Field cables may connect to DB25 pin pair 7 B and 20 or pin pair 8 B 21 A Rev C 7 10 10 HMXMUO01018 10 06 7 10 21 SpeedDome Format switch SW1 1 4 OFF Mode switch SW2 2 5 80FF SW2 1 3 4 Data connection Speedome RS 485 receivers may be daisy chain or star connected with up to 16 receivers supported per RD 316 Module Field cables may connect to DB25 pin pair 7 B and 20 or pin pair 8 B and 21 7 10 22 Kalatel Format switch SW1 1 4 OFF Mode switch SW2 3 4 6 8 OFF SW2 1 2 5 ON Data connection Kalatel
173. s varied using pulse width modulation The slowest speed generates a waveform with mark space ratio of 1 9 whilst the maximum speed generates 10 0 i e the DC level of 28V A brake output is also provided to release the motor brakes as the motor drive waveform starts and to re apply the brakes when a halt command is received The motor drive and brake outputs are protected with a current limit of 5A Should a current spike pass this threshold the output drive will switch off until a new output is generated from the motor drive processor In addition re settable fuses are used to protect the output These become open circuit after a few seconds if excess current but less than 5A is drawn from either motor drive output After a few seconds these fuses automatically reset The zoom and focus drive is output from PL9 Speed is again controlled using pulse width modulation and this time the output is current limited to 80 Preset Connections If the pan tilt motors and lenses used are fitted with position pots up to 100 preset views can be programmed into the RD 378 site receiver The board provides a 5V reference that is output to the pan tilt pots at PL12 and to the focus zoom pots at PL14 The return voltage is then dependant on the position of the associated pot and is input at PL11 for pan tilt and PL13 for focus zoom The views are set and recalled from the system keyboard 7 11 5 HMXMU001018 10 06 7 11 4 Rev C Mot
174. se ID code i e 70 ALARM 1 The MX18 CPU is operating correctly to detect CPU fail This alarm is ACTIVATED 10 seconds after any RESET command or 10 seconds following cold boot initialization ALARM 2 Master Computer Fail An alarm ACTIVE is generated when communications is lost with the MASTER Computer The alarm will CLEAR upon restoration of communications with the MASTER computer ALARM 3 Standby Power Supply Lost An alarm ACTIVE is generated when the 9VDC standby power supply falls below approximately 6V The alarm will CLEAR upon restoration of the standby power supply ALARM 4 Main Power Supply Lost An alarm ACTIVE is generated when the 9VDC main power supply falls below approximately 6V The alarm will clear upon restoration of the main power supply ALARM 5 Slave Computer Fail An alarm ACTIVE is generated when communications is lost with the SLAVE Computer The alarm will CLEAR upon restoration of communications with the SLAVE computer ALARM 6 Master Selected Status An alarm ACTIVE is generated when the MASTER Computer is selected as the system controller The alarm will CLEAR if the SLAVE Computer is selected as the system controller This alarm is activated by Automatic amp Manual selection changeover 7 3 2 HMXMUO01018 10 06 7 3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT CONTINUED Rev C ALARM 7 Slave Selected Status An alarm ACTIVE is generated when the SLAVE Computer is s
175. sition ribbon cable Attach the ferrite clamp part 840954 011 included in the expansion kit to the 34 position ribbon cable at the end closest to the interface card the board with the RJ11 connectors The interface board is fixed inside the back panel of the control computer and is fitted with RJ11 connectors to allow easy connection to MAX 1000 subracks keyboards and other MAX 1000 equipment Pin connections from the 11 connectors are as follows RJ11 Socket rear of System Controller Pin 1 12VDC 2 Pin 3 TX Data Pin 4 Signal GND Pin 5 Rx Data Pin 6 Power GND Pin 6 Pin 1 The interface board provides fused 12VDC only at RJ11 connectors 3 and 4 ports amp 4 to power HEGS5300 and ULTRAKey keyboards NOTE When D25 connectors are provided or fitted to a System Controller standard RS 232 pin allocations apply i e pin 2 TX RX pin 7 GND NOTE When D25 connectors are fitted to a System Controller the keyboard power HEGS5300 is provided on port 4 i e pin 13 12VDC pin 25 GND NOTE A maximum of 2 keyboards can be powered directly from a single interface board 7 2 3 HMXMUO01018 10 06 Notes Rev C 7 2 4 HMXMUO01018 10 06 7 3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT The 18 System Controller Auto Changeover Unit is used to combine two MAXPRO Net Servers to increase reliability with automatic changeover in the event of a System
176. t and disconnect the cable system This will prevent damage to the unit due to lightning and power line surges HEAT The product should be situated away from heat sources such as radiators heat registers stoves or other products including amplifiers that produce heat INSTALLATION Do not install the unit in an extremely hot or humid location or in a place subject to dust or mechanical vibration The unit is not designed to be waterproof Exposure to rain or water may damage the unit WALL OR CEILING MOUNTING The product should be mounted to a wall or ceiling only as recommended by the manufacturer Rev C V HMXMUO 1018 10 06 EXPLANATION OF GRAPHICAL SYMBOLS The lightning flash with arrowhead symbol within an equilateral triangle is intended to alert the user to the presence of uninsulated dangerous voltage within the product s enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons The exclamation point within an equilateral triangle is intended to alert the user to the presence of important operating and maintenance servicing instruction in the literature accompanying the product CAUTION CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN CAUTION TO REDUCE THE RISK OF ELECTRIC SHOCK DO NOT REMOVE COVER OR BACK NO USER SERVICEABLE PARTS INSIDE REFER SERVICING TO QUALIFIED SERVICE PERSONNEL WARNINGS WARNING TO REDUCE THE RISK OF FIRE OR ELECTRIC
177. tandard The mounting holes are for 10 mounting screws WARNING Whilst the 59 has four output sockets care must be taken to avoid overloading the power supply due to multiple heavy loads No more than two fully populated 6RU video subracks including text outputs e g HMX32128 or similar should be connected to a single HMXPS9 7 18 2 Interconnecting HMXPS9 to Canon Style Sockets Where a subrack RD 18 RD 9016 or similar is to be connected to a 59 and is fitted with a CANON style connector it will be necessary to remove this connector and fit MATE N LOK style The following illustration MG10043 details the corresponding pin connections to assist in changing the connector Rev C 7 18 1 HMXMUO01018 10 06 SUBRACK POWER SUPPLY CONNECTOR CABLE CONNECTOR ALLOCATION PIN CONNECTION WITH MAXPRO NET DEVICE FITTED WITH CANON 3 PIN PLUG SUBRACK ETC MAKE N LOK 59 Pin No s 2 FDWW WR T LNH tad 1 E SERIES MX SERIES POWER INTERCONNECTION PIN UTILISATION DRANG MG 10043 namar ca amarum TA mata un Rev 7 18 2 HMXMUO01018 10 06 7 19 RD9021 1 0 INTERFACE MODULE 7 19 1 General The RD9021 I O Interface Module is designed to expand 025 connections from the rear of MAXPRO Net I O subracks to easy to use screw terminals on a PCB module This module can be used on any of the MAXPR
178. text RD85 89 200 2 7 amps insertion with video fail detection RD16C10U Video combiner with RD85 amp RD200 16 16 2 1 amps text insertion RD16C10U L Video combiner with RD85 amp RD200 324 32 4 2 amps text insertion RD16C20U Video combiner with RD85 amp RD200 16 16 2 1 amps text insertion RD16C20U L Video combiner with RD85 amp RD200 324 32 4 2 amps text insertion ROIG Video combiner 6 Video combiner Roes amp 2ames R1678 equaizaton Ro 16 020 ooy 56 npa rooy gt Rev C 9 12 HMXMUO01018 10 06 9 8 SUBRACK CURRENT CONSUMPTION CONTINUED Rev C NOTE Total subrack s current consumption is calculated with the subrack fully populated with RD85 RD200 and RD430 modules where applicable Whatever warning needed CAUTION The stated current consumption for subracks using I O modules is based on using RD400 and RD430 modules When using RD440 relay output modules an addition 250mA per RD440 module must be added to the subrack total current consumption CAUTION Where an RD200 is indicated RD205 and RD220 may be used Add 35mA RD205module and 70mA RD220 to subrack current shown Whatever warning needed 9 13 HMXMUO01018 10 06 9 9 Rev C MODULE CURRENT CONSUMPTION CODE FUNCTION CURRENT 9 V Supply CURRENT idle active Supply RD315 PTZ Controller
179. the 128 controller card and eight relay outputs Installation a Fit the MX 4248 to the rear of the MX 32128 subrack utilizing the mounting stand off posts and screws supplied b Connect the MX 4248 to the MX 128 using the supplied ribbon cable take care not to dislodge the MX 128 when seating the connector 3 Select the required operating mode on the MX 128 dip switch 3 position 4 OFF contact closure mode ON end of line resistor mode 4 Connect field cabling to input output connectors Contact Closure or End Of Line Modes CC Contact Closure Mode When configured in the CC mode the HMX4248 HMX128 will detect contact state changes accordingly to the NO NC setting as defined in the Alarm Input table in SETMAX EOL End Of Line Mode In the EOL mode a setting of NC in SETMAX will cause an alarm to become active when the alarm loop becomes either open or short circuit unsealed Conversely in the NO mode the alarm will become active when the loop is in the sealed position Specifications MX 4248 Alarm Inputs 24 Operating Mode Contact Closure or End Of Line Resistor EOL value 10K OHM Maximum Input Voltage 20V Noise Immunity 6V p p AC 50 60 Hz Control Outputs 8 Maximum Current 1 Amp Maximum Voltage 50V 11 12 HMXMUO01018 10 06 11 16 USING THE DIAMOND DOME CAMERA SET UP MENU 11 16 1 Diamond Dome gt Rev C Before You Start Is the Dome operational and
180. the pan tilt dynamic speed control from zoom position to operate SW3 6 I O Fitted If the optional IO 378 board is fitted then this switch must be switched ON This allows for seven additional alarm inputs and eight voltage free contact control outputs to operate at the site as well as manual iris control SW3 7 and SW3 8 Speed Control These switches are set depending on the type of pan tilt unit being used Their use is described in the following table DESCRIPTION STANDARD DC PTZ Less than 40 sec Full variable speed from analogue joystick and auto two speed medium fastest from normal joystick Graded pan tilt speed depending on lens zoom STANDARD DC PTZ Less than 40 sec Full variable speed from analogue joystick and auto two speed medium fastest from normal joystick Graded P T speed depending on zoom in position Additional Step pause run allows small increments of manual position placement HIGH SPEED DC PTZ Greater than 40 sec i e Fast domes Full variable speed from analogue joystick and auto two speed slowest medium from normal joystick Graded pan tilt speed depending on lens zoom Includes fine position incremental placement of view calls HIGH SPEED DC PTZ Greater than 40 sec i e Fast domes Full variable speed from analogue joystick and auto two speed slowest medium from normal joystick Graded P T speed depending on zoom in position Includes fine position incremental placement of view
181. through its Security group HONEYWELL does hereby grant to the purchaser the Licensee upon payment in full of the published license fee or other license fee agreed to in writing the License Fee a nontransferable non exclusive license to use the enclosed software Licensed Programs provided herewith in Licensee s own business on a single computer for a term commencing on the date of payment in full of the License Fee and continuing in perpetuity unless terminated in accordance with the terms hereof 2 PROPRIETARY RIGHTS License hereby acknowledges that the Licensed Programs including the algorithms contained therein are proprietary to HONEYWELL Licensee shall not sell transfer disclose display or otherwise make available any Licensed Programs or copies or portions thereof to any other entity Licensee agrees to secure and protect the Licensed Programs so as to maintain the proprietary rights of HONEYWELL therein including appropriate instructions to and agreements with its employees 3 DOCUMENTATION The documentation supplied with the Licensed Programs is the copyright property of HONEYWELL Licensee shall not under any circumstances divulge or permit to be divulged such documentation to any other entity 4 COPIES Licensee shall not copy in whole or in part the Licensed Programs or documentation provided however that Licensee shall be permitted to make one 1 copy of the Licensed Programs solely for backup purposes provided
182. tical Fiber modems where the documentation states only data rates between two baud rates but no format or timing information 9 3 VCR CONNECTIONS USING THE RD9022 9 3 1 Cable Manufacture When manufacturing cables the RJ 11 male connectors must both be on the same side of the cable This is the same standard used in telephone cables which may be used if necessary The flat cable usually has a rib colored line or marking on one side that can be used as a reference The cable that connects between the RD9022 previous version is the RD9005 and the VCR is normally Male to Male This is because most VCRs are terminated with a socket At some sites the VCRs are terminated to a plug and connect to the cable with a female to female adapter Care must be taken with these adapters as some reverse the conductors internally while others do not Check for this with a meter and make the cables appropriately 9 4 SINGLE SYSTEM JUNCTIONS SPLIT MATRICES Rev C This document is intended for MAXPRO SYSTEMS trained engineers It is expected that the reader is familiar with the use of the MAXPRO Net SETMAX configuration software and associated tools Purpose To provide the low level details on how to configure Split Matrices with interconnections The steps involved will be outlined to the SETMAX field entry level Pre reading MAXPRO Net System Commissioning Manual Section 3 7 Networking and Trunking and the Network exa
183. ting of low level video alarms In the OFF position the low level video alarm reporting is inhibited In the Video Analyzer mode this switch in conjunction with SW1 4 provides for selectable analyzer sensitivity see table below SW1 4 High Level Video Enable Video Analyzer Sensitivity 2 In the Video Fail mode of operation this switch if ON enables reporting of high level video alarms In the OFF position the high level video alarm reporting is inhibited In the Video Analyzer mode this switch in conjunction with SW1 3 provides for selectable analyzer sensitivity see table below Video Analyzer Sensitivity Selection SW1 3 SW1 4 Sensitivity OFF OFF LOW ON OFF MID 1 OFF ON MID 2 ON ON HIGH Indicators L1 RED Video Fail Mode illuminated indicates that the video level is too high or too low Video Analyser Mode unused L2 RED Video Fail Mode illuminated indicates lost video Video Analyzer Mode illuminated indicates poor quality or lost video GREEN when the RD89 module is reading data from the subrack data bus L4 AMBER llluminates when the RD89 module is writing to the subrack data bus 7 5 2 HMXMUO01018 10 06 7 6 Rev C RD105 105B Subrack Controller Module Every subrack must have one RD105 except the HMX32128 which requires a HMX128 and every subrack requires an RS 232 port on the MAXPRO Net Server or MX18 The RD105 subrack con
184. tion A the site receiver s own data is transmitted in AF 232 format This is also sent in position B but in addition the receive data is also transmitted Note The RD315 communications modules used to control the RD378 have a similar link and only one end can be used in the echo on mode AF 232 communications contain full protocol for multi drop applications and is suitable for optical fiber TX RX A multi drop ring loop fiber data system can be used to communicate with up to 16 PTZ sites Another option is to run optical fiber to the first PTZ site and then normal 2 wire connection continues onto other sites SW2 Switch Settings The use of the communications DIP switch SW2 is summarized in the table below Following is more details of the functions of each switch DESORIPTION ON FACTORY Wess War See o Destination Master L3 Susa re 5 r 6 7 freres s sie no SW2 4 MUST be set to the ON position SW2 1 Mode Select master or slave The RD 378 should have this switch set to off to select slave mode SW2 2 Destination Type master or slave The RD 378 should always have this switch set to off to select a destination of master SW2 3 Polling mode The polling mode on all RD 378 site receivers and RD 315 control card on the communications network should be set to the same ON or OFF Usually polling
185. tion or any closer enables the privacy zone and excludes the operator from panning or tilting into the area If the operator zooms out then pans tilts into the zone and then tries to zoom in the zoom will be halted when the zoom position set at the view is reached Pan tilt will still be enabled to allow the operator to exit the zone If the privacy zone is required for all zoom positions then views 90 and 91 must be set fully zoomed out The same procedure is used to set the other 4 privacy zones See diagram below Zone 1 Privacy Zone 4 View 97 The zoom position for each privacy zone is set when the bottom left corner of each zone is set This means each zone will have its own privacy zoom setting Privacy Zone 5 Privacy Zone Alarms When the operator pans tilts or zooms into a privacy zone as well as that action being halted an alarm message is sent back to the MAXPRO Net system This can be used to output a message to the screen identifying the privacy zone reached Privacy zone 1 corresponds to alarm 1 zone 2 to alarm 2 etc Note that this function means the alarm inputs on the optional IO 378 board cannot be used as the message sent to the MAXPRO Net on an alarm condition will be the same as if a privacy zone has been reached Rev C 7 11 10 HMXMUO01018 10 06 7 11 9 Rev C Current Position MNT e RD378 Privacy Zones Continued Disabling Privacy Zones To disable a privacy
186. trol module is a slave microprocessor controller developed to oversee the operation of an individual MAXPRO subrack both video switching and I O types It decodes all MAX protocol commands directed to the various modules located in the subrack and performs the actual communication with the individual modules Video switching source selection text insertions update output control and alarm input detection and set up are just some of the control tasks of the RD105 module As it plays an integral part of all system operations the RD105 module would have to be classed as the most important module in the MAXPRO Net Crosspoint Matrix Video Switching System Operation The RD105 subrack control module is located in a specially allocated SCM slot or slot of a MAXPRO subrack Only 1 RD105 module can be installed into a subrack and only into the SCM slot position top left slot NEVER plug a RD105 module into any other slot position as damage may occur The RD105 module communicates with the MAXPRO Net Server through a full duplex RS 232 asynchronous serial line There is a separate RS 232 communication line for each subrack in the system Although the data content from the MAXPRO Net Server to subrack is generally the same for all subracks an identity number is included into each MAX protocol command to direct the command string to the required subrack As each RD105 module i e each subrack in a system application has its own unique
187. ts Therefore 2 outputs from the RD494 are required to control a single multiplexer NOTE Other device selections are not defined and will return a FATAL ERROR display of 2 Device Not Found NOTE Honeywell makes no representation and offers no warranties as to the accuracy and or suitability of third party protocols and command formats Such protocols and command formats are based upon information supplied to Honeywell by the third party manufacturers suppliers at the time of implementation NOTE RS 232 operating mode is supported in the RD494 V2 04 firmware revision onwards 7 16 4 HMXMUO01018 10 06 RS 232 Operating Mode SW2 8 way DIP switch Device Description Firmware Version DEDICATED MICROS MULTIPLEXER 2 04 ULTRAK 1610 11 MULTIPLEXER V2 04 MULTIVISION PRO ROBOT V2 04 ON OFF ON MULTIPLEXER ULTRAK KQ7300 01 CP QUAD V2 04 SW 5 must be set ON and SW 6 to SW 8 must be set to OFF Alarm Sense Setup SW1 4 way DIP switch Threshold Level Threshold level SW 1 SW2 Detection Logic Detection Logic Inverted Input Type Input Type Contact Closure Self Biasing Level Sensing NOTE For CONTACT CLOSURE input type always set the THRESHOLD LEVEL to 3V SW1 1 and SW1 2 to OFF as the internal self biasing voltage is 5 volts NOTE Once an error is displayed the 0494 module must be reset Usually the module would be removed to make DIP switch adjustments R
188. ubrack RD 500 keyboard or High Level Interface and connect it using any necessary adapters to COM2 on the laptop Then connect COMI of the laptop to the communications port on the MAXPRO Net Control Computer using a NULL MODEM adapter or cable When this is complete turn the power to the laptop ON and run PATCH232 EXE The program will then prompt you for the required low level protocol i e Baud rate 19200 9600 1200 600 300 Parity even odd none Number of data bits 7 or 8 and the Number of stop bits 1 or 2 The normal MAXPRO Net serial port settings are as follows Subracks RD 530 Keyboards and High Level Interfaces 19200 E 7 1 RD 500 Keyboards 9600 E 7 1 These are indicative only as most devices can be configured differently to suit the site Please check your documentation for the correct values if PATCH232 does not seem to work 5 8 HMXMUO 1018 10 06 5 4 2 Rev C 232 Test Program Continued From MASTER to SLAVE Window This window displays all data received from COM1 Master and at the same time the data is re transmitted to the Slave via COM2 Any data manually sent from PATCH232 to the Slave will also be displayed in this window From SLAVE to MASTER Window This window displays all data received from COM2 Slave and at the same time re transmits the data to the Master COM1 Any data sent from PATCH232 to the Master will also be displayed in this window Comms St
189. vice selections are not defined and will return a FATAL ERROR display of 2 Device Not Found CAUTION For RD490 modules with the earlier V3 01 firmware the JVC time lapse VCR is not supported The Dedicated Micros Multiplexer mode was defined in that position of the operating mode DIP switch table i e SW1 OFF SW2 ON SW3 OFF SW4 OFF The RS 232 communication protocol for the DEDICATED MICROS MULTIPLEXER is 9600 baud NO parity 8 data bits and 1 stop bit For all other RS 232 devices the communications protocol is 1200 baud NO parity 8 data bits and 1 stop bit 7 15 7 Alarm Sense Setup SW1 4 way DIP switch The RD490 module provides eight individual alarm sense inputs one for each device being controlled Generally these alarm inputs are used to wire connect to the VCR to detect a NO RECORD or END OF TAPE status condition Threshold Level To detect the changing voltage levels representing the status condition required will need a threshold voltage to be set A lower voltage that the threshold would be one logic state while a voltage greater than the threshold setting would be the other logic state For detecting 5 volt logic signals use the threshold setting of 3 volts For detecting a 12 volt supply rail use the 6 volt threshold setting The threshold setting used should be as close to the middle of the voltage swing provided by the signal being detected Rev C 7 15 5 HMXMUO01018 10 06 7 15 7 Alarm Sens
190. witch Settings sw Deep oF Open Short EOL Open Shor Rev C 7 13 2 HMXMU001018 10 06 7 14 440 RELAY OUTPUT MODULE Rev C The HMX440 relay contact output module is a general purpose eight 8 output circuit card developed for use in the MAXPRO Net I O subrack equipment Each output circuit provides one normally open relay contact closure All output circuits are isolated from each other An output circuit on the HMX440 module is a normally open RELAY CONTACT The relay contact is completely floating with respect to earth An output circuit will tolerate an applied open circuit voltage of 50 volts and a closed circuit loop current not exceeding 0 6 amps As it is a true switch contact the HMX440 is suitable for switching AC supplies As all eight output circuits are isolated from each other different polarity and or reference supply rails can be used for each output circuit on the one MX 440 module Eight LED indicators are located on the front edge of the HMX440 module Each LED shows the current status of its respective output circuit The top LED corresponds to the first output circuit LK1 is used to determine whether the relay outputs are energized constantly C position or pulsed P position Although programmed to activate if LK1 is in the P position the output will energize momentarily When in the position the output will energize until progra

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