Page 1 MAXPRO-Net Crosspoint Matrix Video Switching System Hardware Installation Manual HMXMU001018 – 10/06 - Rev. C...
Page 2 ISSUE DATE REVISIONS March 2005 Initial Release (PCN 1980) March 2006 Revised Installation Instructions Added detailed drawing for connecting to HVBMATPIT and October 2006 VideoBloX Chassis in Chapter 12. Revised the part numbers for VideoBloX reference materials. Rev. C HMXMU01018 10/06...
Page 3 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.
Page 4 IMPORTANT SAFEGUARDS 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 FOLLOW INSTRUCTIONS –...
Page 5 IMPORTANT SAFEGUARDS, CONTINUED 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 –...
Page 6 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.
Page 7 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 HMXMU01018 10/06...
Page 8 Licensed Programs, or any part thereof. HONEYWELL may have at law or in equity with respect to such breach or non- compliance. 6. SECURITY. Licensee acknowledges that the Licensed Programs are security related and access to the Licensed Software should be limited to authorized 12.
Page 9 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 B, GB2323739 B, GB2323740 B, GB2323741 B Singaporean Patent 9700491-5 Australian Trademarks 679926, 679927, 679928, 679929, 679930, 679931...
Page 10 Call 972-620-6500 (1-800 796-2288 in North America) to register your software via telephone or contact tech support at [email protected] 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...
Page 11 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-registered your new MAXPRO-Net ® software licence PRIOR to requesting our technical support services.
Page 12 Notes: Rev. C HMXMU01018 10/06...
Page 13: Table Of Contents
TABLE OF CONTENTS CHAPTER 1: GENERAL INFORMATION....................1-1 INTRODUCTION ........................1-1 ACKNOWLEDGMENTS ......................1-2 CHAPTER 2: ELECTROSTATIC DISCHARGE (ESD) ................2-1 WARNINGS..........................2-1 CHAPTER 3: WARRANTY AND MODULE REPLACEMENT..............3-1 WARRANTY PROCEDURE ......................3-1 LOAN PROCEDURE ........................3-2 CHAPTER 4: TEST EQUIPMENT......................4-1 GENERAL REQUIREMENTS ..................... 4-1 4.1.1 More Complex Faults....................
Page 14 7.2.2 Jumper JP1........................ 7.2-2 7.2.3 Interface Board ......................7.2-3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT ..........7.3-1 7.3.1 Integration of MX18 System Controller with MAXPRO-Net and VideoBloX Matrix Chassis.......................... 7.3-5 RD85 VIDEO SELECTION MODULE ..................7.4-1 7.4.1 Operation ........................7.4-1 7.4.2...
Page 15 TABLE OF CONTENTS, CONTINUED 7.10.12 Vicon Extended......................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 Series ................7.10-8 7.10.15 American Dynamics....................7.10-9 7.10.16 Philips/Burle......................7.10-9 7.10.17 Star/Chugai/Sanyo SMD12P, SMD20P, VCC9200P..........7.10-10 7.10.18 Mark Mercer......................7.10-10 7.10.19 Videv ........................
Page 16 TABLE OF CONTENTS, CONTINUED 7.12.9 IO-378 Optional I/O Expansion Board ..............7.12-9 7.12.10 RL-378 Optional I/O Expansion Board with 240V Relays........7.12-10 7.12.11 E.M.C Compliance - Installation Requirements............. 7.12-12 7.13 RD400 ALARM INPUT MODULE................... 7.13-1 7.13.1 Contact Closure or End-Of-Line Modes ..............7.13-1 7.13.2 Sensing........................
Page 17 POWER DISTRIBUTION ......................9-8 9.6.1 Mains Power Distribution.................... 9-10 SUBRACK IDENTIFICATION ....................9-11 SUBRACK CURRENT CONSUMPTION................... 9-12 MODULE CURRENT CONSUMPTION ..................9-14 CHAPTER 10 : SYSTEM CONFIGURATION ..................10-1 10.1 THE SETMAX CONFIGURATOR FOR MAXPRO-NET..............10-1 Rev. C xvii HMXMU01018 10/06...
Page 18 TABLE OF CONTENTS, CONTINUED CHAPTER 11: HD-SERIES QUICK-START GUIDE................11-1 11.1 GENERAL ..........................11-1 11.2 UNPACKING ..........................11-1 11.3 CONNECTIONS........................11-1 11.4 STARTUP ..........................11-2 11.5 BASE CONFIGURATION ......................11-2 11.6 CUSTOMIZING YOUR CONFIGURATION ................11-3 11.6.1 Enabling Video Fail/Level Detection................11-3 11.6.2 Pan/Tilt Control ......................
Page 19 CONNECTION DIAGRAMS...................... 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 ......................... 12-3 Rev.
Page 20 Notes: Rev. C HMXMU01018 10/06...
Page 21: Chapter 1: General Information
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.
Page 22: Acknowledgments
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 HMXMU01018 10/06...
Page 23: Chapter 2: Electrostatic Discharge (Esd)
CHAPTER 2: ELECTROSTATIC DISCHARGE (ESD) 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.
Page 24 2.1 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.
Page 25: Chapter 3: Warranty And Module Replacement
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.
Page 26: Loan Procedure
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 details required on the purchase order.
Page 27: Chapter 4: Test Equipment
CHAPTER 4: TEST EQUIPMENT 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 •...
Page 28 Notes: Rev. C HMXMU01018 10/06...
Page 29: Chapter 5: Diagnosis And Troubleshooting
CHAPTER 5: DIAGNOSIS AND TROUBLESHOOTING 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"...
Page 30: No Video On One Monitor
5.2.2 No Video on One Monitor Assuming that the monitor 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.
Page 31: Total System Failure
5.2.5 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 computer is in difficulty.
Page 32: Macro Errors
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 in a 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.
Page 33 5.3 MACRO ERRORS, CONTINUED Macro Error Definition Table String variable command format error String variable range error Unknown evaluate command for string Too many nested do-while loops Format error in do-while loop Maximum loop cycles has been exceeded Keyboard priority range error Invalid keyboard identity for macro numeric input command Invalid destination for keyboard macro numeric input command Too many digits requested for keyboard macro numeric input...
Page 34: Errorlog Report (In Setmax Configurator)
Direct macro command from an external system (via highlevel) The macro error report also details other important events in the MAXPRO-Net Crosspoint Matrix Video Switching System. For example: Rev. C HMXMU01018 10/06...
Page 35: Data Stream Testing
PATCH232. 5.4.1 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.
Page 36: Patch232 Test Program
System Requirements MAXPRO-Net Server communicates with external devices and accepts commands from external computers, keyboards, GUI’s, access control systems etc. An on-board VGA chip-set is included for displaying system configuration and diagnostic software. One...
Page 37 MAXPRO-Net ® Control Computer, the Subrack #1 reset ® command (*1Z) which would cause the MAXPRO-Net software to WARM BOOT and update all subracks. ~~Send command to SLAVE. Pressing the 'S' key enables you to enter a command that is sent to the SLAVE.~~

Page 38 5.4.2 PATCH232 Test Program, Continued In addition, MaxMon can act as a Remote system keyboard. Direct camera menu control can be exercised 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.

Page 39: Chapter 6 : Module Information
MODULE INFORMATION 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.

Page 40 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. Information Location Data Sheet (packed with product) S&I...

Page 41: Chapter 7: Data Sheets
CHAPTER 7: DATA SHEETS 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, 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.

Page 42 Notes: Rev. C HMXMU001018 10/06...

Page 43: Mx04 & Mx08 Multi-Port Serial Cards
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.

Page 44: Jumper Jp1
7.2.1 Switch Settings, Continued MX04 Switch Settings PORT 1 PORT 2 PORT 3 PORT 4 $3F8~ $2F8~ $2B0~ $2B8~ $3FF $2FF $2B7 $2BF $160~ $168~ $170~ $178~ (DEFAULT) $167 $16F $177 $17F $2A0~ $2A8~ $2B0~ $2B8~ $2A7 $2AF $2B7 $2BF $2F8~ $2A8~ $2B0~...

Page 45: Interface Board
7.2.3 Interface Board The MX04/ MX08 connects to the interface board via a 34-position 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).

Page 46 Notes: Rev. C 7.2-4 HMXMU001018 10/06...

Page 47: Mx18 System Controller Auto Changeover Unit
MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT The MX18 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 Controller failure. (MX-18 can also be used with MAX-1000.) The MX18 is fitted with dual Power Supply monitored inputs for true redundancy operation.

Page 48 7.3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT, CONTINUED CAUTION: To avoid the MX18 indicating failure during system startup, be sure to set the ‘All’ 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.

Page 49 7.3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT, CONTINUED ALARM 7. Slave Selected Status. An alarm ACTIVE is generated when the SLAVE Computer is selected as the system controller. The alarm will CLEAR if the MASTER computer is selected as the system controller.

Page 50 7.3 MX18 SYSTEM CONTROLLER AUTO CHANGEOVER UNIT, CONTINUED Rev. C 7.3-4 HMXMU001018 10/06...

Page 51: Integration Of Mx18 System Controller With Maxpro-Net And Videoblox Matrix Chassis
7.3.1 Integration of MX18 System Controller with MAXPRO-Net and VideoBloX Matrix Chassis SLAVE MAXPRONET SERVER MASTER MAXPRONET SERVER MAXPRO-Net COM 1 - 9 DB9 COM 8 COM 7 COM 1 COM 2 Pin 2, RX COM 1 COM 2 COM 8...

Page 52 Notes: Rev. C 7.3-6 HMXMU001018 10/06...

Page 53: Rd85 Video Selection Module
7.4.1 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.

Page 54: Clamp-To-Black Video Switching Transition
7.4.3 Clamp-To-Black Video Switching Transition When unsynchronized video sources are used in the video switching system a short “CLAMP-TO-BLACK” period can 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.

Page 55: Used For Audio Switching
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”...

Page 56 Notes: Rev. C 7.4-4 HMXMU001018 10/06...

Page 57: Rd89 Video Fail/Video Analysis Module
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.

Page 58: Video Analyzer Sensitivity Selection
7.5.3 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 reporting of low- level video alarms. In the OFF position, the low level video alarm reporting is inhibited.

Page 59: Rd105/105B Subrack Controller Module
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 control module is a slave microprocessor controller developed to oversee the operation of an individual MAXPRO subrack (both video switching and I/O types).

Page 60 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.

Page 61 DIP Switch Settings Subrack Identity Number (001 to 799): Units S1-4 S1-3 S1-2 S1-1 Tens S1-8 S1-7 S1-6 S1-5 Hundreds S2-3 S2-2 S2-1 SW2-7 SW2-6 BAUD RATE 19.2K BAUD 9600 BAUD 1200 BAUD NOT USED SW2-8 MODE DESCRIPTION RD-100 Normal subrack control RD-104 RD-6464 subrack - RD84 control Note: SW2-4 and SW2-5 are not currently used.

Page 62 Notes: Rev. C 7.6-4 HMXMU001018 10/06...

Page 63: Rd200 Text Insertion Module
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.

Page 64 7.7 RD200 TEXT INSERTION MODULE, CONTINUED 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.

Page 65: Mx205 Text Insertion Module
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 MX205 is a Surface-Mount Device Module that has been designed to supersede the previous RD205 Module.

Page 66 7.8 MX205 TEXT INSERTION, CONTINUED 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.

Page 67: Rd315 Ptz Site Communications Module
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.

Page 68: Ptz Site Wiring
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.

Page 69: Setting Audio Communication Link Points
7.9.3 Setting Audio Communication Link Points Line Interface Link 2 wire 4 wire (LK1) selects the type of audio connection required for site communications. Linking <2w> = selects Balanced two-wire communications. Note: This is the Default setting. Linking <4w> = 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.

Page 70: Direct Rs-232 Control Or Data Testing
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.

Page 71: Subrack Slot D25 Connector Pin Allocations
7.9.6 Subrack Slot D25 Connector Pin Allocations Pin No Description 14,15 RS-232 Signal Ground RS-232 Receive Data RS-232 Transmit Data AF-232 Output AF-232 Signal ground AF-232 Input AF-232 Signal ground RX MUTE Sense INPUT Rx MUTE Sense GROUND PTT drive OUTPUT PTT common (GROUND) Hi-Z Unbalanced TX audio OUTPUT Hi-Z Unbalanced TX audio GROUND...

Page 72 Notes: Rev. C 7.9-6 HMXMU001018 10/06...

Page 73: Rd316 Module - Rs-422/485 Ptz Site Transmitter Module
7.10.2 Installation The 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.

Page 74: Indicators
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 (yellow) indicates the RD316 module is writing data to the subrack. Lower LED (green) indicates the RD316 module is reading data from the subrack.

Page 75: Diamond Electronics - Fastscan/Smartscan
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.

Page 76 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. C 7.10-4 HMXMU001018...

Page 77: Pelco - Intercept/Legacy - Ad Format
7.10.6 PELCO - Intercept/Legacy – AD Format Format switch SW1 1 - 4 OFF Mode switch 1, 3 - 8 OFF 2 ON 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).

Page 78: Pelco - Coaxitron Interface Format
7.10.8 PELCO – Coaxitron Interface Format Format switch SW1 1 - 4 OFF Mode switch 2, 4, 6 - 8 OFF 1, 3, 5 ON Note: Receiver addressing via the onboard DIP switch is true binary with a supported range of 1 through 16 on each RD-316. Data rate is 4800bps. 7.10.9 Maxpro –...

Page 79: Vicon Extended
7.10.12 Vicon Extended Format switch SW1 1 - 4 OFF Mode switch 1 - 3, 5 - 8 OFF 4 ON 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).

Page 80: Panasonic - Wv-Cs850 Series
7.10.14 Panasonic - WV-CS850 Series Format switch SW1 1 - 4 OFF 19.2Kbps Mode switch 2, 4 - 8 OFF 1, 3 ON 9600bps Mode switch 1, 4 - 8 OFF 2, 3 ON Note: WV-CS850 Protocol was introduced in version 2.07 firmware. This version only supports 19.2Kps.

Page 81: American Dynamics
7.10.15 American Dynamics Two formats 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 2 - 4 OFF Mode switch 1, 2, ON 3 - 8 OFF 4 Byte...

Page 82: Star/Chugai/Sanyo Smd12P, Smd20P, Vcc9200P
7.10.17 Star/Chugai/Sanyo SMD12P, SMD20P, VCC9200P Format switch SW1 1 - 4 OFF Mode switch 1, 3, 4, 6 - 8 OFF 2, 5 ON 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.

Page 83: Speeddome
7.10.21 SpeedDome Format switch SW1 1 - 4 OFF Mode switch 2, 5 – 8 OFF 1, 3, 4 ON 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(A) or pin pair 8(B) and 21(A).

Page 84: Bocom
7.10.24 Bocom Format switch SW1 2 - 4 OFF 1 ON Mode switch 1, 2, 5 – 8 OFF 3, 4 ON 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).

Page 85 7.10.25 Ultrak KX Series Multiplexors, Continued Function No. Multiplexer Function 4x4 display mode Zoom Select Live record Sequence Hold (freeze) Up arrow Down arrow Left arrow Right arrow Menu Rev. C 7.10-13 HMXMU001018 10/06...

Page 86: Ranger Flir
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...

Page 87: Tracam
7.10.28 Tracam Note: The Tracam protocol is effective from version 2.10 firmware onwards Format switch SW1 1 - 4 OFF Mode switch 3, 6 - 8 OFF 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.

Page 88: Vst - Rs-485 - Bidirectional
7.10.31 VST – RS-485 – Bidirectional Format switch SW1 1 OFF 2-4 ON Mode switch 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).

Page 89: Rd378E Ptz Site Receiver
Pan and tilt speeds 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 •...

Page 90: Power Supply
7.11.2 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), and a power filter. The IEC socket is connected under the support bracket to the toroidal transformer primary.

Page 91 (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.

Page 92 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.

Page 93: Motor Drive
7.11.4 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 is varied using pulse-width modulation.

Page 94 7.11.4 Motor 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. INDICATION Focus –ve Focus +ve Zoom –ve Zoom +ve Tilt –ve Tilt +ve...

Page 95 7.11.4 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.

Page 96: Motor Time Out
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.

Page 97: Rd378 Privacy Zones
7.11.9 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.

Page 98 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.

Page 99 7.11.9 RD378 Privacy Zones, Continued Disabling Privacy Zones To disable a privacy 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.

Page 100: Optional I/O Expansion Board
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 ...

Page 101 Test Normal 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 to the relay outputs.

Page 102: Optional I/O Expansion Board With 240V Relays
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. 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) •...

Page 103 Test Normal 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.

Page 104: Compliance - Installation Requirements
(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.

Page 105 Rev. C 7.11-17 HMXMU001018 10/06...

Page 106 Rev. C 7.11-18 HMXMU001018 10/06...

Page 107 Rev. C 7.11-19 HMXMU001018 10/06...

Page 108 Rev. C 7.11-20 HMXMU001018 10/06...

Page 109 Rev. C 7.11-21 HMXMU001018 10/06...

Page 110 Rev. C 7.11-22 HMXMU001018 10/06...

Page 111 Rev. C 7.11-23 HMXMU001018 10/06...

Page 112 Rev. C 7.11-24 HMXMU001018 10/06...

Page 113: Rd379 Ptz Site Receiver
7.12 RD379 PTZ SITE RECEIVER 7.12.1 Features The 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 via a common two-wire line •...

Page 114: Power Supply
7.12.2 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 the torroidal transformer primary. The transformer’s secondaries provide the following voltages to the site receiver and have the associated fuses installed.

Page 115 (PTZ site receivers) in the network on a continuous basis. If the RD379 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.

Page 116 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.

Page 117: Motor Drive
7.12.4 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.

Page 118 7.12.4 Motor Drive, Continued 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. DESCRIPTION FACTORY Lens Voltage 6 Volt 12 Volt Not Used Auto Home Enabled...

Page 119: Motor Time Out
7.12.4 Motor Drive, Continued SW3-7 and SW3-8 Speed Control The factory setting for speed control is SW3-7 OFF and SW3-8 OFF. This provides a 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.

Page 120: Installation Notes
7.12.7 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.

Page 121: Optional I/O Expansion Board
Eight separate relay output contacts are provided. Six of these outputs are rated at 1A @30V. Outputs 7 and 8 have a 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: •...

Page 122: Optional I/O Expansion Board With 240V Relays
7.12.9 IO-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.

Page 123 Test Normal 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.

Page 124: Compliance - Installation Requirements
(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.

Page 125 Rev. C 7.12-13 HMXMU001018 10/06...

Page 126 Rev. C 7.12-14 HMXMU001018 10/06...

Page 127 Rev. C 7.12-15 HMXMU001018 10/06...

Page 128 Rev. C 7.12-16 HMXMU001018 10/06...

Page 129 Rev. C 7.12-17 HMXMU001018 10/06...

Page 130 NOTES: Rev. C 7.12-18 HMXMU001018 10/06...

Page 131: Rd400 Alarm Input Module
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 microprocessor that is designed to simultaneously monitor all eight input circuits and report any change of state to the subrack controller microprocessor.

Page 132: Wiring Connections
7.13.3 Wiring Connections DB25 Pin Description Input 1 Return Input 1 Active Input 2 Return Input 2 Active Input 3 Return Input 3 Active Input 4 Return Input 4 Active Input 5 Return Input 5 Active Input 6 Return Input 6 Active Input 7 Return Input 7 Active Input 8 Return...

Page 133: Hmx440 Relay Output Module
7.14 HMX440 RELAY OUTPUT MODULE 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.

Page 134: Wiring Connections
7.14.1 Wiring Connections Pin No's Description 5, 18 RELAY OUTPUT 1 6, 19 RELAY OUTPUT 2 7, 20 RELAY OUTPUT 3 8, 21 RELAY OUTPUT 4 9, 22 RELAY OUTPUT 5 10, 23 RELAY OUTPUT 6 11, 24 RELAY OUTPUT 7 12, 25 RELAY OUTPUT 8 7.14.2...

Page 135: 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.

Page 136: Connector Details
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 can be wired for PPM Infrared control (of eight devices) or RS-232 control of one device. D25 CONNECTOR FUNCTION RS-232 Receive Data...

Page 137: Infra-Red Led Wiring
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 PPM OUT...

Page 138 CAUTION: Other device selections are not defined and 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...

Page 139: Alarm Sense Setup (Sw1 4-Way Dip Switch)
7.15.6 DIP Switch Settings, Continued. RS-232 Operating Mode (SW2, 8-way DIP switch) Device Description SW-1 SW-2 SW-3 SW-4 PANASONIC TIME-LAPSE VCR MITSUBISHI TIME-LAPSE VCR JVC TIME-LAPSE VCR DEDICATED MICROS MULTIPLEXER CAUTION: Other device selections are not defined and will return a FATAL-ERROR display of (2)...Device Not Found.

Page 140 7.15.7 Alarm Sense 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.

Page 141: Error Display
7.15.8 Error Display If a 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.

Page 142: Description Of Control Functions
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.

Page 143: Learn Mode
7.15.9 Description of Control Functions, Continued. FUNCTIO ALL IR-PPM RS-232 RS-232 DEDICATED PANASONIC VCR MITSUBISHI VCR MICROS NUMBER DEVICES MULTIPLEXER RS- (unavailable) Time-lapse Time-lapse (120h) mode Activity key (120h) mode (unavailable) Time-lapse Time-lapse (168h) mode Encode key (180h) mode (unavailable) Time-lapse Time-lapse (240h) mode Decode key...

Page 144: Workshop Test Mode
7.15.10 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.

Page 145 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.

Page 146 Notes: Rev. C 7.15-12 HMXMU001018 10/06...

Page 147: Rd494 Resistive Ladder Peripheral Universal Interface Module
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.

Page 148 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 RJ11 connectors associated with the subrack slot.

Page 149: Connector Details
7.16.3 Connector Details D25 CONNECTOR FUNCTION RS-232 Receive Data RS-232 Transmit Data Common Ground Common Ground Control output 1 Control output 2 Control output 3 Control output 4 Control output 5 Control output 6 Control output 7 Control output 8 Common Ground RS-232 Ground RS-232 Ground...

Page 150 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...

Page 151 RS-232 Operating Mode (SW2, 8-way DIP switch) Device Description Firmware SW-1 SW-2 SW-3 SW-4 Version PANASONIC TIME-LAPSE VCR V2.04 MITSUBISHI TIME-LAPSE VCR V2.04 JVC TIME-LAPSE VCR V2.04 DEDICATED MICROS MULTIPLEXER V2.04 ULTRAK KX1610/11CP MULTIPLEXER V2.04 MULTIVISION PRO ROBOT V2.04 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...

Page 152: Description Of Control Functions
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.

Page 153 (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 Camera (2) key Camera (2) key Camera (2) key Camera (3) key...

Page 154: Workshop Test Mode
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...

Page 155 7.16.5 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 Pin5) resistance to Ground (DB25 Pin 13).

Page 156 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 ERROR NUMBER DESCRIPTION...

Page 157: Hegs5300 Keyboard
7.17 HEGS5300 Keyboard 7.17.1 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: • Keyboard ID – valid IDs 1 to 99. (Default = ID 1). •...

Page 158: 3-Dimensional Joystick
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 IN” and “ZOOM-OUT” buttons located on the keyboard still operate as normal.

Page 159: Keycode Table
7.17.4 Keycode Table Keycod Key Name Command Keycod Key Name Command #001 Full screen #049 #002 Quad screen #050 #003 #051 Auto record #004 Clear alarms #052 Auto print #005 #053 #006 Left arrow < #054 #007 Right arrow > #055 #008 Scan select...

Page 160: Cable Lengths
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...

Page 161 H oneywell M AX PR O -N et KE YBO AR D R J11 TW O -W AY JU N C T IO N BO X (0365-0009) Copyright Honeywell S ubject to Change without Notice. Rev. C 7.17-5 HMXMU001018 10/06...

Page 162 H o n e yw e ll M A X P R O -N e t K E Y B O A R D R J12 T E R M IN A L B O X P IN U T ILIZ A T IO N Rev.

Page 163: Compliance - Installation Requirements
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 two Amidon Associates FB-43-6301 Shielding Beads and interconnect cable (Beldon 8723 or equivalent) cut to the required length.

Page 164: Special Notes - Previous Versions Of Rd-530
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 Number is a binary encoded number.

Page 165: Hmxps9 System Power Supply
7.18 HMXPS9 SYSTEM POWER SUPPLY WARNING: Please ensure 1RU of rack space is left above each HMXPS9 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.

Page 166 P IN C O N N E C TIO N W ITH M A XP R O -N E T D E V IC E FITTE D W ITH C A N O N 3 P IN P LU G (S U B R A C K E TC ) TO M A K E -N -LO K O N M X -P S 9 H oneyw ell H M X S E R IE S...

Page 167: Rd9021 I/O Interface Module
The RD9021 I/O Interface Module is designed to expand D25 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 MAXPRO-Net “MX” range of I/O subracks such as the HMX1132, HMX1600, and the HMX1676.

Page 168 HONEYW ELL Copyright Honeywell Subject to change without notice. Rev. C 7.19-2 HMXMU001018 10/06...

Page 169: Hmx1676 Text Insertion Subrack With Vcr Control Subrack
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.

Page 170 Rev. C 7.20-2 HMXMU001018 10/06...

Page 171: Chapter 8: Diagrams
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.

Page 172 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 RJ11 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.

Page 173 8.2 SUBRACK CONNECTIONS, CONTINUED P IN C O N N E C TIO N W IT H M A X P R O -N E T D E V IC E F IT TE D W ITH C A N O N 3 P IN P L U G (S U B R A C K E T C ) TO M A K E -N -L O K O N M X -P S 9 H O N E YW E L L H M X S E R IE S...

Page 174: Pt321 Connections
PT321 CONNECTIONS Rev. C HMXMU001018 10/06...

Page 175 8.3 PT321 CONNECTIONS, CONTINUED Rev. C HMXMU001018 10/06...

Page 176: Pt323 Connections
PT323 CONNECTIONS Rev. C HMXMU001018 10/06...

Page 177: Pt324 Connections
PT324 CONNECTIONS Rev. C HMXMU001018 10/06...

Page 178: Pt325 Connections
PT325 CONNECTIONS Rev. C HMXMU001018 10/06...

Page 179: Pt327 Connections
PT327 CONNECTIONS Rev. C HMXMU001018 10/06...

Page 180: Rd390 Lens Control Emulator Connections
RD390 LENS CONTROL EMULATOR CONNECTIONS Rev. C 8-10 HMXMU001018 10/06...

Page 181: I/O Module D25 Connections
I/O MODULE D25 CONNECTIONS Rev. C 8-11 HMXMU001018 10/06...

Page 182 8.9 I/O MODULE D25 CONNECTIONS, CONTINUED Rev. C 8-12 HMXMU001018 10/06...

Page 183: Chapter 9 : Specialist Documentation
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 perform the hardware upgrade of the MAXPRO-Net Server from MAX-1000 systems •...

Page 184: Basics
"solder bridge" between the centre pin and the "A" pin. Replace all RD200 modules back into relevant subrack/s. 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.

Page 185: Vcr Connections Using The Rd9022
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.

Page 186 9.4 SINGLE SYSTEM JUNCTIONS (SPLIT MATRICES), CONTINUED Definition Where multiple matrices are controlled by one MAXPRO-Net System Controller & are interconnected via Trunklines. The 'A' matrix will be the matrix importing the video signals exported from the 'B' matrix. Step 1.

Page 187: Recommended Signal Cables
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.

Page 188: Audio (Telemetry) Cable
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.

Page 189: And Rs-422/485 Cable
9.5.3 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.

Page 190: Keyboard Extension Cable
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 8732 or equivalent) cut to the required length.

Page 191 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 CONDUCTOR diameter in Square Millimeters (mm², surface area). Supply = 24v AC @ 10% Max Load 2.0 Amps...

Page 192: Mains Power Distribution
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.

Page 193: Subrack Identification
SUBRACK IDENTIFICATION Subrack Description Rack Video Video Video Cascad Height slots slots Inputs Outputs e Inputs HMX1132 General purpose video 3 RU selection and I/O RD1616 General purpose video 6 RU selection and I/O RD1632 Video pre-selection 3 RU RD1664 Video pre-selection 6 RU RD2264...

Page 194: Subrack Current Consumption
SUBRACK CURRENT CONSUMPTION Subrack Description Video modules I/O modules Total Part Numbers Current HMX1132 General purpose video RD85/89/200 1.3 amps selection and I/O RD1616 General purpose video RD85/89/200 2.8 amps selection and I/O RD1632 Video pre-selection RD85/89/200 2.1 amps RD1664 Video pre-selection RD85/89/200 4.0 amps...

Page 195 9.8 SUBRACK CURRENT CONSUMPTION, CONTINUED 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.

Page 196: Module Current Consumption
MODULE CURRENT CONSUMPTION CODE FUNCTION CURRENT +9 V Supply CURRENT - (idle/active) 9V Supply RD81 EQ VDA 60 mA 50 mA RD82 80 mA +12 Volts RD84 Pre-select Switching 220 mA 170 mA RD85 Video switching 60 mA 50 mA RD89 Video Verification 130 mA...

Page 197: Chapter 10 : System Configuration
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.

Page 198 Notes: Rev. C 10-2 HMXMU001018 10/06...

Page 199: Chapter 11: Hd-Series Quick-Start Guide
Quick-Start instructions. 11.2 UNPACKING a) Remove your MAXPRO-Net HD Series equipment from its packaging and install it according to good engineering practice. b) Remove the MX-32128 metal front panel and cardboard support (where fitted) then replace the front panel.

Page 200: Startup
Wait for your system to boot, your system will now be operational. 11.5 BASE CONFIGURATION As shipped, your MAXPRO-Net HD Series switcher is pre-configured as follows: - a) All video inputs are defined as cameras with names preset to CAMERA xx, where xx is the physical input number.

Page 201: Customizing Your Configuration
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.

Page 202: Control Card Dip Switch Settings
11.7 CONTROL CARD DIP SWITCH SETTINGS The HMX128 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.

Page 203 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 1 – 16 1 - 16 17 – 32 1 - 16 33 – 48 1 - 16 49 –...

Page 204 11.7 CONTROL CARD DIP SWITCH SETTINGS, CONTINUED HMX128 LAYOUT MS001310 PCB and later revisions [S1] This is a system reset button for the HMX128 Control Card. This is used only for commissioning and troubleshooting. Rev. C 11-6 HMXMU001018 10/06...

Page 205: Subrack Addressing
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. e.g. ALL OFF 1 and 3 ON = subrack address 5 e.g.

Page 206: Hd-Series Subracks As Combiners
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 & 8. Normal operating mode is selected by SW3 / 7 and SW3 / 8 in the OFF position. Other operating modes are shown below.

Page 207: Technical Notes
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 is functionality via one subrack ID it was necessary to “map” this to “slot” numbers which may then be entered via SETMAX, the MAXPRO-Net ®...

Page 208: Vertical Interval Switching
11.14 TECHNICAL NOTES, CONTINUED 11.14.1 Hardware Mapping, Continued d. Alarm Inputs Alarm Slot Input (ASL field in SETMAX) 1 – 8 9 – 16 17 – 24 e. Control Outputs Output Slot Number (OSL field in SETMAX) 1 – 8 11.14.2 Vertical Interval Switching The reference input for vertical interval timing is physical input 1 (this is a hardware...

Page 209: Cascading Multiple Hmx32128 Subracks
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.

Page 210: Hmx4248 I/O Module For Hmx32128
11.15 HMX4248 I/O MODULE FOR HMX32128 11.15.1 General The HMX4248 module is an I/O (Input/Output) expander for the HD Series MAXPRO- 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 the MX- 128 controller card), and eight relay outputs.

Page 211: Using The Diamond Dome Camera Set-Up Menu
Equipment Configuration Diamond Dome MAX Switching System 12 13 Operator Monitor Output 25 26 28 29 31 32 Operator PC Monitor Monitor VGA/RGB Output MAXPRO-Net CPU with MaxMon (with Keyboard Emulation Tab) QWERTY RD-500/530 Keyboard Rev. C 11-13 HMXMU001018 10/06...

Page 212: Operation
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. C 11-14 HMXMU001018...

Page 213: Hmx128 Modules With 3 Dip Switches (Older Versions)
11.17 HMX128 MODULES WITH 3 DIP SWITCHES (OLDER VERSIONS) MX128 LAYOUT MODE Protocol CONTROL PROTOCOL Diamond FastScan/SmartScan CARD DATA Diamond SmartScan III/KD6 onwards SERIAL DATA POWER MAXPRO RS-485 PTZ DATA MAXPRO AF-485 VIDEO FAIL Panasonic Pelco AD Format Vicon Std Vicon Extended Star Micronics VIDEV...

Page 214: Mx826 Video Distribution Module
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 –...

Page 215: Installation
11.18 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 VIDEO OUTPUT 2-3 MX826 The 1 BNC connector at the top of the MX-826 is Video Input Number 1, with the following 3 BNC connectors providing video outputs.

Page 216: Hmx832 And Hmx832L Video Input And Switching Modules
11.19 HMX832 AND HMX832L VIDEO INPUT AND SWITCHING MODULES 11.19.1 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.

Page 217: Installation Accessories
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 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 and is fitted with one 16-way IDC style female connector at each end.

Page 218 Notes: Rev. C 11-20 HMXMU001018 10/06...

Page 219: Chapter 12: Videoblox Integration With Maxpro-Net
CHAPTER 12: VIDEOBLOX INTEGRATION WITH MAXPRO-NET 12.1 CONNECTION DIAGRAMS 12.1.1 Connecting MAXPRO-Net Server to Videoblox Chassis through HVBMATPIT Rev. C 12-1 HMXMU001018 10/06...

Page 220: Connecting Maxpro-Net Server To Videoblox Chassis Through Vb Converter
12.1.2 Connecting MAXPRO-Net Server to Videoblox Chassis through VB Converter Rev. C 12-2 HMXMU001018 10/06...

Page 221: Connecting Maxpro-Net Server To Videoblox Chassis Through Rs422 Pci Card
Card 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, O/P cards.

Page 222 Document HMXMU001018 10/06 Rev C © 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.

Honeywell MAXPRO-Net Hardware Installation Manual

Chapter 1: General Information

Chapter 2: Electrostatic Discharge (Esd)

Chapter 3: Warranty and Module Replacement

Chapter 4: Test Equipment

Chapter 5: Diagnosis and Troubleshooting

Chapter 6 : Module Information

Chapter 7: Data Sheets

Chapter 8: Diagrams

Chapter 9 : Specialist Documentation

Chapter 10 : System Configuration

Chapter 11: Hd-Series Quick-Start Guide

Chapter 12: Videoblox Integration with Maxpro-Net

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Summary of Contents for Honeywell MAXPRO-Net

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