JUPITER CM-4400: AccuSwitch Control System Installation and Operating Manual Software Version 7.9.
Affiliate with the N.V. KEMA in The Netherlands CERTIFICATE Certificate Number: 510040.001 The Quality System of: Thomson Inc, and it’s wordwide Grass Valley division affiliates DBA GRASS VALLEY Headquarters 400 Providence Mine Rd Nevada City, CA 95959 United States 15655 SW Greystone Ct. Beaverton, OR 97006 United States 10 Presidential Way Suite 300 Woburn, MA 01801 United States Kapittelweg 10 4827 HG Breda The Nederlands 7140 Baymeadows Way Ste 101 Jacksonville, FL 32256 United States 2300 So.
JUPITER CM-4400: AccuSwitch Control System Installation and Operating Manual Software Version 7.
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Contents Preface. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 About This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Additional Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Safety Terms and Symbols. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Installing Redundant CM-4400 Control Modules . . . . . . . . . . . . . . . . . . . . . . . . . . Connecting to Serial Controlled Routers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Jupiter Control of Encore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Non-Redundant Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Redundant Installation . . . . . . . . . . . . . . . . . . . . . . . .
Contents Closing the Configurator Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configurator Editing Guidelines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Find / Fill / Increment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Copy and Paste Rows between the Windows Clipboard and Jupiter . . . . . . . Jupiter Naming Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents Section 7 — Jupiter Control Center . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 229 The JNS Control Center Tabs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230 Section 8 — The Router Control Application . . . . . . . . . . . . . . . . . . . . . . . . . 241 Section 9 — Force Unlock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 245 Table Description . . . . . . . . . . . . . . . . . . . .
Preface About This Manual This manual provides the hardware installation, software configuration, and operating instructions for the Jupiter CM-4400 Control Module, which only supports the Jupiter AccuSwitch control software. This manual can also be accessed through the Jupiter Configuration Editor’s Help menu. Additional Documentation The following is comprised of supporting documentation, which is stored on Grass Valley’s Web site.
Preface 10 JUPITER CM-4400 Control Module Installation and Operating Manual
Safety Summary Read and follow the important safety information below, noting especially those instructions related to risk of fire, electric shock or injury to persons. Additional specific warnings not listed here may be found throughout the manual. WARNING Any instructions in this manual that require opening the equipment cover or enclosure are for use by qualified service personnel only.
Safety Summary Symbols on the Product The following symbols may appear on the product: Indicates that dangerous high voltage is present within the equipment enclosure that may be of sufficient magnitude to constitute a risk of electric shock. Indicates that user, operator or service technician should refer to product manual(s) for important operating, maintenance, or service instructions. This is a prompt to note fuse rating when replacing fuse(s).
Safety Summary Use proper power cord — Use only the power cord supplied or specified for this product. Ground product — Connect the grounding conductor of the power cord to earth ground. Operate only with covers and enclosure panels in place — Do not operate this product when covers or enclosure panels are removed. Use correct fuse — Use only the fuse type and rating specified for this product. Use only in dry environment — Do not operate in wet or damp conditions.
Safety Summary Do not operate with suspected equipment failure — If you suspect product damage or equipment failure, have the equipment inspected by qualified service personnel. Ensure mains disconnect — If mains switch is not provided, the power cord(s) of this equipment provide the means of disconnection. The socket outlet must be installed near the equipment and must be easily accessible. Verify that all mains power is disconnected before installing or removing power supplies and/or options.
Safety Summary Sicherheit – Überblick Lesen und befolgen Sie die wichtigen Sicherheitsinformationen dieses Abschnitts. Beachten Sie insbesondere die Anweisungen bezüglich Brand-, Stromschlag- und Verletzungsgefahren. Weitere spezifische, hier nicht aufgeführte Warnungen finden Sie im gesamten Handbuch. WARNUNG Alle Anweisungen in diesem Handbuch, die das Abnehmen der Geräteabdeckung oder des Gerätegehäuses erfordern, dürfen nur von qualifiziertem Servicepersonal ausgeführt werden.
Safety Summary Symbole am Produkt Die folgenden Symbole können sich am Produkt befinden: Weist auf eine gefährliche Hochspannung im Gerätegehäuse hin, die stark genug sein kann, um eine Stromschlaggefahr darzustellen. Weist darauf hin, dass der Benutzer, Bediener oder Servicetechniker wichtige Bedienungs-, Wartungs- oder Serviceanweisungen in den Produkthandbüchern lesen sollte. Dies ist eine Aufforderung, beim Wechsel von Sicherungen auf deren Nennwert zu achten.
Safety Summary Keine offen liegenden Leiter berühren — Berühren Sie bei eingeschalteter Strom- zufuhr keine offen liegenden Leitungen, Komponenten oder Schaltungen. Richtiges Netzkabel verwenden — Verwenden Sie nur das mitgelieferte Netzk- abel oder ein Netzkabel, das den Spezifikationen für dieses Produkt entspricht. Gerät erden — Schließen Sie den Erdleiter des Netzkabels an den Erdungskontakt an.
Safety Summary Gerät ausreichend belüften — Um eine Überhitzung des Geräts zu vermeiden, müssen die Ausrüstungskomponenten entsprechend den Installationsanweisungen belüftet werden. Legen Sie kein Papier unter das Gerät. Es könnte die Belüftung behindern. Platzieren Sie das Gerät auf einer ebenen Oberfläche. Antistatische Vorkehrungen treffen — Es gibt statisch empfindliche Kompo- nenten, die durch eine elektrostatische Entladung beschädigt werden können.
Safety Summary Consignes de sécurité Il est recommandé de lire, de bien comprendre et surtout de respecter les informations relatives à la sécurité qui sont exposées ci-après, notamment les consignes destinées à prévenir les risques d’incendie, les décharges électriques et les blessures aux personnes. Les avertissements complémentaires, qui ne sont pas nécessairement repris ci-dessous, mais présents dans toutes les sections du manuel, sont également à prendre en considération.
Safety Summary Symboles apposés sur le produit Les symboles suivants peut être apposés sur le produit: Signale la présence d’une tension élevée et dangereuse dans le boîtier de l’équipement ; cette tension peut être suffisante pour constituer un risque de décharge électrique. Signale que l’utilisateur, l’opérateur ou le technicien de maintenance doit faire référence au(x) manuel(s) pour prendre connaissance des instructions d’utilisation, de maintenance ou d’entretien.
Safety Summary Évitez tout contact avec les circuits exposés — Évitez tout contact avec les connex- ions, les composants ou les circuits exposés s’ils sont sous tension. Utilisez le cordon d’alimentation approprié — Utilisez exclusivement le cordon d’alimentation fourni avec ce produit ou spécifié pour ce produit. Raccordez le produit à la masse — Raccordez le conducteur de masse du cordon d’alimentation à la borne de masse de la prise secteur.
Safety Summary Assurez une ventilation adéquate — Pour éviter toute surchauffe du produit, assurez une ventilation de l’équipement conformément aux instructions d’installation. Ne déposez aucun document sous l’appareil — ils peuvent gêner la ventilation. Placez l’appareil sur une surface plane. Utilisez des procédures antistatiques - Les composants sensibles à l’électricité statique présents dans l’équipement sont susceptibles d’être endommagés par une décharge électrostatique.
Regulatory Notices Certifications and Compliances FCC Emission Control 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.
Regulatory Notices Canadian Certified Power Cords Canadian approval includes the products and power cords appropriate for use in the North America power network. All other power cords supplied are approved for the country of use. Canadian Certified AC Adapter Canadian approval includes the AC adapters appropriate for use in the North America power network. All other AC adapters supplied are approved for the country of use.
Regulatory Notices FCC Emission Limits This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesirable operation.
Regulatory Notices THE INFORMATION IN THE CERTIFICATION TABLES ABOVE MUST BE REVIEWED TO CONFIRM THE PROPER COMPLIANCE NOTICES ARE INCLUDED. STANDARDS MAY HAVE CHANGED SINCE THIS BOILERPLATE INFORMATION WAS DRAFTED. REGULATORY COMPLIANCE IS ESTABLISHED WHEN THE PRODUCT IS RELEASED THE FIRST TIME. THAT COMPLIANCE LEVEL IS RETAINED UNLESS THE PRODUCT OR MARKET CHANGES IN SOME WAY THAT REQUIRES NEW COMPLIANCE TESTING. DO NOT BLINDLY REPLACE INFORMATION IN OLDER MANUALS WITH THIS BOILERPLATE INFORMATION.
ESD Protection Electronics today are more susceptible to electrostatic discharge (ESD) damage than older equipment. Damage to equipment can occur by ESD fields that are smaller than you can feel. Implementing the information in this section will help you protect the investment that you have made in purchasing Grass Valley equipment. This section contains Grass Valley’s recommended ESD guidelines that should be followed when handling electrostatic discharge sensitive (ESDS) items.
ESD Protection Sources of ESD and Risks The following information identifies possible sources of electrostatic discharge and can be used to help establish an ESD policy. Personnel One of the largest sources of static is personnel. The static can be released from a person’s clothing and shoes. Environment The environment includes the humidity and floors in a work area. The humidity level must be controlled and should not be allowed to fluctuate over a broad range.
ESD Protection Grounding Requirements for Personnel The information in this section is provided to assist you in selecting a grounding method. This information is taken from ANSI/ESD S20.20-2007 (Revision of ANSI/ESD S20.20-1999). Table 1. Product Qualification Personnel Grounding Technical Requirement Test Method Required Limits Wrist Strap System* ANSI/ESD S1.1 (Section 5.11) < 3.5 x 107 ohm Flooring / Footwear System – Method 1 ANSI/ESD STM97.1 < 3.
ESD Protection 30 JUPITER CM-4400 Control Module Installation and Operating Manual
Section 1 Introduction The CM-4400 Jupiter Control Module (CM) is designed to control Grass Valley Routing switchers, specific third party routers, and certain other RS422 devices. The devices to be operated are connected to the CM-4400, which is in turn connected to Jupiter control panels. The CM-4400 is configured using the Jupiter file server (Figure 3 on page 33). Note Sony machine control is not supported by Jupiter AccuSwitch control software.
Section 1 — Introduction Figure 2. CM-4400 Control Module-Front Reset Button 071876600_CM4400-Frontpnl Activate Button LED Display CM-4400 Jupiter AccuSwitch Control System The Jupiter AccuSwitch Control System allows you to configure and control routers, control panels, and diverse connected equipment. The Jupiter control system includes: • CM-4400 system controllers (Primary and Secondary (Redundant) controllers) • Jupiter AccuSwitch Control software (7.
Figure 3. Example Jupiter System L-S-LCD panels VTR Automation computer Triton router ASCII protocol RS−422/232 converter1 Apex, Concerto, GS 400, Trinix, or Venus router For jumper and switch setting information, refer to the installation manual supplied with the router. Jupiter file server CC 2010 Matrix (Crosspoint bus) cables.
Section 1 — Introduction Control Functions Distribution Switcher Control Grass Valley matrix routers that can be controlled by the CM-4400 include Trinix, Apex, Concerto, and Venus. The crosspoint bus on the matrix router is connected to a CM-4400. This CM-4400 is connected to the Jupiter file server. Note The Triton line of routers and some third-party routers can be controlled using a serial connection.
Control Functions The CM-4400 supports the following protocols: • Alpha Image • Data Tek • GVG Native (outgoing) • Nexus • Pro-bel Eclipse • Utah 96 • EScontrol • Utah 12 • Nexus Star • GVG Horizon Please contact Grass Valley’s Technical support for more information (see page 4). Control panels The JEP-100, L-S, and LCD panels are available for use with the AccuSwitch application.
Section 1 — Introduction System Logger The System logger provides you with system status display in a window on the Jupiter file server or Jupiter remote PC. Jupiter Configurator Editor Microsoft Windows-style menus are used to configure the various components of the system. For example, these menus are used to set the individual buses of the CM-4400 to MPK, or other protocols as needed. Ordering Information Contact your sales representative when ordering CM-4400 parts.
Section 2 Hardware Installation Unpacking and Inspection Before unpacking the equipment, inspect the shipping carton for evidence of freight damage. Notify the carrier and Grass Valley if the contents have been damaged. Retain all shipping cartons and padding material for inspection by the carrier. Do NOT return damaged merchandise to Grass Valley until an appropriate claim has been filed with the carrier and a material return authorization number has been received from Grass Valley.
Section 2 — Hardware Installation Figure 4. Jupiter AccuSwitch application - Connection to Crosspoint Bus Router Apex, Concerto§, and Trinix routers §§ For jumper and switch setting information, refer to the installation manual supplied with the router. CC 2010 Matrix (Crosspoint bus) cables. Crosspoint bus ¶ CB 3000 Control Buffer May be required when more than 50 matrix boards are installed in switcher.
Unpacking and Inspection Figure 5.
Section 2 — Hardware Installation Connecting the CM-4400 to the Jupiter LAN The Routers, Control Panels, and PC's that comprise the Jupiter Control System communicate through the CM-4400 on the Jupiter LAN. The IP address that is defined as the Base IP is assigned to the first controller in the system when loading the Jupiter Control Software. The other CM-4400s are assigned their IP addresses by automatically incrementing addresses following the first controller’s address.
Connecting the CM-4400 to the Jupiter LAN Connecting the Jupiter File Server The Jupiter File Server PC must be on the local Jupiter LAN and running Windows XP Professional with at least Service Pack 2. Grass Valley recommends that the Jupiter File server be a separate computer that is dedicated for Jupiter. All firewall applications must be disabled for the Jupiter File server; this includes the Windows Firewall application and any firewalls that are associated with anti-virus programs.
Section 2 — Hardware Installation Before configuring the Panels, you must have the following information: • The IP address • The Subnet • The Gateway (if located on another subnet, or being used across a WAN) • The Unique Device ID • The IP address of the Primary and Secondary (Redundant) System Controllers Follow these steps to configure the AccuSwitch Control panels: 1.
Connecting the CM-4400 to the Jupiter LAN 4. Enter 255.255.255.0 in the Subnet Mask field. 5. Enter a unique value in the Gateway field. See your network administrator for this IP address. Note If the L-S or LCD Panels and the CM-4400 are on separate networks, the gateway connecting them must be specified. Connection Type Follow these steps to select the Connection type: 1. Scroll the Panel Network Configuration down to the Connection Type: section (Figure 8). Figure 8.
Section 2 — Hardware Installation Additional Connections The following connections are optional. Grass Valley offers the Basic XY or Multi-Level XY soft panels, which allow local or remote control of the Jupiter system. You can also connect a Master control system or a CB 300. For more information about the CB 300, see The CB 3000 Control Buffer on page 77. 1. Install the Software Control panels on a PC.
CM-4400 Control System’s Protection Features CM-4400 Control System’s Protection Features The CM-4400 has many features that are for your protection. These features include: • • Alarms • Single CM-4400 • Redundant CM-4400 Redundant Units Alarm Modes The CM-4400’s alarm system will start in the following conditions: • The main CPU (or a main CPU task) is not operating properly. • The power supply is not operating properly. • The unit is in the process of rebooting.
Section 2 — Hardware Installation Alarms in a Single CM-4400 Installation If the master alarm is asserted by the main CPU watchdog timer (and assuming that the power supply is operating properly), the CM-4400 will be rebooted automatically. Alarms in a Redundant CM-4400 Installation For additional protection, a redundant CM-4400 can be installed. The redundant CM-4400 will monitor the master CM-4400.
CM-4400 Control System’s Protection Features Replacing a Failed Redundant Unit Protection can be further enhanced by maintaining a third Control Module (CM) as a replacement or stand-by unit (See Figure 10). Should the master fail, the redundant CM-4400 would assume control; the third CM-4400 would then be installed on the network and the failed master removed. Control could then be manually switched to the new master. This process would allow repair of the failed unit with no interruption in service.
Section 2 — Hardware Installation A fault condition is indicated by a “00,” “01,” or “FF” indication on the front panel LED display, or, in the case of a failed power supply, no illuminated lamps. Router control should have been switched to the other CM. Verify that control has switched by looking for the green Activate lamp. Replacing the Failed Unit Follow these steps to replace the failed unit: 1. Switch control manually to the good unit by pressing the Activate button if necessary. Figure 11.
CM-4400 Control System’s Protection Features Verifying the Replacement CM-4400 is Ready to be Used Follow these steps to verify that the replacement unit is ready for use: 1. Start the Jupiter Network Suite, if it is not already running. a. Click the JNS Server button on the top of the JNS Control Console. The JNS Server screen will then appear. The words “Not Connected” will be displayed in the red connection indicator next to the Connect button. b. Click the Connect button. 2.
Section 2 — Hardware Installation Installing Redundant CM-4400 Control Modules In a Redundant CM-4400 system, the redundancy cable between the units is marked “Master” on one end; whichever Control module is connected to this end of the cable is always the master unit. The wiring for a redundant CM-4400 system is shown in Figure 12. The BOP 4000 Break Out Panel is designed to be mounted in the back of an equipment rack, behind the redundant CMs. Figure 12.
Installing Redundant CM-4400 Control Modules BOP 4000 Break Out Panel kit Cables Figure 13. BOP 4000 and Cables. Assembly no. F7-029500-104 Rear of BOP 4000 8 ea. serial control splitter cables 2 ea. crosspoint bus cables M M F 3 feet (0.91 m) 3 feet (0.91 m) M M 3 feet (0.91 m) 3 feet (0.91 m) CM 4000 Master M 1 ea. Redundancy Cable 1.5 feet (0.
Section 2 — Hardware Installation Figure 14. Assembly, CM-4400 Redundancy Cable to CM 4400 Redundancy port (Master) to CM 4400 Redundancy port (Slave) 1 1 Shield 9 9 2 10 2 White 10 Green 3 11 3 Red 11 Black 4 4 12 12 5 5 13 13 6 Brown 14 14 7 7 15 15 8 P1 DB15P (male) 52 8 1.5 feet (0.
Connecting to Serial Controlled Routers Connecting to Serial Controlled Routers The CM-4400 System Controller can be used to control certain non-Crosspoint Bus switchers using serial interface ports (Figure 15). Control of some of these routers is an extra-cost option; such routers are referred to as “remote” routers. Figure 15.
Section 2 — Hardware Installation Please refer to Figure 16 for details concerning each switcher type. The Installation manual that is supplied with the routing switcher should also be checked for port configuration instructions. Figure 16. Serial-Control Switcher Restrictions Serial−control Switcher Serial−control Switcher Only one remote switcher of a given type can be connected to a single CM 4400.
Jupiter Control of Encore Jupiter Control of Encore The CM-4400 can send switching commands to a Grass Valley Encore control system. Encore can then send commands to a router. The serial ports on the back of the Encore System Controller Board (SCB) use RJ45 connectors; the port selected for the CM-4400 connection must be configured for RS-422 operation with an internal jumper. For more information about the SCB ports, refer to the Encore installation and user manuals. Non-Redundant Installation Figure 17.
Section 2 — Hardware Installation Figure 18. Factory-Supplied Encore/Jupiter Serial Cable and Customer-Supplied Items To SCB RS−422 port 8−inch cable supplied with Encore Y Cable Kit. (Type depends on SCB model; refer to text for ordering information.) Standard Cat5 coupler Standard Cat5 cable (max. 250 feet) Customer−supplied items RJ45 female to 9−pin D male adapter attaches directly to CM serial port.
Jupiter Control of Encore Figure 20.
Section 2 — Hardware Installation Redundant Installation Some Encore systems may be equipped with redundant System Controller Boards (SCBs). In this case, the recommended arrangement is to install a redundant CM-4400 and connect the CMs to the SCBs with a BOP 4000 Break Out Panel. See Figure 22. Details of the Encore connection are presented below. Figure 22.
Jupiter Control of Encore Figure 23. Y Connections to Redundant CMs To SCB RS−422 ports 8−inch cables supplied with Encore Y Cable Kit. (Type depends on SCB model; refer to text for ordering information.) RJ45 Y connector Standard Cat5 cable (max. 250 feet) Customer−supplied items RJ45 female to 9−pin D male adapter. Internal wiring is per Figure 2−21.
Section 2 — Hardware Installation Figure 24.
Jupiter Control of Encore Figure 25.
Section 2 — Hardware Installation Logical Level Mapping The Jupiter Physical Switching menu refers to a “logical level” that is actually the logical level number; this number is the row number that the level is identified on the Switcher Level Descriptions table. The logical level name also appears on this table In redundant systems, the same physical level number is used on more than one logical level.
Encore Control of Jupiter Hardware Connections For complete information regarding jumper settings and cabling, refer to the technical manual supplied with the data switcher. Software Configuration Configuration entries are required on the Switcher Description table, Switcher Input table, Switcher Output table, CP Input Set, and CP Output Set. For an overview of DM 400B configuration, see Data Switching Applications on page 165.
Section 2 — Hardware Installation Figure 27.
Connecting to Multiple Crosspoint Bus Distribution Switchers Connecting to Multiple Crosspoint Bus Distribution Switchers Connection Using a Single CM-4400 A single CM-4400 control board can be used to control more than one Crosspoint Bus Routing switcher; however, each physical level must have a unique number. Expanding a system may require changing the DIP switches or jumpers on the Routing switcher (for example, Trinix). See Figure 28.
Section 2 — Hardware Installation DEDICATED CM-4400 PER SWITCHER By using separate CM-4400s, physical level numbers may be duplicated from one switcher to another. When expanding a system, the need to change the DIP switches or jumpers on the routing switcher is eliminated. See Figure 29. Figure 29. Multiple Switcher Installation with Dedicated CM- 4400 Physical level 2 Left audio Physical level 1 Video Physical level 4 Right audio “NEWSROUT” CB−3000 Control Buffer.
Connecting to Multiple Crosspoint Bus Distribution Switchers Two wiring schemes can be used: • Sequential wiring, where tie lines are organized in blocks; as shown in Figure 30 on page 68. • Non-sequential wiring, can be used when adding lines to an existing system; as shown in Figure 31 on page 69. Sequential wiring information is entered using only one file server table, the Path finding Data table. Non-sequential wiring requires entries in the Non-Sequential Path Finding Data table.
Section 2 — Hardware Installation Figure 30. Example of Sequential Path Finding Connections Tie lines can be connected starting with any input or output but must then follow in sequential order. Inputs 20 21 22 Grass Valley Crosspoint Bus distribution switcher “A” 10 11 12 13 14 Outputs CC 2010 Matrix cable. 50 ft. (15.2 m) max. Crosspoint Bus port CM 4400 System Controller 10/100baseT Jupiter LAN Hub CC 2010 Matrix cable. 50 ft. (15.2 m) max.
Connecting to Multiple Crosspoint Bus Distribution Switchers Figure 31. Example of Non-Sequential Path Finding Connections 20 26 27 Crosspoint Bus distribution switcher “A” 13 14 15 83 84 CC 2010 Matrix cable. 50 ft. (15.2 m) max. Crosspoint Bus port CM 4400 System Controller 10/100baseT Jupiter LAN Hub CC 2010 Matrix cable. 50 ft. (15.2 m) max.
Section 2 — Hardware Installation Figure 32.
Connecting to Multiple Crosspoint Bus Distribution Switchers Data Router Constraints There are several required constraints when dealing with data routers and path finding: • The software on AccuSwitch will only support the Venus DM-400B and the Concerto Data Routers. • Data routers that are part of a path must be connected to the CM-4000/ 44000 controllers defined as “AS” (AccuSwitch) in the Type column of the Network Description table.
Section 2 — Hardware Installation Installing a File Server PC The minimum hardware and software requirements for the File server are described in File Server Minimum Specifications on page 279. Follow the instructions supplied with the file server for connecting the monitor, keyboard, and mouse. The Jupiter LAN Jupiter file servers are connected to the CM-4400 through an IP hub, switch, or media converter via the Jupiter LAN.
Installing a File Server PC Installing “Remote” PC on LAN Note The Remote PC feature is no longer supported (since the release of Jupiter version 7.8.2) and may not work as preferred due to changes in the Microsoft Windows operating system. Grass Valley has no control over the changes Microsoft implements.
Section 2 — Hardware Installation Installing Control Panels See the manual that came with the preferred Control panel for Installation instructions, including hardware connections and entries to Jupiter configuration tables. Note A maximum of sixteen devices may be assigned to an addressable controller port.
Installing a File Server PC The CC 2010 Matrix (Crosspoint Bus) Cable Grass Valley’s Trinix, Concerto, and Venus Routing switchers use a very fast, reliable, and proprietary connection called the Crosspoint Bus (XPT). The CC 2010 Matrix (Crosspoint Bus) cable is used to connect the CM-4400 to the routing switcher’s Crosspoint Bus. Depending on the size of the switcher, this bus may require intermediate buffering through the CB 3000 Control Buffer.
Section 2 — Hardware Installation Figure 34. CC 2010 Wiring.
The CB 3000 Control Buffer The CB 3000 Control Buffer Figure 36. The CB 3000 Control Buffer - Front and Rear Panel A POWER B POWER REM/ALM OUTPUT (CONTROL) BUSES SELECT A CLEAR SELECT B CROSSPOINT BUS LOOP The CB 3000 Control Buffer is required for buffering crosspoint data when the Crosspoint Bus is sent to more than one equipment rack.
Section 2 — Hardware Installation Some systems may be equipped with one or more single-output CB 2000 Control Buffers rather than a CB 3000. Please refer to the wiring information supplied with your switcher for details.
The CB 3000 Control Buffer Connection To Thomson/Philips DD Series (“Diamond”) For the installation steps for the Thomson/Philips DD Series, see the Hardware section of the CM-4000 Installation manual JUPITER CM-4400 Control Module Installation and Operating Manual 79
Section 2 — Hardware Installation Connection to Automation and Other Systems The following refers to all automation-to-CM-4400 systems. The CM-4400 will support multiple connections to an automation system. For example, “channel A control” of an automation system could be connected to Serial Port 1 of the CM-4400 and “channel B control” connected to Serial Port 2). CM-4400s can be installed as a redundant pair where each monitors the other.
Connection to Automation and Other Systems Connection to Devices using Jupiter ASCII Computer Interface Protocol Figure 38. Example of Devices using Jupiter ASCII Computer Interface Protocol. Serial port Serial Port ASCII bus Control computer See pages 2−89 and 2−90 for examples of this cable LAN CM-4400 System Controller Sync ref. See pg. 2−64 These systems are similar to that shown on page 2-87.
Section 2 — Hardware Installation Figure 40. Cable for connecting CM-4400 to AT-type computer.
Section 3 Software Installation New Jupiter systems ship from the factory with the latest version of software pre-installed. New systems do not need their software updated. However, new Jupiter systems will need to be configured to operate at your facility. For quick system startup you may wish to refer to the Jupiter Getting Started Guide. This booklet provides an abbreviated version of the configuration instructions in this manual and is available on Grass Valley's Web site.
Section 3 — Software Installation Note • For more information about clearing the parameter memory, see Clearing Persistent Memory (PMEM) on page 106. All configuration sets will need to be recompiled. Equipment Required GV-supplied PC 3000 (F7-029500-121) file server or a PC with the minimum requirements listed in File Server Minimum Specifications on page 279. Software Required Installation of the Jupiter 7.8.
Software Update Software Update CAUTION During the software update your Jupiter system will be taken off-line for a short time while the control boards (CM-4400) are updated. Existing matrix cross-points will remain selected, but source to destination changes will not be possible while the control boards are off-line. Contact Grass Valley Customer Support if you have any questions regarding this software update.
Section 3 — Software Installation Installing the Jupiter Software Components Updating a Previous Installation The update procedure is a two-step process. The first step is Removing the Previous Version of the Jupiter software. The second step is Installing the Latest Version of the application. Each of these steps is described in detail below. Removing the Previous Version The Installation program will check to see if an earlier version of Jupiter is installed on the computer.
Installing the Jupiter Software Components The Welcome - Remove the program screen will then appear after a few minutes (Figure 43). Figure 43. Welcome - Remove the Program Screen 2. Click the Next> button. The Setup Status screen will then appear (Figure 44). Figure 44. Setup Status Screen The previous version of the application will then be removed.
Section 3 — Software Installation When the removal of the application has been completed, the Maintenance Complete screen will then appear (Figure 45). Figure 45. Maintenance Complete Screen 3. Click the Finish button. The InstallShield Wizard application will then close. You can now install the latest version of Jupiter.
Installing the Jupiter Software Components Note If the Installation Program doesn’t start up automatically, double-click the Setup.exe icon on the CD or click Start, Select Run..., and then type, in the Open field, D:\Setup.exe. Substitute the letter of your CD-ROM drive for “D”. Figure 46. Jupiter Installation Welcome Screen 2. Click the Next > button. The Customer Information screen will then appear (Figure 47). Figure 47. Customer Information 3.
Section 3 — Software Installation 5. Click the Next > button. The Software License Agreement screen will then appear (Figure 48). Figure 48. License Agreement 6. Read the License Agreement and then click the Yes button to accept the license agreement. The Setup Type screen will then appear (Figure 49). Note Clicking the No button will stop the installation process. Figure 49. Setup Type Screen 7. Select the preferred type of installation and then click the Next > button.
Installing the Jupiter Software Components Figure 50. Question Screen 8. Click the Yes button if the letter is correct or if you are not using the Saturn Master Control system. The Choose Destination location screen will then appear (Figure 51). Figure 51. Choose Destination Location Screen 9. Browse to the Destination folder of your choice and then click the Next> button. The Enter Network Information dialog will then appear (Figure 52). Figure 52.
Section 3 — Software Installation 10. Select the IP address for the Network card that will communicate with the Jupiter system. This is the IP address that you were asked to obtain earlier. Note Consult with your Network administrator if you do not know the network values to enter. • If there is more than one Network card installed, all the cards will appear in the dialog window. Select the preferred network card. • Enter the Port information in the respective fields 11.
Installing the Jupiter Software Components The Choose Destination Location screen will then appear (Figure 54). Figure 54. Start Copying Files Screen 12. Review the Current Settings and then click the Next> button. The Setup Status screen will then appear (Figure 55). Figure 55. Setup Status Screen When the Installation process is completed the InstallShield Wizard Complete screen will then appear (Figure 56).
Section 3 — Software Installation Figure 56. InstallShield Wizard Complete Screen 13. Click the Finish button. The installation process is now completed.
Removing Jupiter Software Removing Jupiter Software You must be logged in as the administrator in order to remove the Jupiter software. This process will not remove existing user-created configuration sets. Follow these steps to remove the Jupiter software: 1. Start the Control Panel application (Start> Settings> Control Panel). 2. Click the Add or Remove Programs icon. 3. Select the Jupiter application from the list of the installed programs. 4. Click the Change/Remove button.
Section 3 — Software Installation 96 JUPITER CM-4400 Control Module Installation and Operating Manual
Section 4 Jupiter Network Suite Control Console The JNS Control Console is the application that is used to launch the various Jupiter Network Suite (JNS) programs. It is also used to launch the Jupiter Configuration Editor (also known as the Configurator).
Section 4 — Jupiter Network Suite Control Console Launching the Control Console The JNS Control Console can be launched from the Start menu (Start > All Programs > Jupiter Network Suite) When the program is launched, the window shown in Figure 59 will appear. Figure 59. JNS Control Console The JNS Control Console must be connected, or pointed to the computer that JNS will control. In this example, the File server is only computer. 1. Click the Connect button.
Launching the Control Console Figure 60. JNS Console Connected Running application or server You may need to confirm that the JNS Console.ini file should be created when starting the Jupiter software for the first time. When this happens, you may see an alert which is shown below in Figure 61. This condition is normal at this stage of installation; click the OK button. Figure 61. No Active JUPITER Set Selected The creation and selection of sets is described in The Configurator Application on page 107.
Section 4 — Jupiter Network Suite Control Console Program Groups The Program groups are located at the top of the JNS console. Figure 62. JNS Console Connected JNS Application, Tools, and Utilities These program groups consist of the following: JNS Applications, JNS Tools, JNS Utilities, and JNS Servers. The features in each of these groups are shown below. JNS Applications Group 100 • Control Center • CP IO Set Editor (Not supported by AccuSwitch.
Launching the Control Console JNS Tools Group • Configuration editor (“Configurator”) • Board Status • Force Unlock • Party Line Download † • Physical Control • Physical Remapping Utility • Router Save/Restore JNS Utilities Group • Physical Diagnostic Utility JNS Servers Group The JNS programs that provide data to Jupiter client programs in the same or other computers are located in the JNS Servers group. For example, Status, Info, and Control information.
Section 4 — Jupiter Network Suite Control Console Figure 63. The Configuration Editor in the JNS Tools Group The Configuration Editor will then appear. Figure 64. The Configuration Editor Start Screen Note 102 When the Jupiter system is initially set up, the Configuration Editor MUST be the application that is selected first. This application is described in The Configurator Application on page 107.
Restart Procedures Restart Procedures There are four ways to reset the CM-4400 controller (these steps are listed in the preferred order of operation): 1. Selecting the Reboot option in the Jupiter software. 2. Pressing the front panel’s Reset button. 3. Power cycling the CM. 4. Using the Console port. These steps are described below. During a restart, the CM will test itself and, depending on the result, may request a new download from the file server.
Section 4 — Jupiter Network Suite Control Console Board Info /Control Tab Follow these steps to select the Reboot option: 1. Start the Control Center (Go to Start > Programs > Jupiter Network Suite > JNS Applications > Control Center). 2. Click the Board Info /Control tab. Figure 66. The Configuration Tab of the Control Center Application 3. Select the board that you want to reset. 4. Click the Reboot button, at the top of the list of buttons on the right side of the dialog.
Restart Procedures 2. Select the Reset button on the front of the CM-4400 (Figure 68). Figure 68. The Reset button on the front of the CM-4400 071826105_FrontCoverremoved Reset Button The above steps are the preferred method for pressing the Reset button. However, there is a hole on the front cover in which you can stick a narrow object (for example, pen, pencil, or small screwdriver) to reset the CM-4400 without removing the front cover.
Section 4 — Jupiter Network Suite Control Console Clearing Persistent Memory (PMEM) The Persistent Memory (PMEM) is cleared by selecting the Clear PMEM button on the Board Info /Control tab of the Control Center Application. For more information about the Control Center, see Jupiter Network Suite Control Console on page 97. When the PMEM is cleared, all switcher status will be lost (no switches will take place). The switcher status will not be restored until the switches are manually re-taken.
Section 5 The Configurator Application Overview Following a hardware and software installation, all connections to the Jupiter system including those for control, video, audio, and any other connection, must be identified and described in a Configuration Set. This Configuration set consists of a collection of user-defined tables. The Configuration Editor (the Configurator), is the editing program that is used to create and edit these tables.
Section 5 — The Configurator Application 2. Click the Connect button (Figure 71). JNS will then connect to the Control module. Figure 71. The Jupiter JNS Control Console 3. Click the JNS Tools button that is below the menu bar. The JNS Tools launch screen will then open. 4. Click the Configuration Editor button.
Overview Figure 72. The Jupiter JNS Control Console Click the Configuration Editor button The Jupiter Configurator will then open. When the widow first opens, it will appear to be blank (Figure 73 on page 110). Note If you are an experienced Jupiter user, and wish to check the routing switcher as quickly as possible, see Using the Numeric Sets for Quick Switcher Checkout on page 206.
Section 5 — The Configurator Application Figure 73. The Jupiter Configurator • Use the Open command (File > Open) to select an existing configuration set; the full path and name of the set will appear in the window’s title bar. • Use the New command (File > New) to create a new set. The last set that was used will be opened automatically when Configurator is started again.
AccuSwitch Configuration File Overview AccuSwitch Configuration File Overview When a Configuration set is activated from the Control Center a zipped copy of the configuration will be downloaded to the AccuSwitch control board. Uploaded sets, which are named _Active.zip and _Prev.zip, are placed in the Jupiter\Logdata directory. In order to work with an uploaded set, you will need to use the existing Unzip Configuration Set menu option (Tools > Unzip Configuration Set menu) to unzip the _Active.
Section 5 — The Configurator Application Exporting a Configuration Set You can export a Configuration set to use it on another machine. You must have a configuration set open. Follow these steps to export a Configuration set: 1. Select the Zip Configuration Set option from the Tools menu (Tools> Zip Configuration Set). The Zip Configuration Set dialog will then open 2. Select the preferred Configuration set from the list. In Figure 74 the test2 option is selected. Figure 74.
AccuSwitch Configuration File Overview Figure 75. The Zip Configuration Set Save Dialog Enter the preferred name 6. Click the Save button. The Zip Configuration Set Information dialog will then open. The dialog will say, The “” set was successfully zipped. See Figure 76. Figure 76. The Zip Configuration Set Information Dialog 7. Click the OK button. The dialog will then close and the Configuration set has been exported.
Section 5 — The Configurator Application Uploading a Configuration File from AccuSwitch The Configuration Info and Set Upload application will upload the active configuration from a specified Control Module (CM). When you select a CM-4400 and then select the Upload Source option (Tools > CM4000 Configuration Info and Set Upload), the current _Active.zip file (Jupiter\Logdata\_Active.zip) is deleted and the new _Active.zip and _Prev.
AccuSwitch Configuration File Overview Figure 78. The CM-4000 Configuration Information screen) 3. Click the Broadcast button if all CM-4000s are not listed. All running CM4000s that are connected to the network should then be displayed regardless of subnet. Note If you do not see any CM-4000s listed when the Multicast button is selected, you may need to set the Gateway and Subnet Mask in the Jupiter Settings. Go to “Tools > Jupiter Settings.” Then fill in the Gateway and the Subnet Mask.
Section 5 — The Configurator Application 5. The current active configuration set will then uploaded as _Active.zip and the previously active set will then be uploaded as_Prev.zip. A message will inform you when the available sets have been uploaded. Unzipping, Opening, Editing, and Compiling the Configuration Set Follow these steps to unzip, open, edit, and compile the current Configuration set: 1. Start the Jupiter “Configuration Editor” and then open the Current Set (_Active.
AccuSwitch Configuration File Overview Accessing the Jupiter Tables The Jupiter tables are Windows-style menus. These menus are used to configure the various components of the system. Follow these steps to access Jupiter tables: 1. Select the Jupiter drop-down menu. The Jupiter menu, with a list of commands will then appear (Figure 81). Figure 81. The Jupiter Menu 2. Select the table that you would like to display.
Section 5 — The Configurator Application Figure 82. The Jupiter Menu - Network Description Table If a password entry menu appears, it means that a Jupiter password (other than the factory default of “999999”) has been set. Enter the authorized password and then click the OK button. The password system is discussed in Passwords on page 143. The configuration set should now be edited as appropriate and made active (downloaded) as described in the Configurator Editing Guidelines section.
AccuSwitch Configuration File Overview Configurator Editing Guidelines This section describes the options that are available to expedite the dataentry process and eliminate common errors such as differences in spelling and entry of inappropriate data. Automatic Table Entry This option will expedite the data entry process and eliminate errors due to differences in spelling and entry of inappropriate data.
Section 5 — The Configurator Application Auto Complete Feature • The editor will Auto Complete or suggest the remaining letters of a word, that has been used before. • To accept the auto completed entry, press the TAB key; otherwise, continue typing the new entry. Drop-Down Lists • When a field requires a selection to be made from a fixed list, click anywhere in the field to cause a drop-down arrow to appear.
AccuSwitch Configuration File Overview Navigating and Copying Rows The table below displays the key strokes that can be used to navigate and copy rows. Table 4. Navigating and Copying Commands Commands Descriptions Ctrl+Down-Arrow key combination Pressing the Ctrl+Down-Arrow key combination will jump the cursor to the bottom of a table. Ctrl+Up-Arrow key combination Pressing the Ctrl+Up-Arrow key combination will jump the cursor to the top of a table.
Section 5 — The Configurator Application Figure 83. Inserting a New Row In The Middle of the Table Added New Row Deleting an Entire Row Follow these steps to delete an entire row: 1. Click the row number box. 2. Press the Alt+Del keys on the keyboard. (Or, select the Delete option from the Edit menu.) The selected row will then be removed. Re-ordering a Table Manually Follow these steps to re-order a table manually. 1. Select the row number boxes of the source rows that you wish to cut.
AccuSwitch Configuration File Overview 4. Select the row number box above where you want to paste. 5. Press the Insert key once for each source row that was copied. 6. Paste the rows using the paste option from the Edit menu. Note If you use this procedure without inserting blank rows, the existing rows will be overwritten. Find / Fill / Increment The Find, Fill, and Increment options assist with searches, pasting repetitive information, and automatically incrementing numbers.
Section 5 — The Configurator Application Follow these steps to copy/paste repetitive material: 1. Select the row number box above where you want to paste. 2. Press the Insert key once for each source row that you want to add. Figure 85. The Selected and Added Rows 3. Select the appropriate Fill command from the Edit menu. • Edit > Fill Right to fill information to the cells to the right. • Edit > Fill Down to fill information to the cells below.
AccuSwitch Configuration File Overview Figure 86. The Increment Down Command 4. Select the appropriate Fill command from the Edit menu. • Edit > Fill Right to fill information to the cells to the right. • Edit > Fill Down to fill information to the cells below. Copying and Pasting a Block Note Before changing an existing Jupiter table, be sure to read the Caution paragraph directly under Reordering Jupiter Tables on page 121. Blocks can be copied and pasted using the copy and paste command.
Section 5 — The Configurator Application Figure 87. Using the Copy Command 2. Use the copy command under the Edit menu (Edit> Copy). 3. Select the destination area. In this case, the paste command will overwrite the existing text. 4. Use the paste command under the Edit menu (Edit> Paste). Figure 88. Using the Paste Command The blocks will then be pasted.
AccuSwitch Configuration File Overview Copy and Paste Rows between the Windows Clipboard and Jupiter Note Before copying from a Windows program to Jupiter, be sure to read the Caution paragraph directly under Reordering Jupiter Tables on page 121. You can use the Cut, Copy, and Paste commands to exchange information between Jupiter and other Windows programs such as Microsoft Word and Microsoft Excel.
Section 5 — The Configurator Application Figure 89. Pasting the Tab-Delaminated Text Jupiter Naming Rules When creating a name for a Jupiter set, table, control panel, or other device, the following rules should be observed: • Names should have eight character maximum. • Names must be unique.
Configuration Set Management Configuration Set Management The top of the Configurator menu (Figure 90) shows the name of the selected set. This is the system configuration directory that is currently selected for editing. After a set is edited, it should be saved and then compiled. If the set is successfully compiled, the set name will appear on the Jupiter Network Suite Control Center “Application” menu; the set can then be selected for download, during which a copy is sent to the system hardware.
Section 5 — The Configurator Application By numbering the sets, there will never be any doubt about which is the latest version. Also, it will be easy to return to known good sets. This suggestion is detailed in the steps below. Figure 90. Configuration Set Editing and Downloading.
Configuration Set Management The NUMERIC sets are factory-supplied sets provided for quick start and diagnostic purposes. For more information, see Using the Numeric Sets for Quick Switcher Checkout on page 132. The list may also contain a test set used at the factory. Figure 91. Selecting Edit Set Menu 2. Select the desired set name and then click the OK button. The set will then load. 3. Select the Save As option under the File menu (File > Save As). 4.
Section 5 — The Configurator Application Not all tables will apply to every system. For example, some are for machine control, others are for backward compatibility with Philips/BTS Party Line equipment, etc. Please refer to the description of each table for more information. Using the Numeric Sets for Quick Switcher Checkout The factory-supplied numeric configuration sets can be used to set up and operate the routing switcher in the minimum possible time.
Configuration Set Management Figure 92. Jupiter File and Subset Types c:\Program Files\Thomson\JUPITER\Config Password Table Configuration set “CONFIG01” Configuration set “CONFIG02” ——Network Description ——Serial Protocol ——Switcher Description ——Switcher Input ——Switcher Output ——Switcher Description ——Switcher Input ——Switcher Output ——CP Level Sets ——“KXYZ−LEV” —— ——CP Input Sets ——“KXYZ−INP” —— ——CP Output Sets ——“KXYZ−OUT” ——“MC−OUT” ——“SHOP” ——“DELAY−OUT” ——etc.
Section 5 — The Configurator Application 2. Select the Compile option from the Tools menu (Tools> Compile). When the compiler is finished, the number of compiler errors (if any) will be reported. If a compiler error is reported, the error must be corrected and the set recompiled. Click the Print command box to print the error messages. A new set must compile without errors and be explicitly selected for downloading by the Control Center software before it can go online.
Configuration Set Management After a few seconds, the LEDs on the controller boards will turn red momentarily and the message “Device not connected” or “Startup” will appear on the system control panels. When the download is complete, the LEDs should be green and the panels returned to their previous status display. A complete set change can take several seconds or multiple minutes. The Download status can also be determined using the Control Center’s Board Status tab. Figure 94.
Section 5 — The Configurator Application Note A reboot will occur when the operator executes any operation from the Control Center that will cause a reboot or a “Pmem Clear” to be sent to the processor, or by manually rebooting, or clearing Pmem on the processor from the shell prompt, or by pressing the Reset button. The purpose of the Pending Reboot procedure is to provide the operator better control of system downtime.
Configuration Set Management Figure 96. The Jupiter Control Center With the CM-4400, choosing the Select and Reboot radio button will not cause the CM-4400to reboot. Reboot of the processor should be accomplished through the use of the Reboot button on the Board Info/Control menu, as described below. In order to download new application code, you must select a configuration set for Activation even if it has the same name as the set that is shown as Current.
Section 5 — The Configurator Application Figure 97. The Jupiter Control Center- Configuration Pending Reboot Copy of Application (executable code) Reboot Reboot Operating set Executing Application “CONFIGURATION PENDING REBOOT” is indicated when these two sets do not match 071826105_CONFIGURATION PENDING REBOOT Downloaded Set CM 4000 Likewise, the system will compare the application code that was downloaded with the application code that is currently in operation.
Configuration Set Management 5. Once the Configuration or Code is successfully downloaded, which will be indicated by a green cell and the phrase Pending Reboot, you can, at a convenient time, select the processors either individually or by clicking the Select All button and then click the Reboot button to reboot the processor (The Clear PMEM button may be used to reboot the processor). The result is shown in Figure 99. Figure 99.
Section 5 — The Configurator Application Once the download is complete, the Mismatch indicator will change to Pending Reboot. If the Mismatch indicator appears (and remains on), and a file transfer is not in progress, it is suggested that steps be taken to reboot the controller. Figure 100.
Troubleshooting Troubleshooting Error Conditions • The text “00,” “01,” or “FF” will remain on the front panel LED display. The Red Alarm light on controller board remains ON. The meaning of the various possible LED on/off combinations is shown in Troubleshooting on page 239. • The “Device not connected” message fails to appear or clear. There may be a download fault in the CM 4400 serial control section. It may be possible to correct this by resetting the board manually.
Section 5 — The Configurator Application Printing Printer installation was discussed in Printers on page 72. If you want to print a single table, bring the table’s window to the top of the desktop. Then select the “Print” command button on the bottom of the window. Note Printing an entire set is not supported.
Passwords Passwords Note You may wish to skip the Password table when you first configure the system. If password levels are needed they can be added later. The Jupiter passwords are arranged in a hierarchy, with the 99-level password being the equivalent of a supervisor password. There must be at least one 99-level password in the system at all times. Entry of a 99-level password on the main menu will allow any system operation, including starting the Jupiter software and creating or changing passwords.
Section 5 — The Configurator Application Figure 102. Jupiter Password System 99 90 80 50 Bill’s control panel 071826105_Raising the level of a panel Boss Bill Dave’s control panel LOBBY Furthermore, the level of a panel can be raised just long enough to make one switch (or until someone logs out of the panel). When the level of a panel is raised only temporarily, then re-entry of a password will be required for special commands such as protect* and lock,* and for front-panel definition of overrides.
Passwords Figure 104. Locking an Output 99 80 70 60 50 Bill’s control panel Operator Dave Dave’s control panel 071826105_Locking an Output Boss Bill LOCK VTR1 Systems are shipped with a password level of 00 for all panels and outputs; therefore any password can initially be used to access all control panel functions. There is only one table for passwords and this table is used no matter what configuration set is active or selected for editing.
Section 5 — The Configurator Application Figure 105. Jupiter Configurator’s Jupiter Menu 2. Select the Password option (or press the p key on the keyboard). This selection will display the password table: Figure 106. Jupiter Configurator’s Jupiter Menu 3. Select the password you want to change. Guidelines for using the editor are found in the Entering or Editing Information in a Jupiter Table section on page 119. 4. Type in the revised password. The password must consist of six numbers. 5.
Passwords In this example, pressing Enter at this point will create a row for another password. (If left blank, the new row will be deleted automatically when the table is saved.) 6. Click the OK button when editing is complete. To save the changes, select File > Save. Setting Password Levels for Control Panels In addition to an individual Jupiter password that is assigned to each user, individual control panels can be given a password level.
Section 5 — The Configurator Application Before you begin: • In most cases, you will want to modify the set that is currently active; Grass Valley recommends that you copy the active set and then select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 130. • Check to see that the Configuration set you selected is the set that you want to change. The name of the Configuration set will be in the Title bar at the top of the Jupiter Configurator window.
Network Description Table Network Description Table The Network Description table must be used when the CM-4400 is first installed on the LAN. Figure 107. Example of the Network Description of the Jupiter Configurator Each board is given a user-specified name; this name can be up to eight characters in length. The system is told which type it is, and the Ethernet address, in hexadecimal, as shown on the back of the controller chassis. If the board is redundant, the address of the second unit is entered.
Section 5 — The Configurator Application Entering Descriptions of Controller Boards Before you begin: • In most cases, you will want to modify the set that is currently active; Grass Valley recommends that you copy the active set and then select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 130. • Check to see that the Configuration set you selected is the set that you want to change.
Network Description Table 6. Enter the address of the second unit if the board is redundant. • Even though they have the same name, the two boards will have different addresses on this table. • See Installing Redundant CM-4400 Control Modules on page 50. 7. Select Save from the File menu (File> Save) to save the table. 8. Click the Ok button to close the table. Note To delete a board, click on the row number box and press DELETE. Select the next table for editing.
Section 5 — The Configurator Application Serial Protocol Table The Serial Protocol table must be used when a CM-4400 System Controller is first connected to control panels and other serial control devices. This includes remote (third party) switchers. This table is also used when a Saturn video processor serves as a connection point for an MPK bus, and/ or when a PC acts as a Software Control Panel.
Serial Protocol Table Note On the top of the Jupiter Configurator window on the title bar, you will see the name of the Configuration set. Check to see whether the configuration set that you want to change is selected. Follow these steps to enter or modify the Serial Protocol table: 1. Select the Serial Protocol option from the Jupiter menu (Jupiter > Serial Protocol). This will open a table similar to that shown in Figure 109.
Section 5 — The Configurator Application Additional Protocol Notes ASC (ASCII) refers to switcher control using Jupiter ASCII protocol commands originating from an external computer (For example, an automation system). When used with Diamond production switchers, the baud rate must match the hardware setting on the DD production switcher XBAR port (normally 38400). A technical description of the Jupiter ASCII computer interface protocol is presented in Jupiter ASCII Communications Protocol on page 273.
Serial Protocol Table Figure 110. Example of the MPK Entry in the Serial Protocol Table Connecting L-S or LCD Series Control Panels When L-S or LCD Panels are connected to a CM-4000 serial port (and operated in Serial mode), the CM-4000 serial port must be configured for “ESCP” protocol using the Serial Protocol table. The Baud rate should be set at 115K. Use the CPES-SER type for panels to use up to 98 categories.
Section 5 — The Configurator Application Switcher Description Table The Switcher Description table must be used when the CM-4400 is first connected to a distribution switcher. Note Some of the functions described in this section may be extra-cost options. Contact your Grass Valley Representative for more information. Each logical level number of the switcher is given a user-specified name that can be up to eight characters in length, and the system is provided with detailed information about each level.
Switcher Description Table 2. Enter a name for both the Switcher and Level. Row numbers on Jupiter tables are used as the “logical” numbers for levels (Figure 111). Changing the row number of a level (by inserting/ deleting a new level in the middle of the table, for example) will disrupt control of the system, requiring controller boards to be memory-cleared and reset. One way to avoid this interruption is to add new levels at the end of tables.
Section 5 — The Configurator Application video since audio switches outside of vertical interval are not as noticeable. This method of enforcing vertical interval switching applies only to Grass Valley switchers operating on the Crosspoint Bus port of the CM. For “remote serial control” applications, including Triton, VI should be unchecked on all levels. 4. Leave the RV (Reverse switching) check box unchecked. This item applies only to certain data switchers. For video, audio, and time code switchers.
Switcher Description Table in the field. Refer to the following list and the hardware manual supplied with the switcher for more information. A physical level number can range from 1 to 999; however, the maximum number of logical levels is still 96. This number may be reduced according to the number of outputs being controlled. a. Trinix digital video routers are usually factory set to operate as physical level 7. b.
Section 5 — The Configurator Application e. Triton switchers, when controlled by Jupiter, use a level scheme different than that described in the Triton manual. In Jupiter applications, split switching requires each level to be assigned a different number. 9. Enter the name of switcher and the logical level that this level is to follow permanently in the Follow Level’s field. For video/audio switchers these boxes are usually left blank, thus allowing for split (breakaway) switching.
Switcher Description Table 11. Select the audio level from the drop-down list in the Audio column, for Venus and Apex switchers, select “Left” for the left audio level, “Right” for the right. Select the “Normal” option for other switchers. • For Triton switchers, select an “A” for each audio chassis. Triton data switchers with rear−panel DIP switch 7 DOWN (“controlled as audio”) also require an “A” entry.
Section 5 — The Configurator Application Switcher Input Table The Switcher Input table must be used to assign a logical name to each physical input. One table must be defined for each switcher if there is more than one switcher in the system. Logical names for various inputs are “BARS,” “TONE,” and “VT01.” Each name, which can be up to eight characters long, corresponds to a switcher’s physical input number for each level of the switcher.
Switcher Input Table Figure 112. Example of the Switcher Input Table Split Switching Split (or breakaway) switching is the selection of one input on one level and another input on another level. An example would be the selection of color bars on the video level and test tone on the audio levels. Split switches can be manual, where the operator addresses individual levels and makes each switch separately; or, automatic, where a single category / entry number will cause the split to occur.
Section 5 — The Configurator Application 2. A more flexible approach is to modify the Switcher Input table so that a single input name will address different physical inputs from one level to another. For example, the switcher could be wired as shown in Figure 114, where black burst is input 64 on the video level, test tone is input 0 on the audio levels, and a time code generator is input 0 on the time code level.
Switcher Input Table 4. Add new inputs at the end of the tables. Row numbers on Jupiter tables are used as the logical numbers for sources. Changing the row number of an existing source (by inserting/ deleting a new input in the middle of the table, for example) will disrupt control of the system. The memory on the controller boards will need to be cleared and reset (see Clearing Persistent Memory (PMEM) on page 106). Adding new inputs at the end of tables will help to avoid this interruption. 5.
Section 5 — The Configurator Application Figure 116. Output Switcher Table for DM400B Logical Output Security Name 1 EDIT1 S−T Pass word VIDEO − 2 000 LEFT RIGHT TC DATA 000 000 000 000 − 826105_Switcher-Output for DM4 Switcher Output − MAINROUT Controller / Tributary Reassignment Some VTRs can themselves act as controllers or tributaries.
Switcher Input Table Figure 118. Controller-Tributary Reassignment- Reversed Tributary pinout VTR 1 selected as switcher INPUT Port 01 071826105_Controller-Tributary Reassignment-Reversed Controller pinout DM 400B Data Matrix Controller pinout VTR 2 selected as switcher OUTPUT Port 02 Tributary pinout Examples of Switcher Input and Switcher Output tables for this reassignment application are shown in Figure 119. Figure 119.
Section 5 — The Configurator Application Switcher Output Table The Switcher Output table (Figure 120) performs similar functions as the Switcher Input Table except that it applies to outputs. Figure 120. Example of the Switcher Output Table The Switcher Output table is used to give each physical output a logical name in the Logical Output Name column. These names can be up to eight characters in length. One table must be defined for each switcher in the system.
Switcher Output Table Entering or Editing Output Names and Numbers In most cases, you will want to modify the set that is currently active; if so, you may want to copy the active set and select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 130. Note On the top of the Jupiter Configurator window on the title bar, you will see the name of the Configuration set. Check to see whether the configuration set that you want to change is selected.
Section 5 — The Configurator Application Note Output passwords are not honored by automation protocol handling. In most cases, you will want to modify the set that is currently active; if so, you may want to copy the active set and select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 130. On the top of the Jupiter Configurator window on the title bar, you will see the name of the Configuration set.
The Control Panel Set Dialog The Control Panel Set Dialog The Control Panel Set dialog is where the inputs, outputs, levels, sequences and overrides for the control panels in the system are defined. This dialog is dynamic and will change according to the sets that are selected. Once a set has been created, selecting the type of set will open that sets table. This table is where the configuration information is stored.
Section 5 — The Configurator Application 2. Select the appropriate radio button in the Type of Set area of the dialog. The names of any previously created set will then appear in the sets: window. • The Category Set drop-down list will only be seen if the Input and Output radio button is selected. The buttons will be grayed out. 3. Enter an eight character name for the Input set in the Name field. 4. Select the “CPESXTND” CP Type option from the drop-down list. 5.
The Control Panel Level Set The Control Panel Level Set The CP Level Set table is used to assign levels to control panels. In most cases, control panels are allowed to control all levels, but creating multiple CP Level Sets allows restricting control to certain levels. Level Sets are assigned to individual control panels on the MPK Devices table. For steps activating the Control Panel Set dialog, see Creating a CP Set on page 171. Follow these steps to create a Level set: 1.
Section 5 — The Configurator Application Entering the Level Information Follow these steps to enter the information in the CP Level Set table: 1. Enter a name or an ID in the Mnemonic column. The information in the Mnemonic column of this table is the source for the ID of each level that will appear on control panels during input selection. 2. Select the preferred option from the Level drop-down list.
The Control Panel Input Set The Control Panel Input Set The Control Panel (CP) Input Set tables are used to link particular category / entry numbers, and mnemonics, to switcher input names. Categories are classes of inputs/outputs. The factory default category sets can be used; or, custom category sets can be created. Example: “TEST” as the category for all test signals. The category is always followed by: • An entry number, which defines the unit within the category.
Section 5 — The Configurator Application 3. Select the “CPESXTND” option from the drop-down list. 4. Select a Category set from the drop-down list or use the “default” option. 5. Click the Apply button (Figure 124). The name of the new output will then appear in the Output Sets: window. 6. Select the Input set in the Input Sets window. 7. Click the Open Table button. The Input Set table will then open (Figure 125). Figure 125.
The Control Panel Input Set 5. Enter an input in the Logical Input column. This input will be associated with the chosen category, entry number and mnemonic. 6. Save the changes by selecting Save from the File menu (File > Save). 7. Click the OK button to save the table. Copying a CP Input or Output Set for Use with a Different Panel Type After you have created a CP Input or Output Set for one panel type, you may want to copy it for use with a different panel.
Section 5 — The Configurator Application Figure 126. The Control Panel Set Dialog-Create Input Set 8. Save the changes by selecting the Save option from the File menu (File > Save). 9. Click the OK button to save the table.
The Control Panel Output Set The Control Panel Output Set The Control Panel (CP) Output sets are assigned to the specific control panels, which are defined on The MPK Devices Table on page 191. Do NOT give an Output Set the same name as an output. Using an extension such as “OUT” is recommended to help avoid potential conflicts.
Section 5 — The Configurator Application Follow these steps to create a CP Output set: 1. Select the Output radio button in the upper-center of the Type of Set area of the dialog. The names of any previously created Level set will then appear in the Level Sets: window. 2. Enter an eight character name for the Output set in the Name field. 3. Select the “CPESXTND” option from the CP Type drop-down list. 4. Select a Category set from the Category Set drop-down list or use the “default” option. 5.
The Control Panel Output Set 7. Click the OK button to save the table. Optional Entries 1. Select a Level set from the Level Set drop-down list. This set is used for assigning a CP Level Set to individual outputs (multiple switcher installations). The Level Set column is used when there are multiple switchers in the system and you want the control panels to control and status more than one switcher. 2. Enter a number in the Button column.
Section 5 — The Configurator Application The Control Panel Override Set The override function, which allows single−keystroke selection of a source, is used for a quick or emergency switch to an often−used input. For example, the black burst generator could be defined as the first “override” source for the system, corresponding to the first soft key position on a control panel. When in a hurry to find black burst, the operator can then press BLK, TAKE (instead of, for instance, TEST, 1, TAKE).
The Control Panel Override Set 4. Click the Apply button. The name of the new output set will then appear in the Override Sets: window. 5. Select the new Override table and then click the Open Table button. The Override Set table will then open. Figure 130. The Override Set Table CP Override Set — KXYZ−OVE Override Logical Input BLK BLK 2 BARS BARS 3 TONE TONE 4 SLNC SLNC 5 Usr1 BLK 6 Usr2 BLK Edit Levels YYYY ... YYYY ... YYYY ... YYYY ... YYYY ... YYYY ...
Section 5 — The Configurator Application The Control Panel Sequence Set A sequence is a switch of one or more sources to one or more destinations. AccuSwitch is limited to 25 sequences if legacy boards are defined (For example, VM, SI, SB, and Saturn) or 100 sequences if only AccuSwitch boards are defined. Sequences are stored as sequence sets; these sets can be made available to some or all control panels. Sequences can include outputs not otherwise available to a panel.
The Control Panel Sequence Set Figure 131. Control Panel Sets - New Sequence 5. Click the Open Table button to open the sequence. The Sequence Set table will then appear (Figure 132). Figure 132. The Sequence Set Table Logical Output Levels 1 SEQ1 VT01 PRDA YYYY ... 2 SEQ1 VC01 PRDB YYYY ... 3 SEQ1 VC02 PRDC YYYY ... 4 SEQ2 CAM1 MON1 YNNN ...
Section 5 — The Configurator Application The Control Panel Category Set The CP Category Set table allows the category names to be customized. (Categories are classes of inputs/outputs, such as “CAM.”) This table is the source of the name that appears in the display window when a category key is pressed. A CP Category Set is normally assigned to a CP Input Set and to a CP Output Set when those sets are first created. However, this assignment can be changed later if preferred.
The Control Panel Category Set Changing the Category Set Associated with an Input or Output Set A custom Category Set can be created at any time. The following procedure is used to assign a new Category Set to an existing CP Input Set or CP Output Set. 1. Select the Input or Output radio button in the Type of Set area of the dialog. The names of any previously created inputs or outputs will then appear in the Categories Sets: window. 2. Select the name of the existing set of interest. 3.
Section 5 — The Configurator Application CPESXTND Sets The following examples show the CPESXTND Category Sets, which can be configured using the Control Panel Sets dialog (see Figure 136, Figure 137, Figure 138, and Figure 139). CPESXTND CP Type Figure 136. “CPESXTND” Category Type CPESXTND Output CP Type Figure 137.
The Control Panel Category Set CPESXTND Input Set Figure 138. CPESXTND Input Set CPESXTND Output Set Figure 139. CPESXTND Output Set Category Selection and Error A Device Type can be selected in the MPK Devices Table by selecting the Device Type field and then selecting the desired option from the dropdown list. The example shown in Figure 140 on page 190 shows the CPESXTND Device type being selected.
Section 5 — The Configurator Application Figure 140. “CPESXTND” Selection CPESXTND device types use control panel input and output sets of type “CPESXTND.
The MPK Devices Table The MPK Devices Table Note MPK Devices are not supported by the AccuSwitch application. However, the MPK Devices table is used for various configurations. For example, passwords, and device type settings. The MPK Devices table is used when a PC is used as a Software Control Panel. Password levels are also configured using this table. The MPK table is used to configure the L-S and LCD panels using the CPES-SER type, which is required for the 98 categories features.
Section 5 — The Configurator Application Board column: The name of CM-4400 connected to the control Panel. The source of this name is the Jupiter Network Description table. Port column: The port number that is configured for ESCP to which the panel is connected. ESCP is defined in the Serial Protocol Table. Address column: The panel address from 1 to 16 for ESCP (serial panels) and 1 to 64 for LAN panels. This address must be unique for panels sharing the same CM-4400 serial port.
The MPK Devices Table 3. Save your changes and then validate, compile, and activate the configuration set. Zero-Downtime Feature Changes can be made in the AccuSwitch controller board’s MPK Devices Table including, editing as well as inserting or deleting rows at the bottom of the table. These changes can then be downloaded without having to reboot the CM-4400 controller boards which imply “Zero-Downtime.” Row numbers on Jupiter tables are used as the “logical” numbers for devices.
Section 5 — The Configurator Application The Sequential Path Finding Table The path finding software option allows two or more routing switchers to operate as a system, where one of the switchers can access the other’s inputs through a number of tie lines. Figure 142.
The Sequential Path Finding Table Figure 143. Example of Sequential Path Finding Connections VT22 VT21 17 18 19 20 21 22 23 24 25 6 7 8 Distribution switcher “NEWSROUT” 9 10 11 In this example, this group of tie lines is named “VNEWMAIN” (video, NEWSROUT to MAINROUT). Other naming schemes could use “GROUP1,” or, more elaborate names like “V5N10M43,” meaning “Video, 5 News lines starting at output 10 to Main router starting at input 43,” etc.
Section 5 — The Configurator Application Following hardware installation, path finding requires entries to the Path Finding Data table and selection of Group Names numbers on the Switcher Input tables (Figure 142 on page 194). If the tie lines are wired non-sequentially, please refer also to The NonSequential Path Finding Table on page 200. Path Finding For Three or More Switchers It is possible to connect three switchers for path finding purposes. The recommended maximum is five switchers.
The Sequential Path Finding Table Note AccuSwitch only supports path finding between routers that are controlled by AccuSwitch. Table Entries For the example shown in Figure 144, there would be four descriptions of the tie lines in the corresponding Path Finding Data table: • from “A” to “B” • from “B” to “A” • from “B” to “C” • from “C” to “B.” The Switcher Input tables would also have Group entries for all three switchers.
Section 5 — The Configurator Application Path Finding Between Analog and Digital Equipment Automatically Converting Separate Analog Signals to Combined Digital Signals The Path Finding table can be used with customer-supplied Analog to Digital Converters (ADCs) and Digital to Analog Converters (DACs) to provide automatic conversion between analog equipment and digital equipment (such as VTRs). See Figure 145. Figure 145.
Path Finding Between Analog and Digital Equipment Figure 146.
Section 5 — The Configurator Application The Non-Sequential Path Finding Table The Non-Sequential Path Finding table must be used if the tie lines joining the switchers are not wired sequentially, that is, not wired as blocks. Basically, the table is designed to enter “exceptions” to the Sequential table.
The Non-Sequential Path Finding Table Figure 148.
Section 5 — The Configurator Application Figure 149.
Exclusion Exclusion The Exclusion table can be used to prevent a particular input from being switched to a given output. Note No exclusions are allowed on data levels. Exclusion Logical Input Logical Output 1 MULTBRST XMIT 2 SINESQ XMIT 6600_Exclusion-Data-Table Figure 150. The Exclusion Table Configuring an Exclusion Follow these steps to configure the Exclusion table: 1. Select the input that cannot be switched from the Logical Input dropdown list. 2.
Section 5 — The Configurator Application The Time Standard Table The Time Standard table is used to identify one or more backup time sources for use if the time code source fails. Each CM-4400 in the system must be described (only one entry is required for a redundant pair). See Time Standard Table Description on page 205. Changes made to the Time Standard table do not take effect until you reboot the CM. Setting the Time Code Information Time code is used for short-term, frame-accurate switching.
The Time Standard Table The system will synchronize with a designated Network Time Protocol (NTP) server if the Time Code Reader (TCR) host does not respond. If there is an error with the house time code, all of the CM-4400s could stay synchronized with a designated time server. The Time server may be synchronized to an accurate national standard. Finally, if the first two hosts do not respond, a CM-4400 could be selected as the master and all CM-4400s synchronized to it.
Section 5 — The Configurator Application address of the host CM-4400 (the IP address can be determined using the JNS Board Status menu). RTC Host / Address: Create the host name and enter the IP address if a Real Time Clock host computer will be used to supply time information. Time Zone Name: Create a description of the local time zone. The field will accept any text that is a maximum of eight characters.
Video Reference Table Video Reference Table The Video Reference table is used only for configuring a CM-4000, or 4400, System Controller that is running the AccuSwitch software. Figure 152. Video Reference Table Follow these steps to configure the Video Reference table: 1. Choose the preferred video standard from the Sync Standard dropdown list. • Choices are: NTSC, PAL, 1080i 60Hz, 1080i 50Hz, and 1080i 59.94Hz. 2. Select the switch point in the video frame from the Horizontal dropdown list.
Section 5 — The Configurator Application Point-to-Point Switching Point-to-point switching insures that a source can be switched to only one destination at a time. Jupiter AccuSwitch supports the following router options support pointto-point switching: • Advise • Enforce A safe input must be configured for point-to-point switching to occur. The SAFE input A SAFE input must be defined before a destination can be cleared.
Point-to-Point Switching In the example above (Figure 154), VCR 1 is the only destination that is receiving data from the editor. The transmit data from an editor can only be switched to one VCR at a time. Point-to-Point Switching Router Options The router options are explained below: Enforce: When the Enforce option is selected or turned on, the software will automatically switch the previous destination to the SAFE input. The control device would then be switched to a new destination.
Section 5 — The Configurator Application Remote System Routing WAN operation of multiple Jupiter systems or Remote System routing has been supported since the 7.4.1 release of Jupiter. Remote System routing allows multiple Jupiter networks, with multiple routers, to be controlled bi−directionally. See Figure 155 below. Figure 155. Remote System Routing Example Contol panel (or PC) running ES−LAN (JEP−100 shown) Matrix router “SYS1” 004053011C21 − 192.168.253.
Remote System Routing Remote System Routing Characteristics Remote System routing has several notable characteristics: • Each Jupiter system can include one or more matrix routers. • Each Jupiter system must include a Jupiter file server. • Any control panel can control any matrix router. • The status of all of the matrix routers can be shown on all control panels. • Each Jupiter system must include at least one AccuSwitch CM−4000. • AccuSwitch does not support MPK control panels.
Section 5 — The Configurator Application AccuSwitch Software Configuration Each system must be configured to recognize the other systems. The following instructions assume you are familiar with standard Jupiter configuration rules.
Remote System Routing Follow these steps to modify the Network Description table for System 1 (SYS1): 1. Enter a name for System 1’s CM-4000 in the Board Name field. SYS1 is used in the example above. 2. Select the AS option from the Type drop-down list. 3. Enter the CM-4000’s hardware address in the Address column. Follow these steps to enter the System 2 (SYS2) information on the Network Description table for System 1: 1. Enter a name for System 2’s CM-4000 in the Board Name field.
Section 5 — The Configurator Application 7. Enter the IP address for SYS1’s CM-4000 instead of the hardware address in the Address field. Switcher Description Tables The Switcher Description tables must describe all the available routers, with the CP Level Set tables used as mapping devices between the systems. In the example shown here, both matrix router SYS1 and matrix router SYS2 have a video level assigned in hardware as physical level 1 and audio levels as 2 (Left) and 6 (Right).
Remote System Routing While the physical level (PLvL) for the SYS2’s LEFT setting is actually “1"; the number ”1” cannot be entered in the PLvL field because it is already being used in row 1. Instead, a modulo “100” offset is used. For Left, the entry is 101 (Figure 160). For Example, when the Left level setting “101” is divided by 100 the remainder is the index number “1.” This Index ”1” points to the second row of System 2’s CP Level Set (Figure 164 on page 217).
Section 5 — The Configurator Application Figure 162.
Remote System Routing CP Level Set Tables The CP Level sets that are assigned to the WAN CM (on the MPK Devices Tables, which is explained on page 218) must be created as type CP−3000." Figure 163 shows the CP Level Set for SYS1 (System 1). CP Level Set — KXYZ−LVL Mnemonic Level 1 VIDEO VIDEO(SYS1) 2 LEFT LEFT(SYS1) 3 RIGHT RIGHT(SYS1) Break Switch 4 071827512_CP Level Set_System 1 Figure 163.
Section 5 — The Configurator Application MPK Devices Tables Although the CM is not an MPK device as such, the MPK table is used to assign the CM with an Address that can be used by a remote system. Follow these steps to add the Remote Routing information: 1. Enter a name for the SYS1 CM in the MPK Devices field. The name entered for the CM is arbitrary; however, the name should identify the local system. 2. Select the ES−RMTR option from the drop-down list in the Device Type field. 3.
Remote System Routing Figure 166. Example of the MPK table on the System 2 Server MPK Devices MPK Devices Device Type Expansion Pass word Board 1 S2 ES−RMTR SYS2 2 CP1 CP−3000 SYS2 Port 1 Address Input Sets In Panel Output Sets Out Panel Level Set 66 KXYZ−INP KXYZ−OUT KXYZ−LEV 00000014 KXYZ−INP KXYZ−OUT KXYZ−LEV Overide Set Sequence Set The Switcher Input Tables - SYS1 Server The Switcher Input tables are used to assign a logical name to each switcher input.
Section 5 — The Configurator Application Figure 170 also shows the begin point of an example switching sequence. It may be helpful to study this example sequence to see how a control panel command reaches the desired router. Figure 169.
Remote System Routing Entries on the Switcher SYS2 Input table on System 2 server are physical input numbers. Only local input names are entered. Figure 172.
Section 5 — The Configurator Application Switcher Output − SYS1 Logical Output Security Name S−T Pass word VIDEO LEFT RIGHT 1 1QCMON − 000 000 000 2 1VT1 − 001 001 001 3 1VT2 − 002 002 002 4 1VT3 − 003 003 003 71827512_SYS1 Switcher Output Table_SYS1 Figure 175. Example of the SYS1 Switcher Output Table on the System 1 Server Entries on the SYS1 Switcher Output table are physical output numbers. Only local outputs are entered on this table.
Remote System Routing Switcher Output Tables - SYS2 Server Entries on the SYS1 Switcher Output table are index numbers (not physical input numbers). Only remote outputs are entered on this table. Figure 179.
Section 5 — The Configurator Application Path finding Path finding is supported for WAN applications. However, when configuring the Path finding tables, the entries in the Physical Output and Physical Input columns are not the actual physical input and output numbers (i.e., they are not the physical" numbers shown in the Switcher Input and Output tables).
Section 6 Jupiter Board Status The Board Status application displays the current status and information for each CM-4400 (board) as they appear in the Network Description table. It can be used to ensure that all system controllers are using compatible software, user-created configuration sets, and that enough free memory is available for the system to operate properly. Most of this information also appears in the Jupiter Control Center on page 229. Figure 183.
Section 6 — Jupiter Board Status Help About: This menu option displays the application's About box with version information. Table Description Each column in the Board Status table is explained below. The Board Status table can only show Control Modules (CM) information, PC information is not an option. Figure 184. Board Status Application First column: This unnamed column lists the board names in the order that they appear in the Network Description table.
The "...MemAvail" fields show how much memory each board has for application, heap, configuration, and PMEM. AccuSwitch does not use these columns. Version column: This column shows what version of application code each CM-4400 (board) is running. This column should indicate the same version for all boards in the system. If a different application code version is displayed, a fresh download to all boards should be performed. Refresh button: Click the Refresh button to refresh the display.
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Section 7 Jupiter Control Center The Control Center application displays board status and information, TFTP status, displays configuration options which you can select and activate. It is accessed by clicking the JNS Application button at the top of the JNS Control Console application and then clicking the Control Center button in the JNS Applications group. Figure 185.
Section 7 — Jupiter Control Center Options Menu Scan Rate: Select the correct scan rate for your system for board up-time to be displayed correctly: • NTSC - Select this option if you use NTSC. • PAL - Select this option if you use PAL. Time Sync: This item does not apply to CM-4400 units (it is used by the VM 3000, which is described in a separate manual). Time Sync Help: Selecting this item will open a pop-up window that provides information about Time Sync, such as which Time reader has priority.
Figure 186. The Board Status Tab of the Control Center Application Board column: This column lists the board names in the order that they appear in the Network Description table (note that PC boards do not appear here). Status column: This column shows the board status. The fields will be green if the board is active. If boards are inactive, the phrase “Inactive” will appear in the field and the field will be red. If a board is currently downloading, the phrase “LOADING...
Section 7 — Jupiter Control Center Filename column: This column shows the name of the file that the board is downloading. In the example above, you can see some boards downloading their configuration files (.cfg), one board downloading code (.sys), and two boards have just finished downloading loader code (.ldr). Last Message column: This column shows the status of the transfer. On a busy system, you may occasionally see packet time-out counts.
Configuration column: This column indicates whether the board’s configuration set matches the active set on the file server. • If the sets match, “OK” will appear in the field and the field will be green. • If the sets don’t match, the field will be red and “MISMATCH” appears. This status will usually appear if you activate a new set without rebooting. If the board is downloading or inactive, the field is cyan and “?” appears.
Section 7 — Jupiter Control Center Clear Flash The Clear Flash button clears flash memory on the selected boards and reboots them. The boards will immediately begin downloading all configuration and code. Post Mortem The Post Mortem button starts the post-mortem debugger on the selected boards. Start Board Override The Start Board Override button is a troubleshooting tool.
Telnet The Telnet button opens telnet windows for the selected boards. For this command to work, you must have a “telnet.exe” application somewhere in your search path. The default TCP/IP Window’s installation will do this for you. Note that if you have selected several boards, the telnet windows may appear on top of each other. Simply move them to see the ones underneath. Update Board Info The Update Board Info button requests updated board information from the boards.
Section 7 — Jupiter Control Center 4. Click on the Activate button. The JNS message status dialog will then appear. This dialog will inform you that the set is being updated. Figure 192. The Set Activation Status Dialog The activated set will then appear in the Current Set field at the bottom left of the dialog (see Figure 193). Figure 193.
Figure 194. The Control Center Dialog 2. Click the Select and Reboot radio button in the On Activation section. 3. Select the Configuration set and then click the Activate button (Figure 194). Note In order to download new application code, you must select a configuration set for Activation even if it has the same name as the set shown as the Current Set. You will need to reboot the processor for the updated configuration file code update to be applied.
Section 7 — Jupiter Control Center Figure 195. Different Configuration Set The Configuration Set is Different Figure 196. Different Application Set The Application Code is Different Note 238 You may observe a Mismatch message in the Code column while the download is in progress (Figure 197). This message will appear because of the size of the application, you should wait until the Pending Reboot message appears in the Code column before continuing.
Figure 197. MISMATCH message The Select All Button 2. Select the processors by clicking the Select All button on the lower right side of the interface (Figure 197). It is recommended that you reboot all the processors at the same time when updating code or a configuration set. 3. Click the Reboot button or the Clear PMEM button on the top of the right side of the interface. The OK message will then appear in both the Configuration and Code columns.
Section 7 — Jupiter Control Center Figure 198.
Section 8 The Router Control Application The Router Control Center application provides the ability to do simple Takes in the currently active set using the control panel input, output, and level set that use the cp3800 type sets. The Router Control dialog is accessed by clicking the JNS Application button at the top of the JNS Control Console application and then clicking the Router Control button in the JNS Applications group. Figure 199.
Section 8 — The Router Control Application Figure 200. The Router Control Application Select an item from the drop-down list Select the preferred option The Status will then be displayed Follow these steps to display status for an output 1. Select an output from the Output Sets drop-down list. 2. Select the preferred output from the options listed under Outputs in the Preset area. The name of the selected output will then appear in the Status column.
Figure 201. The Router Control Application - Performing a Take Follow these steps to perform a Take: 1. Select one input, one output, or one or more levels in the SET Selection area. To deselect a level, click on it again. Click the Take button. 2. Select one input, one output, and one or more levels in the Preset area. 3. Click the Take button to complete the Take (Figure 201). The status display will then be updated.
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Section 9 Force Unlock The Force Unlock application allows you to unlock or unprotect any output that has been locked or protected from anywhere in the system. You access the application by clicking the JNS tools button and then clicking the Force Unlock button in the console. Table Description Figure 202. The Force Unlock Application Output: The Output column lists the names of any outputs that are locked or protected. Panel: The Panel column displays the panel that locked or protected the output.
Section 9 — Force Unlock File Exit: Closes the application. Help About: Displays the application’s about box with version information. Unlocking and Un-protecting Unlocking and Un-protecting an Output Follow these steps to unlock or unprotect an output: 1. Click anywhere in the Output or Panel columns. The entire row will be selected. (To deselect a line, simply click in the first two columns again.) 2. Click the Force Unlock button in the bottom center of the dialog. Figure 203.
Unlocking and Un-protecting Figure 204. The Force Unlock Application - Unlocking and Un-protecting an Individual Output Click on the cell Click the Force Unlock button The cell should be cleared. The line will not be deleted from the table until all levels on that output have been unlocked or unprotected.
Section 9 — Force Unlock 248 JUPITER CM-4400 Control Module Installation and Operating Manual
Section 10 Logger and Log Viewer The JNS Logger and Log Viewer applications are used to create, view, and print log files of Jupiter LAN activity. These log files can be useful for troubleshooting. The Log Viewer will display Jupiter LAN activity as it occurs and record errors detected by the Jupiter Network Suite. Connecting the CM-4400 to house time code is recommended to ensure the accuracy of the date/time stamp. For more information about time code, see The Time Standard Table on page 204.
Section 10 — Logger and Log Viewer Running the JNS Logger Follow these steps to run the JNS Logger: 1. Select the Logger button in the JNS Applications group (Figure 205 on page 249). (Start > Programs > Jupiter Network Suite > Logger.) The Logger dialog will then open (Figure 206).At first, the dialog will be clear. Figure 206. The Logger Dialog 2. Click the Options menu. The Logging Options dialog will then appear. The Logging Options dialog is used to select which events to log. Figure 207.
4. Enter the time frame for which you want to delete events that are older. In the example in Figure 207 on page 250, all events older than three days will be deleted. 5. Click the OK button to save the settings. Clicking the Cancel button will close the dialog without saving the changes. Running the JNS Log Viewer The JNS Log Viewer can display Jupiter LAN activity as it happens, even if the JNS Logger has not been started.
Section 10 — Logger and Log Viewer Figure 209. The LogViewer- Dynamic Displays- Menu Options The selected option will then appear (Figure 210). Figure 210. The LogViewer- Dynamic Displays Note To select Dynamic Displays after opening a log file, select Dynamic Data from the File menu (File > Dynamic Data) and then select the preferred Dynamic Displays. Static Displays Follow these steps to view Jupiter LAN activity that has been logged to a file 1.
2. Select the Open option to open the preferred log file. The Open Log Database dialog will appear (Figure 211 on page 253). This dialog is a standard Windows Open dialog. Log files are created in the logdata subdirectory of the directory where JNS was installed. That is: C:\Program Files\Thomson\Jupiter\ Jupiter Network Suite\logdata. Figure 211. The Open Dialog 3. Select the preferred log file and then click the Open button. The file will then appear in the LogViewer. 4.
Section 10 — Logger and Log Viewer 5. Sort displays by clicking on the column heading. Date/Time Filter Set the Date/Time Filter, (View> Date/Time Filter) to filter log data by date. This filter will be applied to the current Static Display, as well as any new Static Display that is created after setting the filter. Note For JNS Release 5.1.0 and later: The Date/Time Filter may not work properly when Windows Regional Settings other than “English (United States)” are being used.
Figure 214. The Export Dialog 2. Enter a name for the file in the File Name field. 3. Click the Save button. Adjusting Column Widths Sometimes, some of the fields in a Log Viewer grid may be truncated. Follow these steps to see all the data in the dialogs: 1. Select the View menu. 2. Select the Auto-adjust column widths option (Figure 215). Figure 215. The Auto-Adjust Column Widths Option The columns will then be automatically resized to fit the largest field in the column.
Section 10 — Logger and Log Viewer Options The All Events table may have an exceptionally large Description field. If you are using a low-resolution screen (for example, 800x600), you may be unable to make the window large enough to see the entire field. The following options may be used to see all of the data: 256 • You can cut and paste the field or fields into another application (like Notepad), where you can see the entire field.
Section 11 Troubleshooting CM-4400 Checklist Follow the checklist below and verify the correct settings or connections if the CM-4400 AccuSwitch system does not go on-line or switch properly. Control panels are connected to the proper ports with the correct protocols as defined in the appropriate tables: • Network Description: Tells the system what controller boards are present. • • Serial Protocol: Configures the serial ports on the rear of the controller.
Section 11 — Troubleshooting The Crosspoint bus cables are connected from the CM-4400 to the routing switchers. The LAN cables are properly connected. • All twisted pair 10baseT using RJ45 connectors for the CM-4400 are connected to the Jupiter network hub. Contact Grass Valley’s Technical support after following the above suggestions (see Contacting Grass Valley on page 4).
CB 3000 Crosspoint Buffer and Interface CB 3000 Crosspoint Buffer and Interface The window on the front of the chassis allows the fault indicators on the front of the CB-3000 card to be viewed. (See Figure 216) Figure 216. CB 3000 Front Panel Status Window DS13 DS14 DS15 DS16 DS17 DS18 DS19 OUT 1 OUT 2 OUT 3 OUT 4 OUT 5 OUT 6 OUT 7 S3 SELECT A DS12 S2 SELECT B OUT 0 S1 3 SWITCHES NOT ACCESSIBLE THROUGH FRONT PANEL 8766_32r0 FAILURE ALARMS G R E E N LE D S MEM.
Section 11 — Troubleshooting CM-4400 System Codes Error Codes The Jupiter AccuSwitch Error codes are listed below. The number, short message, and detailed description are shown. Index You can click a message range, of the number that is displayed, to see the table for that range.
CM-4400 System Codes Table 10. Messages 01 to 08 Message Number Short Message Detailed Description 06 Unconfirmed and unasserted takes on Xptbus. The CM-4400 attempted takes on the Cross-point Bus (XptBus) but the takes were unconfirmed and not asserted. This usually indicates an open connection to the router or that the cross points were not valid for the router. Check to make sure the XptBus cable is properly connected. If this does not fix the problem, double-check the router's configuration.
Section 11 — Troubleshooting Table 11. Messages 09 to 10 Message Number Short Message Detailed Description 0F SNTP client error %s for server %s The application could not synchronize its internal POSIX clock with the remote server using the Simple Network Time Protocol (SNTP). The time management software will attempt to perform synchronization periodically to maintain the long-term accuracy of its internal POSIX clock.
CM-4400 System Codes Table 13. Messages 19 to 20 Message Number Short Message Detailed Description 19 Maximum number of status observers exceeded, only %d can be attached. The system can only handle a limited number of observers and has reached maximum capacity. 1A Failed to notify switch requestor (named %s) of a status change. The status that should have been returned to the switch requestor could not be scheduled.
Section 11 — Troubleshooting Table 14. Messages 21 to 28 Message Number Short Message Detailed Description 25 Bootp failed: no response The system did not receive a response from the bootp server (JNS). This message is typically logged because the JNS control center is not running. A network problem is also possible. The system will continue to operate using the previous application software and configuration.
CM-4400 System Codes Table 16. Messages 31 to 38 Message Number Short Message Detailed Description 31 Scheduling configuration swap Because the system is a high-performance system a requested configuration change will be deferred till the system completes its high-priority tasks. This typically takes only a few seconds. 32 Checking CRC of %s This is an informational message indicating that the CRC of the specified file is being checked.
Section 11 — Troubleshooting Table 18. Messages 41 to 49 Message Number Short Message Detailed Description 41 Could not set option 0x%x on UDP port 0x%x errno = 0x%x There may be a problem with the LAN hardware or external LAN connections. This is typically a serious problem. Contact Grass Valley Technical support. 42 Send failed for UDP port 0x%x errno = 0x%x ip = 0x%x Unable to send a message to the UDP port at this IP address.
CM-4400 System Codes Table 19. Messages 49 to 50 Message Number Short Message Detailed Description 4D SerialTimeSync failed to set a serial processor time reference A synchronize time command is sent to each serial processor. If the processor fails to set its time, this event is logged. The processor may also fail to load protocols if the synchronize time command fails. This indicates that the processor control channel is not responding. 4E One or more serial protocols did not start correctly.
Section 11 — Troubleshooting Table 21. Messages 59 to 60 Message Number Short Message Detailed Description 59 Cannot swap to alternate configura- A swap was attempted on the configuration image but tion image \"%s\", it is not valid. the alternate image was not valid. The old image will continue to be used. This may give undesirable results. 5A Cannot get the Ethernet address for this board. The Ethernet address is needed to determine which configuration to load.
CM-4400 System Codes Table 22. Messages 61 to 68 Message Number Short Message Detailed Description 65 Serial Processor: Primary directory copied from the secondary directory. When the primary directory was checked it indicated a data corruption problem and was replaced by the secondary directory copy because its contents checked OK.
Section 11 — Troubleshooting Table 24. Messages 71 to 78 Message Number Short Message Detailed Description 71 Can't add host name for %s to the host table. A host name was specified with an IP address. An attempt was made to add the host name to the hostname table. This error shouldn't affect operations. 72 %d deferred events for %s:%02d reassigned for makeup. A timeline discontinuity has caused deferred events to be passed over for execution.
CM-4400 System Codes Table 25. Messages 79 to 7E Message Number Short Message Detailed Description 7D The number of configured levels are: %d, The MAXIMUM levels allowed per CM-Board is: %d. The configuration set is configured with more levels than this system can support. Contact Grass Valley Technical support. 7E Serial Router Queue full Physical Level %d. The serial router queue if full, switches being sent too fast for the serial remote router. Contact Grass Valley Technical support.
Section 11 — Troubleshooting Startup Codes Table 26. Startup Codes Code Description 00 Advance to next code in sequence 01 Starting up the system 0B Initializing the bootp client 0C Initializing the control center client 10 Initializing the time keeper 20 Initializing the router status 28 Initializing the switch processor 30 Initializing the router switcher 40 Releasing application tasks to run Shutdown Codes Table 27.
Section 12 Jupiter ASCII Communications Protocol Revision E - November 10, 2005 Hardware connections for an external computer are shown in Figure 38 on page 81. The set-up procedure in the Jupiter Control System File Server includes defining one or more ports as being ASCII in the Serial Protocol Table (See The Configurator Application on page 107). The control computer is identified on the MPK Devices table. You will need to define each port by selecting the Serial option from the Device Type column.
Section 12 — Jupiter ASCII Communications Protocol ASCII Commands The controlling computer must wait for a ZY or ZN response after each command before attempting to send a subsequent command. Failure to do so will result in a ZN response, and possibly an XOFF condition (see Table 29 on page 274 for more information about commands). If switcher status is received, wait for all levels to apply status before sending another command.
Table 31. Router Switcher Control and Status Commands Command ZSOOOIIILLLLLLL Meaning Switch Request Description This command causes the interface to issue a TAKE Switch Request to the routing switcher control system and affects a single routing switcher output. If no levels are specified, then ALL defined levels are assumed. Note Passwords are not honored by automation protocol handling. A remote computer can send a command with multiple Switch Requests (older releases do not have this capability).
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Appendix A CM-4400 Specifications Note Some functions indentified in this appendix are extra-cost options. Electrical CM-4400 CONTROL MODULE Front panel controls: • Activate • Reset • Video output: Up, Down, Next, Select Note The Video output is not an AccuSwitch feature.
Appendix A — CM-4400 Specifications Rear panel connections • 1, Video Out (VGA) (15-pin HD female) • 1, SMPTE Time Code In (XLR female) • 1, Sync (reference), 1 V P-P to 4 V P-P, looping (BNC) • 1, Alarm (SMPTE 269M-1999) • 8, Serial Ports (RS-422/ESbus) (9-pin D female)† • 1, Redundant (control) (15-pin D female) • 1, Grass Valley router Crosspoint (XPT) bus, looping (15-pin D female) • 1, LAN (10/100baseT) (RJ-45) Power requirements: 100 to 240 VAC 50-60 Hz auto ranging, 0.
File Server Minimum Specifications File Server Minimum Specifications Ensure that the Grass Valley PC 3000 System or the Customer -supplied File Server has the following minimum requirements before installing the AccuSwitch application: • Windows XP Pro SP2 (English version) • 2 GHz Pentium processor • 1 GB of RAM • Minimum of 13 MB disk space for each application • 1.
Appendix A — CM-4400 Specifications Equipment Dimensions CM-4400 System Controller 1.75 in. high x 19 in. wide x approx. 17 in. deep (44 x 483 x 432 mm) CB 3000 Control Buffer 1.75 in. high x 19 in. wide x 16.75 in. deep (44 x 483 x 425 mm) PC 3000 File Server Dimensions are typical for a desktop PC. For exact measurements of file server currently supplied with Jupiter systems, please contact Grass Valley.
File Server Minimum Specifications larger routers, fewer of these levels can be controlled by a single CM-4400, and the system’s router control must be distributed among multiple CM4400s. Jupiter versions prior to 5.1.0 will not handle edit sets that have more than 64 levels. Should you attempt to edit such a set, the Jupiter Configurator (editor) will detect the error in the Switcher Description table and will not run correctly. Another symptom is that the Configurator will not exit properly.
Appendix A — CM-4400 Specifications Follow these steps to calculate load and the required number of processors: 1. Sum all base and fixed loading factors in the system. • The system is considered a “lightly” loaded system if the system wide sum of all base and fixed loading factors is less than 160. Abase multiplier of 1.0 should be used in later calculations.
File Server Minimum Specifications Supported Data Routers CM-4000 controllers running the AccuSwitch application will support two data router models: • Venus data routers with DM-400B Data Matrix boards, and • Concerto data routers. In addition, AccuSwitch will now support path finding (tie line operation) between any combination of Venus DM-400B and Concerto data routers, up to a maximum of three routers.
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Appendix B Connecting Legacy and 3rd Party Routers Matrix Router Control Buses Supported Protocols Super crosspoint bus: Grass Valley binary cable/connectors are 10-conductor twisted pair plus ground/15-pin D. Transmission speed: 1 Mbit/sec (approx).
Appendix B — Connecting Legacy and 3rd Party Routers Serial Control Router Protocols Alpha Image Data Tek GVG Native (outgoing) Nexus Pro-bel Eclipse Utah 96 EScontrol Utah 12 Nexus Star GVG Horizon SWP-08 Triton Systems Triton routers are connected using a CM-4400 serial port. Multiple Triton chassis can be connected to a single CM-4400, but only if all the routers are connected using the same MIDI bus and connected through the same single serial port.
Matrix Router Control Buses Figure 218. CM-4400 Connected to Triton Distribution Switchers maximum of 20 units Router address “0” Triton L + R Audio MIDI bus loop 071826105_CM-4400 Connected to Triton Distribution Switchers Router address “2” Triton Video RS−232 port House sync required for vertical interval switching (analog units). See Triton manual for details. Triton protocol RS−422/232 converter† † A Triton−to−Jupiter Serial Control Kit is available from Grass Valley.
Appendix B — Connecting Legacy and 3rd Party Routers In order for a Triton analog video router to switch on Vertical Interval as set in the Switcher Description Table, rear-panel DIP 7 must be DOWN and a sync reference signal must be connected to Input No. 1. The reference signal must be composite video, 1 Vpp, 300 mV sync, 75 ohms. For more information, refer to the Triton manual. Figure 219.
Matrix Router Control Buses Figure 220. Connection to SMS 7000 Control System to Series 7000 routing switcher 071826105_Connection to SMS 7000 Control System SMS 7000 control system See page 2−16 for a description of this cable GNP protocol Serial Port CM-4400 System Controller LAN House time code (optional). See pg. 2−64 Software Configuration The CM-4400 connected to the SMS 7000 must be configured using the Network Description table and Serial Protocol table.
Appendix B — Connecting Legacy and 3rd Party Routers Figure 222.
Matrix Router Control Buses Figure 224.
Appendix B — Connecting Legacy and 3rd Party Routers Figure 226. Cable for Connecting CM- 4400 to Datatek D-2166 Buffer Control Module to CM 3000 serial port 1 G G 6 R− T− 7 R+ T+ 3 T+ R+ 8 T− R− 4 9 5 = twisted pair DB9P (male) G R− R+ T+ T− to Datatek D−2166/DF−2115 “RS−232−C A” or “RS−232−C B” port jumpered for RS−422 operation. Refer to the manual supplied with the Datatek router for more information.
Matrix Router Control Buses Figure 227. Connection to Utah Scientific Party Line to Utah Scientific switcher Utah Scientific Party Line UDI−1B interface Utah 96 protocol Utah 96 protocol 071826105 Connection to Utah Scientific Party Line RS−422 port See Figure 2−31 for a description of this cable RS−232 port RS−422/232 converter† Serial Port See Figure 2−32 for a description of these cables LAN CM-4400 System Controller House time code (optional). See pg. 2−64 Figure 228.
Appendix B — Connecting Legacy and 3rd Party Routers Figure 229.
Matrix Router Control Buses The Nexus router has two ports that can be used for connection to Jupiter: the “XCI” port and the “XCPU” port. Grass Valley suggests that the XCI port be used if possible. The pinouts for both ports are shown below. Figure 231.
Appendix B — Connecting Legacy and 3rd Party Routers Pro-Bel SW-P-08 Protocol The 7.9 version of the Jupiter system supports two new protocol drivers, for AccuSwitch, that implement parts of the Pro-Bel SW-P-08 protocol. The first driver is implemented as a standard Remote Router control interface. The second driver is implemented as an Automation, or a Control panel, interface. Figure 233.
Pro-Bel SW-P-08 Protocol Follow these steps to enter or modify the Serial Protocol table: 1. Select the Serial Protocol option from the Jupiter menu (Jupiter > Serial Protocol). The Serial Protocol table will then open (Figure 234). Figure 234. Example of the Serial Protocol Table 2. Double-click the protocol box that is associated with the Serial port. A drop-down list will show the possible protocol types. 3. Select the P08 (SWP-08 Control Panel) protocol. 4.
Appendix B — Connecting Legacy and 3rd Party Routers Note These steps assume that a Serial Input set, Output set, and a Level set have already been configured. For steps to configure a CM-4400 see The Configurator Application on page 107. Follow these steps to enter or modify the MPK table: 1. Select the MPK Devices option from the Jupiter menu (Jupiter> MPK Devices). The MPK Devices table will then open. 2. Enter a name in the MPK Devices column. 3.
Pro-Bel SW-P-08 Protocol You should be familiar with the Pro-Bel SW-P-08 commands before using this information. Table 32. Pro-Bel Pro-Bel SW-P-08 Protocol Commands Command Description Crosspoint Interrogate This command responds with a Crosspoint Tally message. Crosspoint Connect This command responds with a Crosspoint Connected message. In addition Jupiter accepts Crosspoint Connected messages and converts them into Crosspoint Connect messages except that there is no further status response.
Appendix B — Connecting Legacy and 3rd Party Routers For example, in Figure 237 the Physical level value on row 7 is 102. Figure 237. Physical Level on the Switcher Description Table Physical level All values over 100 are offset by 100; hence, the Physical level value would be 2. In this example the Protocol matrix value is: 0 For more information see Table 33. Remote Router Values As stated earlier, all Remote-Router Physical level values are offset.
Pro-Bel SW-P-08 Protocol Table 33.
Appendix B — Connecting Legacy and 3rd Party Routers Figure 238. Example of the Serial Protocol Table 2. Double-click the protocol box that is associated with the Serial port. A drop-down list will show the possible protocol types. 3. Select the P8R (SWP-08 Router Control) protocol. 4. Click anywhere in the table accept the entry. The Baud rates will be selected automatically (Figure 235). The Baud rate can be changed by clicking the drop-down list in the Baud rate column. Figure 239.
Pro-Bel SW-P-08 Protocol Pro-Bel SW-P-08 Interface Implementation Notes P8R (SW-P-08 Router Control) The P8R (SW-P-08 Router Control) driver will send the following: Table 34. P8R(SW-P-08 Router Control) driver Sent Information Message Value CONNECT 2 (matrix=pLvl/16, level =pLvl%16 input < 1024 output < 1024) CONNECT_EXT 130 (depending on the input and output >= 1024) This P8R (SW-P-08 Router Control) driver will receive the following: Table 35.
Appendix B — Connecting Legacy and 3rd Party Routers P08 (SW-P-08 Control Panel) The P08 (SW-P-08 Control Panel) driver will receive the following information: Table 36.
Physical Serial Interface Commands are repeated up to 3 times when a NAK (error) occurs. Physical Serial Interface This section describes the pins of the Serial cable. The two Tables (Table 38 and Table 39) describe the configuration. Figure 240. Serial Cable Pin-out 1 1 G 6 6 2 R+ 7 3 3 T+ 8 T− R 8 T 4 4 9 9 5 5 G RS-422/485 (female) 071827512_Probell-Serial connections 2 R− 7 RS-232 DTE (male) Table 38.
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Index Index A AccuSwitch Configuration File Configuring a New Set 111 Exporting a Configuration Set 112 Overview 111 Unzipping, Opening, Editing, and Compiling 116 Uploading a Configuration File 114 Automation 80 Connection 80 C CB 3000 Control Buffer 77 Clearing Parameter Memory (PMEM) 106 Closing the Configurator Application 118 CM-4400 Alarms in a Single CM-4400 Installation 46 Control Functions 34 Protection Features 45 Serial Bus Loading 281 Using the Console Port 105 CM-4400 Connections 40 CM-4400
Index H N Hardware Installation 37 Non-sequential Path Finding 68 Non-Sequential Path Finding table 200 I O Installing Control Panels 74 Introduction 31 online documentation 4 Ordering Information 36 J JNS Launching the Control Console 98 Program Groups 100 rebooting 103 Restart Procedures 103 JNS Control Center Tabs Board Info/Control 232 Board Status 230 Configuration 235 TFTP Status 231 JNS Logger and Log Viewer applications 249 Running the JNS Log Viewer 251 Running the JNS Logger 250 JNS progra
Index Time Code Connections 74 Time Standard table 204 Troubleshooting 141 Error Conditions 141 Program Crash Recovery 141 Zipping a Configuration Set 141 U Unpacking and Inspection 37 V Verifying 110 or 230 VAC Selection 37 Video Reference table 207 W web site documentation 4 web site FAQ database 4 web site Grass Valley 4 web site software download 4 Z Zero-Downtime Feature 193 JUPITER CM-4400 Control Module Installation and Operating Manual 3
Index 4 JUPITER CM-4400 Control Module Installation and Operating Manual