Manual
Contents
1. Not Used or Not Used or Installed Installed 9 l i Frame s8 i A9876 64WE Am mcm a m m m ma n ni i i n n ima a kn E FIGURE 5 2 Cheetah 64XE and 64WE Chassis Strobe Switch Location and Settings Proprietary Information of PESA Switching Systems 5 5 e PESA CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 5 3 Cheetah 64 Series Chassis Strobe Switch Functions Table 5 1 describes the functions of the various strobe switches for the Cheetah systems TABLE 5 1 STROBE SWITCH FUNCTIONS ROTARY NAME DESCRIPTION SWITCH S1 Most Significant Bit The level code identifies the matrix level of the router MSB Level Code This setting accepts 1 to 63 in binary 1 to 3F in hexadecimal This setting must match the Strobe setting Least Significant Bit in the 3500 Series software select Configuration S2 LSB Level Code Component The Strobe setting is at the bottom of the window This strobe is used to offset output origin when frames S3 MSB Output Offsets are added to the system This setting accepts 1 to 255 in binary 1 to FF in hexadecimal Set this strobe to the first offset number you want to use in this unit This setting must match the Output Offset setting in the 3500 S4 LSB Output Offsets Series software select Configuration gt Component The Input Offset displays in the lower section of the window S5 MSB Input Offsets This strobe is used to offset input origin wh2. MATRIX CARDS CH MATRIX64 3G Cheetah Matrix 72X72 Digital 3Gb bandwidth 81906523330 Cheetah Matrix 64x64 Digital Video 81906523980 Cheetah HD Dummy Load Card 81906524340 Cheetah Matrix 64X64 Analog Video Proprietary Information of PESA Switching Systems 3 4 e PES A CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Chapter 4 CHEETAH 64 SERIES VIEWS AND SPECIFICATIONS There are two chassis sizes that house the Cheetah 64 Series switchers which are the 6RU and 4RU chassis The 64XE and the 64WE are housed in a 6RU chassis and the 64NE is housed in the 4RU chassis This section will pictorially display the internal layouts of the switchers depict the connections and list the system specifications This section will be subdivided into the following subtopics e Cheetah 64NE Frame Views e Cheetah 64XE and 64WE Frame Views e Cheetah 64NE 64XE and 64WE Specifications 4 1 CHEETAH 64NE FRAME VIEWS For the Cheetah 64NE frame views see Figures 4 1 and 4 2 T O Cards Fans Matrix Crosspoint Cards System Controllers FRONT VIEW Matrix Frame Controllers FIGURE 4 1 Cheetah 64NE Front Views Proprietary Information of PESA Switching Systems 4 1 CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Outputs p a 1 Output 64 p go o o o o y e Y X CO 7 NEA x Um yw ec gy Qi Q 9 9 M o 9 KEEKEKE CICNo
3. Proprietary Information of PESA Switching Systems 8 14 PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 7 2 MFC 8 Character Display An eight character display see Figure 8 8 is located on the front of the matrix frame controller The display is divided into two fields 88888888 FIGURE 8 8 8 Character Display The first character on the far left is the first field indicating the page number of the information being displayed The next seven characters is the second field that indicates the actual message Press the Scroll button to view successive pages Each page will appear for 30 seconds then reset to page 0 Descriptions of the displayed messages are detailed in Table 8 7 TABLE 8 7 8 Character Display Messages PAGE MESSAGE DESCRIPTION ACTV OK 0 STDB Describes which frame controller is active standby or single operation It also SNGL OK indicates whether there is an alarm condition present on the controller SNGL 1 IN XXXX Shows the number of inputs being controlled by the frame controller 2 OUTXXXX Shows the number of outputs being controlled by the frame controller 3 IOFXXXX Shows the input offset of the matrix 4 OOFXXXX Shows the output offset of the matrix 5 STRB XX Shows the PRC strobe of the matrix TEMP OK res 6 TEMPBAD Shows the alarm status of the over temp indicator PWR OK 7 PWR BAD Shows the ala
4. 6 6 6 EOE OE y D 1 Ti ES e j 61 6 e o o 9 9 61 S B e B Cheetah 64XE and 64WE I O Connections Slots are used for either option cards i e 64WE chassis or expansion cards i e 64XE chassis FIGURE 5 5 Cheetah 64 Series Input Output Signal Connectors rear views Proprietary Information of PESA Switching Systems 5 9 e PESA CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E The video input connectors are internally terminated into 75 Use coaxial cable and a standard BNC connector to connect each source Input and output modules can be populated in increments of 16 Input modules provide up to 100m meters of equalization for HD and up to 300m for SDI Both HD multi rate and SDI output modules include a single copper connection However daughter boards can be installed on cards for frames that include output options to provide a second output per bus The second output can be either copper or fiber single mode or multi mode For SDI applications a DAC monitor grade 10 bit output board can be installed as an option For HD applications a HD to SD conversion card can be installed as an option 5 11 CHEETAH 64NE 64XE AND 64WE FUSE LOCATIONS AND ASSIGNMENTS All circuit protection devices ie fuses current monitoring semiconductors and temperature circuitry for the various cards that are installed in the 64NE 64XE and
5. 7 System Control verification is complete Proprietary Information of PESA Switching Systems 7 7 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E Chapter 8 OPERATIONAL DESCRIPTIONS AND CARD MODULE INSTALLATIONS This section documents the operational descriptions of the various components of the Cheetah Series Switchers Typically this section is accessed for more concise component information and how each component is used in the Cheetah Series systems Additionally this section will describe the installation of the various components of the Cheetah Series Switchers Even though the unit is shipped with all of the components preinstalled this section is typically accessed for basic component information and for their replacement removal and installation sequences 8 1 CHEETAH SERIES POWER SUPPLIES 8 1 1 Cheetah Series Power Supply Information Cheetah Series Power Supplies contain electrical shock hazards and should only be serviced by qualified service personnel with experience in servicing off line switching regulators There are no user serviceable parts contained in the Cheetah Series Power Supplies All service performed on the Power Supplies should be performed by the PESA Service Department High Leakage Current at 240VAC The Cheetah Series Power Supply leakage current exceeds 7 0mA when used at 240 VAC because of leakage through emission filter capacitors The Cheeta
6. CHAPTER 10 81 9059 0577 0 Rev E 10 4 APPENDIX D ABBREVIATIONS ACRONYMS AND DEFINITIONS AA amp D This Appendix includes a listing of the most commonly used abbreviations acronyms and associated definitions that are used throughout this manual AA amp D DESCRIPTION DEFINITION BNC Bayonet Neill Concelman connector used with coaxial cable that was invented by Mr Neill Concelman CPU Central Processing Unit CRC Cyclic Redundancy Check DAC Digital to Analog Converter DHCP Dynamic Host Configuration Protocol ESD Electrostatic Sensitive Device FCC Federal Communications Commission FPGA Field Programmable Gate Array Gbps Gigabytes 1 024 megabytes per second or one billion bits of information per second HD High Definition HDMR High Definition Multi Rate HTTP HyperText Transfer Protocol IEC International Electrotechnical Commission IP Internet Protocol LAN Limited Access Network LC Inductor Capacitor circuit L is the symbol for inductance or Lucent Connector fiber connector LED Light Emitting Diode LSB Least Significant Bit AA amp D continued on next page Proprietary Information of PESA Switching Systems 10 20 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E AA amp D continued AA amp D DESCRIPTION DEFINITION Mbps Megabytes per sec
7. PC with preloaded PESA ViewPort software Null modem serial cable length determined by distance the PC will be from the chassis ViewPort Manual P N 81 9059 0558 0 Customer s Cheetah chassis packing list or specification sheet Frame Strobe Setting Verification While referring to the appropriate Chapter for the frame that is being verified document and archive the frame s present strobe settings as follows 1 3 Access the MFC compartment If necessary remove the top most MFC module and blank cover to expose the strobe switches for viewing Document each strobe switch setting and archive Archiving should include an electronic file and hard copy for ease of future retrieval This information is invaluable when communicating with the PESA Customer Service group Re install the components that were removed in Step 1 Frame Control Verification Procedure Perform the following sequence 1 Perform the chassis pre start verification checks and startup sequences as outlined in Sections 7 1 and 7 2 in this Chapter With the chassis energized ON and while referring to the ViewPort manual carefully connect the null modem serial cable to the MFC DB 9 serial connection port and the PC s serial port Proprietary Information of PESA Switching Systems 7 3 e PESA CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E If there are any errors noticed while performing the sequential steps in the F
8. 6 3 1 Cheetah 64 Series Chassis Supply Power Make sure that all source power is within the operating range of the equipment before completing the specific power connections Read the Maximum Voltage requirements starting in this section Chapter 6 To prevent damage to the equipment e Read all instructions for proper input voltage ranges e Use the recommended specified power branch circuit ampacity e Follow static prevention precautions prior to handling equipment 6 3 1 1 Cheetah 64 Series Chassis Power Cord AC power cords may differ depending on your power requirements The chassis is supplied with two USA standard power cords for 120VAC power service or the standards for the country that the system is shipped to Proprietary Information of PESA Switching Systems 6 3 e PESA CHEETAH 64 SERIES CHAPTER 6 81 9059 0577 0 Rev E 6 3 1 2 Cheetah 64 Series Chassis AC External Power Requirements The 64x64 and 64x128 chassis are supplied with redundant prefabricated UL CSA approved power cords that include a NEMA 5 15P male and IEC 60320 C13 female line connectors These cords are for connection to a 120V AC supply service refer to Table 6 1 TABLE 6 1 AC Power Connectors Minimum Amps Tr A AC Power Cable IEC Pigtail Service Drops Required IEC type line cord 120VAC connectors 10A Service Yes No 1 Standard 1 Redundant 6 3 2 This AC p
9. The physical size of each Cheetah Series Switcher chassis is determined by the chassis input output capabilities i e the 64NE chassis is the smallest while the 64XE and 64WE chassis are the largest If specified when ordered each Cheetah Switcher will be configured for the intended system at the factory Before attempting to install any frame matrix card controller card or power supply carefully read and understand this section All Cheetah Switchers contain electrostatic sensitive devices ESD Care should be used when it is necessary to handle the internal circuit cards It is recommended that a grounded wrist strap and grounding mat be used before attempting any equipment installations CHOOSING A LOCATION For local electrical compliance this equipment should be located near the socket outlet power strip if plugs are used or the supply disconnect breaker so that the AC line cord plugs or the supply disconnect are easily accessible This equipment is designed for installation in a standard 19 equipment rack located in an environment conforming to the specifications for each chassis Locate each unit as closely as possible to its associated equipment to minimize cable runs Consider the connection from this equipment to the supply circuit and the effect that possible overloading can have on overcurrent protection circuits and supply wiring Refer to nameplate ratings when addressing this concern P
10. RFC 2011 SNMPv2 IP MIB Objects RFC 2012 SNMPv2 TCP MIB Objects RFC 2013 SNMPv2 UDP MIB Objects Two enterprise MIBs are used to provide full control of Cheetah Switchers The first PESA TC MIB is a MIB which defines some textual conventions The second PESA MATRIX MIB contains objects which allow SNMP based control and monitoring of one or more Cheetah Switchers Note that the agent within the Matrix Frame Controller implements a subset of the PESA MATRIX MIB The optional Group tables are reserved for implementation within the System Controller The agent is capable of managing multiple Cheetah Switchers This is accomplished in two steps a Connecting the Cheetah Switchers via the RS 422 Aux Frame Port described in this manual b Set the Matrix Frame Controller which is to communicate with your SNMP management application to NETPRC Master Note that if you have redundant Matrix Frame Controllers in the Switcher BOTH must be configured as NETPRC Master Refer to the Ethernet section described earlier in Appendix A to accomplish this c Set all other Matrix Frame Controllers which you have connected to the NETPRC Master controller to NETPRC Slave The agent will then be able to configure and control all of the Cheetah Switchers in the connected collection Once you have configured the Matrix Frame Controller s SNMP agent as described in Appendix A you may issue SNMP commands The following commands were iss
11. settings in the System Controller Software If specified by the customer when ordering these switches will be set at the factory however the customer can adjust them as required for system expansion Proprietary Information of PESA Switching Systems 5 3 e PES A CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 5 1 Cheetah 64NE Chassis Strobe Switch Location and Settings Prior to adjusting any of the chassis strobe switches it is strongly recommended that you contact PESA s Customer Service Department for assistance For the 64NE chassis Strobe Switch location and settings see Figure 5 1 m I looo 900000 ELI Te ff ece Not Used or Installed 7 FIGURE 5 1 Cheetah 64NE Chassis Strobe Switch Location and Settings Front View Proprietary Information of PESA Switching Systems 5 4 e PES A CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 5 2 Cheetah 64XE and 64WE Chassis Strobe Switches Location and Settings This section will be subdivided into the following subtopics Prior to adjusting any of the chassis strobe switches it is strongly recommended that you contact PESA s Customer Service Department for assistance For the 64XE and 64WE chassis Strobe Switch locations and settings see Figure 5 2 1
12. the operations will fail Proprietary Information of PESA Switching Systems 10 6 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 10 3 D1 D2 D3 APPENDIX C PESA MATRIX FRAME CONTROLLER DEBUG PORT PROTOCOL The PESA Matrix Frame Controller Debug Port protocol is an RS 232 connection that allows service personnel to directly interact with the PESA Matrix frame controller in order to determine the health of the matrix and to perform certain diagnostics The same protocol is supported via the Telnet connection however the network parameters cannot be configured through the Telnet connection Port Setup Baud Rate 38 400 Data Bits 8 Stop Bits 1 Parity None Flow Control None Command Syntax Commands consist of the first two non whitespace ASCII character sequences entered in a command line Each command is followed by a series of optional data parameters Data parameters start after the first whitespace following the command sequence Commas delimit the data parameters All data parameters have leading and trailing whitespaces trimmed A command is terminated by a Carriage return A command is not acted on until the carriage return is received Command sequences are case insensitive Command Line Character Input The following indicates how characters input into the debug port are handled 1 Command Entry Commands are entered character by character onto the command line All ASC
13. 03 99 3500Plus Dipswitch Setting Information Technical Bulletin ETE MI oN AbFO4s ILLPTIE G C Lose aA o ie aoe FIGURE 7 1 3500 Series Card Dipswitch Locations set for 9 600 baud rate The dipswitch should be set in accordance with Table 7 1 before the 3500Plus System Controller is installed For normal operation at 9 600 Baud all four switches should be in the OFF position as shown in Figure 7 1 However the factory default is 38 400 Baud rate with switch 3 in the ON position Tir TABLE 7 1 3500 Series Card S1 Dipswitch Settings POSITION OFF ON 1 Normal Operation Mode Software Upgrade Mode 2 Use configuration stored in Reboot and ignore configuration stored flash memory in flash memory used to bypass a corrupt configuration 3 COM1 9600 Baud COMI 38400 Baud 4 Reserved for future use Reserved for future use 3 Return the card s to their proper chassis slot and secure Proprietary Information of PESA Switching Systems 7 6 e PESA CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E 4 Connect the Null modem cable to the chassis COMI port and the PC s that has the 3500 Series software installed serial port If any one of the following steps in this sequence cannot be verified and or performed correctly you must complete a troubleshooting sequence to correct the problem before proceeding to the next step 5 Re ver
14. 1 Disconnect the fan power cord see Figure 9 1 from the chassis fan power receptacle 2 Remove the four fan assembly retaining screws 3 Replace the fan and secure with the four fan assembly with the retaining screws torque according to screw size When replacing fans during energized system conditions be aware that the new fan replacement will energize upon power reconnection 4 Reconnect the fan power cord to the chassis fan power receptacle Proprietary Information of PESA Switching Systems 9 3 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E 9 2 TROUBLE SHOOTING 9 2 1 Troubleshooting Overview Troubleshooting techniques differ from technician to technician However all techniques should include a basic troubleshooting starting sequence which consists of but is not limited to the following e An Operator interview to account for system actions prior to the system problem to establish failure possibilities e Verification of correct supply voltages breaker or disconnect status supply voltage actually present etc e System fuse verification search for open blown system fuses e An initial system inspection that includes the use of personal senses e g feeling for heat smelling for burned components listening for unusual noises and looking for discolored components Once the basic troubleshooting starting sequence has been completed then the actual system troubleshooti
15. 64WE chassis are located on each card and are non serviceable by the user Proprietary Information of PESA Switching Systems 5 10 e PESA CHEETAH 64 SERIES CHAPTER 6 81 9059 0577 0 Rev E Chapter 6 CHEETAH 64 SERIES CABLE INSTALLATION AND POWER CONNECTIONS 6 1 CONNECTING EQUIPMENT CABLES Use the following guidelines when connecting equipment cables 1 Install the equipment in the rack before connecting cables 2 Relieve strain on all cables to prevent connector separation 3 To the extent possible separate control signal and power cables to minimize crosstalk and interference 4 Use as many cable ties as necessary to secure cables to the rack see Figure 6 1 This will minimize the amount of force transmitted to the equipment and help route cables away from hazardous areas FIGURE 6 1 Cables Attached to Supports 5 Route cables away from physical traffic areas to avoid creating a safety hazard trip or shock 6 Bundle together any cables connected to a single input output card and separate them from the other bundles with enough slack to create a service loop This will permit individual card replacement without disruption to the other input output cards Proprietary Information of PESA Switching Systems 6 1 e PESA CHEETAH 64 SERIES CHAPTER 6 81 9059 0577 0 Rev E 6 2 CONNECTION GUIDE CHECKLIST Once the Cheetah Video Matrix Switcher is installed in the equipment rack the associated system con
16. 8 8 2 RS 422 Control Connectors COM3 PRC This DB 9 Male connector see Figure 8 11 provides an RS 422 serial communication interface COM 3 PRC E cg Pii Pin9 FIGURE 8 11 RS 422 COM 3 PRC Control Connector COM 3 PRC is the communications interface to a PRC type routing switcher system and is connected to a routing switcher with a serial control cable refer to Table 8 10 for pin assignments TABLE 8 10 COM 3 PRC Pin Assignments Pin Signal In Out 1 CTS Input not used 2 MATRIX Bi directional 3 CTLR Output 4 RTS Output not used 5 Ground 6 CTS Input not used 7 MATRIX Bi directional 8 CTLR Output 9 RTS Output not used Proprietary Information of PESA Switching Systems 8 19 e PES A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 6 8 3 System Control Alarm Connector This three pin connector illustrated in Figure 8 12 provides an interface for an external customer ips pal uii system control alarm alarm contact locations are also shown SYSTEM CONTROL Lo FEV yo ALARM CONNECTOR Se cal SIPRC PRC LOOP an oo S FIGURE 8 12 System Control Alarm Connector The 3500 Series controller initiates a system alarm An alarm condition is declared when the controller is in reset and when the standby controller is gathering configuration information from the primary controller During an alarm condition an opticall
17. 8 8 COM1 and COM 2 Pin Assignments Pin Signal In Out 1 CD Input 2 RX Input 3 TX Output 4 DTR Output 5 Ground 6 DSR Input 7 RTS Output 8 CTS Input 9 RI No Connect e COM 1 is the primary RS 232 CPU Link and may be connected to a PC running the 3500 Series Control System software with a null modem cable Part No 81 9028 0393 0 Alternatively COM 1 may be connected to an external control device COM 1 may only be used with the P1E protocol at either 9600 or 38 400 baud Set the baud rate with a switch on the controller board Make sure the communication rate for COM 1 in the 3500 Series software matches the baud rate you are using in the software select System gt Communications Proprietary Information of PESA Switching Systems 8 18 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E e COM 2 is a secondary RS 232 CPU Link which may also be connected to a PC or an external control device COM 2 may be used with either of the protocols shown in Table 8 9 and may operate at either 9600 or 38 400 baud Set the baud rate with a switch on the controller board Make sure the communication rate for COM 2 in the 3500 Series software matches the baud rate you are using in the software select System gt Communications TABLE 8 9 PESA CPU Link Protocols PROTOCOL DOCUMENT CPU Link Protocol No 1 Extensions P1E 81 9062 0408 0 Unsolicited Status Protocol USP 81 9062 0409 0
18. DIPSWITCH SETTINGS essen nnne eee 7 6 TABLE 8 1 POWER SUPPLY LED INDICATORS eene nnennn ntes i ii i iaa n an 8 3 TABLE 8 2 INPUT BUFFER CARD LED INDICATORS 000000000eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeseeeseeassesaasaaaea 8 5 TABLE 8 3 OUTPUT COMBINER CARD LED INDICATORS cscceeseeeececeeeeeeeeenaeeeeeeeeeeeeeaaeeeeeeeeeennaeeeeeees 8 6 TABLE 8 4 3500 SERIES SYSTEM CONTROLLER LEDS eeseseeeeeeeeee eene 8 0 TABLE 8 5 64X64 VIDEO CROSSPOINT MATRIX CARD LED DESCRIPTIONS eene 8 11 TABLE 8 6 MATRIX FRAME CONTROLLER LED INDICATORS cesses eene eene 8 14 TABLE 8 7 8 CHARACTER DISPLAY MESSAGES iissesssseeeeee eene nen enne e nnne ii i a EENEN ENEKEN 8 15 TABLE 8 8 COMI AND COM 2 PIN ASSIGNMENTS eeeeeeeeeeeeeeee nennen nennen nn esee her een nennen nennen 8 18 TABLE 8 9 PESA CPU LINK PROTOCOLS ansonsten onus aget soap Add DR v EE eni Lee AR d Ie Ip dead cn 8 19 TABLE 8 10 COM 3 PRC PIN ASSIGNMENTS ssssceceessseeeeesseeeeeesaeeceesaeeceseeeeeessaaeeeeesaeeeeesaeeeee 8 19 TABLE 8 11 ETHERNET LED INDICATORS cieeeeeeeeeeeeee eene eene akaa EEEE EEEE EEEE 8 24 TABLE9 1 POWER SUPPLY I BEDS diire toro oret errore prre rote e E eite edis 9 5 TABLE9 2 MATRIX BOARD LEDS nente reset tete tree dena th bene te ka rd n ba rao bo Pass obo Pha edad 9 6 TABLE 9 3 OUTPUT BOARD LEDS iiiter inrer sena ho tu hd eR ons ove pepe ape
19. Debo Red DAC Led IER AEAEE AAR 9 7 TABLE 9 4 INPUT BOARD LEEDS tre te ere ere eed rt cigs E Rx EN ELE CENE OREORE 9 8 TABLE 10 1 ETHERNET CONFIGURATION ceeeeeeee eene nennnnee nennen nennt eei i i i i AKAA i i a anna an 10 1 Proprietary Information of PESA Switching Systems V e PESA CHEETAH 64 SERIES CHAPTER 1 81 9059 0577 0 Rev E Chapter 1 ABOUT THIS MANUAL 1 1 1 2 1 2 1 1 2 2 1 2 3 DOCUMENTATION AND SAFETY OVERVIEW This manual provides detailed instructions for the installation operation and maintenance of the PESA Cheetah Series Switchers It is the responsibility of all personnel involved in the installation operation and maintenance of the equipment to know all the applicable safety regulations for the areas they will be working in Under no circumstances should any person perform any procedure or sequence in this manual if the procedural sequence will directly conflict with local Safe Practices Local Safe Practices shall remain as the sole determining factor for performing any procedure or sequence outlined in this document Additionally internal access to the frame compartments of the equipment that is described in this manual is restricted to qualified service personnel only WARNINGS CAUTIONS AND NOTES Throughout this document you should notice various Warnings Cautions and Notes These addendum statements supply invaluable information pertaining to the text that they address
20. It is imperative that audiences read and understand the statements to avoid possible loss of life personal injury destruction damage to the equipment and or added information that could enhance the operating characteristics of the equipment i e Notes The following subsections represent a description of the Warnings Cautions and Notes statements contained in this manual WARNING Warning statements identify conditions or practices that can result in loss of life or permanent personal injury if the instructions contained in the statement are not complied with CAUTION Caution statements identify conditions or practices that can result in personal injury and or damage to equipment if the instructions contained in the statement are not complied with NOTE Notes are for information purposes only However they may contain invaluable information important to the correct installation operation and or maintenance of the equipment Proprietary Information of PESA Switching Systems 1 1 e IPERS A CHEETAH SERIES SWITCHERS CHAPTER 2 81 9059 0577 0 Rev E Chapter 2 CHEETAH 64 SERIES INTRODUCTION 2 1 CHEETAH 64 SERIES PRODUCT OVERVIEW Cheetah 64 series switchers are full featured video matrix switchers capable of handling Serial Digital Interface SDI and High Definition Television HDTV as well as other non standard digital signals in the same frame Copper and optional fiber
21. MC M M RE E SO UUECC UE 3 ORK SN 3 a SN n b S y a OH n P e 0 O Input 1 OY ACIn Inputs Input 64 Com 3 PRC Com 1 Com 2 PRC Loop COM 3IPRO PRC LOOP System Control Alarm S aca Output RCP Panel Port 1 Co an ALARM Sn Frame Control Alarm i 2 CONTROL j T s RCP Panel Port 42 ae UR ia Ee E SY t iue R Reference Input 2 Reference Input 1 ps 9v al Frame Controller Ethernet FIGURE 4 2 Cheetah 64NE Rear View Proprietary Information of PESA Switching Systems 4 2 e PES A CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E 4 2 CHEETAH 64XE AND 64WE FRAME VIEWS For the Cheetah 64XE and 64WE frame views see Figures 4 3 through 4 5 Power Supplies ISOMETRIC VIEW Controllers Matrix Crosspoint Controllers FRONT VIEW FIGURE 4 3 Cheetah 64XE and 64WE Frame Front Views Proprietary Information of PESA Switching Systems 4 3 e PES A CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E UODOOOUOCODOOOQO QUU UOOOUUODUOCOOOOUAXL ODO OOOOOGOUOtU 200 OO OUOU DUUOOOCU UDOOOUO j UCOOOUUS UOOOU UD AMIE BALAA ALL OOOOUOIqg DOOCOOOCOC PUUU0U CHOP ODOOOOUODOOOO UO OU p 11 ODOUOOOOCOUDOOOOUNXGUV J KAALA OU OU0UDDYG oo OUUU00UEG OUOUO COO u yl OOOOOOUt JIOUDOOUOUODUU See Figure 4 5 80 E N 6 4S e Al Outputs O
22. NTSC PAL 1080i 1080P and 720P only The house sync inputs are individually terminated internally The synchronization signal cannot be daisy chained from one routing switcher to another FIGURE 8 23 House Sync Input Reference Connectors Using the Cheetah GUI the user can assign a specific reference signal for the system or individual chassis that is used as a synchronization signal for specific output synchronized switching Once the output has been switched the output signal remains synchronized to the initial reference assignment until it is switched again with a new reference assignment An example of a sync assignment would be as follows Reference 1 is connected to an NTSC sync signal source and Reference 2 is connected to a PAL sync signal source Using the GUI the user assigns Reference 1 to outputs 6 through 10 and Reference 2 to outputs 11 through 16 for a specific chassis Reference 1 or 2 should be connected to the house sync source or tri level source with coaxial cable and standard BNC connectors Proprietary Information of PESA Switching Systems 8 28 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E Chapter 9 MAINTENANCE AND REPAIR This section will address the normal system maintenance sequences basic troubleshooting scenarios minor system repairs and PESA contact information Since it may become necessary to perform maintenance and repair on energized equipment it is the responsibility of
23. They are not user accessible only Proprietary Information of PESA Switching Systems 8 12 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 7 MATRIX FRAME CONTROLLER MFC The matrix frame controller located on the right front of the unit is illustrated in Figure 8 7 For every frame type at least one Matrix Frame Controller MFC is required The function of the frame controller is to determine frame size level input offsets output offsets plus other physical characteristics of the frame hardware Both PESA s PRC protocol and NET PRC protocol are available to the MFC With the NET PRC protocol the MFC has the ability to communicate to a system controller via Ethernet connection More features include SNMP support and redundant MFC cards with auto changeover On the front panel of each matrix frame controller is a diagnostic port on the far right used for troubleshooting for further information refer to Chapter 9 and Appendices COMMUNICATIONS CONTROL STATUS 28 ES 2 x F ACTIVE RESET SCROLL a s 88888888 eoo o pro 43 NET T MATRIX FRAME CONTROLLER FIGURE 8 7 Matrix Frame Controller The MFC has the ability to provide dual operations By setting each MFC with its own Ethernet address updates and active switching can be done in parallel that allows immediate crossover during a card failure or network interruption refer to Appendices for details on Ethernet configu
24. all personnel involved in the maintenance and repair of the equipment to be familiar with all of the applicable safety regulations for the areas they will be working in Under no circumstances should any person perform any procedure or sequence in this manual if the procedural sequence will directly conflict with local Safe Practices Local Safe Practices shall remain as the sole determining factor for performing any procedure or sequence outlined in this document 9 1 MAINTENANCE 9 1 1 Maintenance Overview This equipment has been designed to give long trouble free service with very little maintenance Under normal service conditions the only routine maintenance required is to monitor the air filter for cleanliness This equipment contains static sensitive devices A grounded wrist strap and mat should be used when handling the internal circuit cards This equipment has been designed so that maintenance operations can be performed while the equipment is operational energized and performing switching functions Only the power supply assemblies and the AC supply line circuits contain potentially lethal shock hazards 9 1 2 Air Filter The air filter s should be checked monthly to ensure that an adequate supply of clean air is available to cool this equipment If the air filter is dirty either clean it with low pressure air vacuuming or a mild soap and water solution then dry or replace it with a new air filt
25. an automated device such as a PC i e Machine Machine Interface MMI e Ctl C Aborts the current command and starts new command line with a new prompt e Ctl T Terse Response Mode Causes commands to be responded to in a terse mode fit for machine consumption of data programming language D5 Command Enumeration Command Characters in BOLD are those characters that are required for the command The other characters may be entered to help describe the command to a user interface 1 HE Help Menu Syntax e HELP lt cmd gt Where cmd is optional in order to receive more help on specific commands AC Active Status AL Alarm AO All Call Outputs AS Output Aspect CL Clear MFCHIP Board Errors CO Communications Status DC Dual Transition Changes DT Dual Takeover EC Error Count ET Ethernet Configuration local only HE Help Menu IB Input Board Status LR Output Combiner Force Lock Rate MB Matrix Board Status MT Matrix Type OB Output Board Status OOB Output Option Board Status Proprietary Information of PESA Switching Systems 10 8 A C 64S C 10 Q PESA ie laa a 2 3 Proprietary Information of PESA Switching Systems PM Power Management RC Roll Call RE Reset Board SB System Board Status SS Switch Status ST System Temperature SW Switch Crosspoint SY Sync Status TM Get Set Time VE Versions of Software VT Vertical Trig
26. atia edet ade ded o de RR 9 10 Return Material Authorization RMA serisini 9 10 PESA CUSTOMER SERVICE wisi sisi sssosssiosssesessaneeesiessssessseresavesssssiesdbesctbeosessssceendeeeseeesess 9 11 CHEETAH SERIES SUPPORT DOCUMENTATION cc sssseeeeccceeeeeeseeeseccceeeesaaaeeeeeeeeeeees 9 11 PESA CUSTOMER SERVICE CONTACT INFORMATION eene eene nnne 9 11 APPENDICES e M 10 1 APPENDIX A ETHERNET CONFIGURATION ccccccccsssssseeecceeecceaesseeecceseeseaaaseseeeeeeeees 10 1 APPENDIX B SNMP fvsssssusivasssnsnvnsssansnansnns snnewetnanannnas enbnceanedczaneecnandeasded cageacnaaccendeceans 10 5 APPENDIX C PESA MATRIX FRAME CONTROLLER DEBUG PORT PROTOCOL 10 7 APPENDIX D ABBREVIATIONS ACRONYMS AND DEFINITIONS AA amp D 10 20 Proprietary Information of PESA Switching Systems iii e PESA CHEETAH 64 SERIES TABLES 81 9059 0577 0 Rev E TABLE OF FIGURES FIGURE 4 1 CHEETAH 64NE FRONT VIEWS c cccccccccssssssseeeeeceeessesssneeeeeeecesseessaeeeeeeseesseeeeeeeeeeesesssaeeeeees 4 1 FIGURE 4 2 CHEETAH 64NE REAR VIEW cccccccccccessssssssseeeeeecessesssnseeeeeeessseeeeeeeeeesseesssseeeeeeeeeeeessseeeeeees 4 2 FIGURE 4 3 CHEETAH 64XE AND 64WE FRAME FRONT VIEWS ccccccccsccessssssseeeeecceesessssseeeeeeceessessaeeees 4 3 FIGURE 4 4 CHEETAH 64XE AND 64WE INPUTS OUTPUTS cccccsccccccceeeeesssseeeeceeeeseesssseeeesssssssaeeeeeees 4 4 FIGURE 4 5 CHEETAH 64XE A
27. e OOB lt Slot gt Where Slot is the output option board slot address Response WC xxxx OD1 xxxx OD2 xxxx CRC xxxx Total Errors xxxx Comment e Specify Slot in either a decimal or hex i e 0x05 format Slot is a one based number MT Matrix Type Syntax e MT Response e 64x64 Matrix or 128x128 Matrix Comment e Returns the matrix type loaded in the system Used to differentiate between 64x64 and 128x128 digital matrix cards AO All Call Outputs Syntax e AO lt Input gt Where Input is the physical input for all outputs Specify Input in either a decimal or hex i e 0x0005 format Response Comment e Allows you to switch a single input to all outputs of the matrix Proprietary Information of PESA Switching Systems 10 18 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 25 LR Output Combiner Force Lock Rate Syntax e LR lt slot M gt lt output gt lt rate gt Where slot the output card M the output monitor card output the output on the card rate one of the following 143 143 Mb s 177 2177 Mb s 270 2270 Mb s 360 360 Mb s 540 2540 Mb s HD High Definition BYPASS BYPASS mode AUTO AUTO SELECT Response Comment e Allows you to set the reclocker rate on the digital output combiners If the card does not support the given rate the command is ignored Proprietary Information of PESA Switching Systems 10 19 e PESA CHEETAH 64 SERIES
28. energized which is called hot swapping Make sure you will still have the minimum number of power supplies installed before removing power supplies The minimum number depends on your configuration which is either one or two power supplies If you only have one supply installed and you must remove it de energize the unit first 1 Open the Cheetah front cover When the latch on the power supply is moved to the full upward position the power supply is switched off and is freed from the retaining slot in the chassis 2 Push and hold the latch on the lower front of the power supply in the full upward position Proprietary Information of PESA Switching Systems 8 4 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 2 8 2 1 8 2 2 8 3 8 3 1 3 Once the latch is pushed upward and held use the unit handle and carefully pull the power supply out of the equipment chassis the unit is held in place by connector plugs and requires a slight forceful pulling motion to separate it from the connectors Repeat for each power supply that you need to remove INPUT BUFFER CARD Input Buffer Card Overview The input buffer card provides 16 input video channels Each input channel provides an equalizer to compensate for cable loss and drivers for internal signal distribution The input buffer card is available in five versions SDI HD multi rate standard analog high level analog an
29. errors detected on any power supply cards INE OK K INE BAD Indicates whether there are any errors detected on any input cards OTE OK L OTE BAD Indicates whether there are any errors detected on any output cards MTX OK M MTX BAD Indicates whether there are any errors detected on any matrix cards N EDE Indicates whether there are any errors detected on any power supply cards PSB BAD 1 id pese Proprietary Information of PESA Switching Systems 8 16 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 7 3 MFC Switch Locations and Settings S1 and S2 S1 and S2 are eight position slide style dipswitches consisting of eight single pole single throw SPST switches numbered 1 through 8 located on the face of the matrix frame controller card as illustrated in Figure 8 9 These dipswitches are set at the factory Do not change the settings FIGURE 8 9 MFC Dipswitch Locations Proprietary Information of PESA Switching Systems 8 17 e PES A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 8 REAR PANEL CONNECTORS 8 8 1 RS 232 Control Connectors COM 1 and COM 2 COM 1 and COM 2 see Figure 8 10 are DB 9 Male connectors that provide RS 232 serial communication interfaces Pin outs are shown in Table 8 8 Pin9 COM 2 FIGURE 8 10 RS 232 Control Connectors TABLE
30. i i eara Supplied Alarm A 1 i 1 1 1 I 1 I 1 1 FIGURE 8 13 Alarm Cable Setting and Associated Schematic Proprietary Information of PESA Switching Systems 8 21 e CS A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 8 4 PRC Loop Connector This five contact connector located on the rear of the unit is a loop through connector used to provide an RS 422 serial communication interface using the PESA PRC Protocol Document No 81 9062 0316 0 It is wired in parallel with the DB 9 Male PRC Loop connector Contact locations are illustrated in Figure 8 14 eu on ew en e FIGURE 8 14 PRC Loop Connector PRC Loop may be connected to PESA PRC type equipment with a cable assembly Part No 81 9028 0395 0 constructed as shown in Figure 8 15 PESA P N 81 9028 0395 0 PRC Cable Assembly System Controller Tx High l1 N N 4 System Controller Tx High System Controller Tx Low 2 2 System Controller Tx Low Chassis Ground 3 3 Chassis Ground System Controller Rx High 4 4 System Controller Rx High System Controller Rx Low 5 d System Controller Rx Low FIGURE 8 15 RS 422 System Expansion Cable Proprietary Information of PESA Switching Systems 8 22 PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 8 5 RCP Panel Port Connectors Two RCP connectors located on the rear of the unit and illu
31. input and output modules provide for maximum flexibility 2 2 CHEETAH 64 SERIES SWITCHERS ANALOG SUPPORT Additionally PESA offers analog cards for the Cheetah 64 series switchers which will allow users to maintain legacy equipment during the transition to digital or single ended general purpose NTSC video transmission applications such as video data for telemetry radar surveillance high level TTL video switching and 75Q audio The analog inputs can accept signals from DC to the 3dB roll off at 50 MHz with voltages up to 2V standard and 5V for high level To maximize the analog offering for the Cheetah 64 series all frame sizes 64NE 64XE and 64WE will accept analog matrix and I O cards Cheetah 64 series system configurations will allow partitioning for either all analog or all digital cards to reside in the same frame in blocks of 64x64 and 64x128 The 64NE 64XE and 64WE frames can be configured for either all digital or all analog The following types of analog I O cards are available e Basic analog input cards output cards and matrix cards with maximum bandwidths of 50 MHz e Analog input cards and an output cards for high level signals to support telemetry or other types of sine wave signals with voltage levels to a maximum of 5V p p Basic analog output cards and the High Level cards will accept the optional dual output piggyback cards The frame architecture for the analog model uses common components from sist
32. replacement part substitutions contact PESA s Customer Service Department before installing any parts not purchased from PESA Inc 9 3 2 Return Material Authorization RMA Before returning any equipment for service or replacement contact PESA s Customer Service Department for an RMA number The contact information for the Customer Service Department appears in Section 9 6 and on the front cover of this document Proprietary Information of PESA Switching Systems 9 10 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E 9 4 PESA CUSTOMER SERVICE 9 5 CHEETAH SERIES SUPPORT DOCUMENTATION 81 9062 0316 0 PESA Router Control PRC Protocol 81 9059 0605 0 PERC 2000 System Controller Manual 81 9059 0402 0 3500 Series System Controller Manual 81 9059 0426 0 3500 Series Control Software Manual 9 6 PESA CUSTOMER SERVICE CONTACT INFORMATION e SERVICE AND ORDERING ASSISTANCE PESA Switching Systems Inc 103 Quality Circle Suite 210 Huntsville AL 35806 USA www PESA com e MAIN OFFICE Tel 256 726 9200 Fax 256 726 9271 e SERVICE DEPARTMENT Tel 256 726 9222 Hours 24 7 Toll Free 800 323 7372 Fax 256 726 9268 Email service PESA com Proprietary Information of PESA Switching Systems 9 11 CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E PESA Chapter 10 APPENDICES This section is subdivided into the following topics e Appendix A Ethernet Configuration e Appendix B SNM
33. 0 Cheetah Input Buffer Composite Video 81906524950 Cheetah Input Buffer Hi Level OUTPUT CARDS CHNE OUTPUT 3G BNC Cheetah Output Combiner 3Gb BNC ONLY CH OUTPUT 3G FIB Cheetan Output Combiner 3Gb with singlemode fiber CH OUTPUT 15G FIB Cheetan Output Combiner 1 5Gb with singlemode fiber CH OUTPUT MUX BNC Cheetah Output combiner with audio embedding CH OUTPUT 3G BNC Cheetah Output Combiner 3Gb Proprietary Information of PESA Switching Systems 3 3 PESA CHEETAH 64 SERIES CHAPTER 3 81 9059 0577 0 Rev E Table 3 2 Cheetah 64 Series Chassis Component Part Numbers Cont OUTPUT CARDS CONT 81906523150 Cheetah Output Combiner SD BNC 81906526250 Cheetah Output Combiner HD MR BNC 81906524930 Cheetah Output Combiner Composite Video 81906524330 Cheetah Output Combiner Hi Level OPTION CARDS 81906523170 Cheetah Dual Output Digital BNC 81906526130 Cheetah Output Option Fiber 81901703700 Cheetah Output Option DAC 81901703760 Cheetah HD to SD Output Converter 81906524920 Cheetah Dual Output Analog BNC 81906524940 Cheetah Dual Output TTL BNC POWER AND OTHER COMPONENTS 81903469070 Cheetah Input Blank 81903469060 Cheetah Output Blank 81906523980 Cheetah HD Dummy Load Card 81906523810 Cheetah Power Supply AC 81903469040 Cheetah Power Supply Blank 81906523970 Cheetah Frame Controller Card
34. 00 MB of available space e Operating System Microsoft Windows NT 4 0 Microsoft Windows 2000 Professional or Microsoft Windows XP Home and Pro Both the 3500 Series System Controller and the 3500 Series Control System software are inherently flexible and easily configured The 3500 Series LE software has a smaller feature set and is designed for smaller systems This subsection addresses the initial user communication setup the onboard firmware configuration and initial settings for the specific Cheetah Series chassis system s that will be placed in service Additional reference materials for this section are included in the following documents e 81 9059 0549 0 Manual 3500 Series System Controller and System Software e 81 9059 0432 0 A 03 99 3500Plus Dipswitch Setting Information Technical Bulletin e 81 9059 0551 0 Technical Bulletin 3500 Series Field Upgrade e 81 9059 0554 0 Installation Guide 3500Pro 3500 Series LE Software Proprietary Information of PESA Switching Systems 7 5 e PES A CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E 7 4 2 System Control Verification Procedure Perform the following sequence hot swap 1 Perform the pre start sequences as outlined in Sections 7 1 7 2 and 7 3 of this Chapter 2 Remove the 3500 Series card s and verify the S1 dipswitch see Figure 7 1 settings are correct for the baud rate that you are going to use If necessary refer to P N 81 9059 0432 0 A
35. ABLE CONSTRUCTION cccccccsseesssceeeeeeesesesssseeeeeceeeseesssseeceessessssseeeeeeeeseeseaaaes 8 23 FIGURE 8 18 NETWORK CONNECTORG cccssssccesceeesessssseeeeeececessesssseeeeessssssseeeeeeeeeeesessaeeeeeeeeeeseesaaaes 8 24 FIGURE 8 19 ETHERNET CONNECTOR ccccsssssceeeeeeessesssseeeeeeeeesseesssseeeesseessseeeeeeeeeeeeesaseeeeeeeeeeeesaaaes 8 24 FIGURE 8 20 TYPICAL MATRIX FRAME CONTROLLER CARDS LOCATIONS SLOT A AND SLOT B 8 25 FIGURE 8 21 FRAME AND SYSTEM CONTROL ALARM CONNECTOR eese nennen sre 8 26 FIGURE 8 22 ALARM CABLE CONNECTION AND CIRCUIT SCHEMATIC ccssseeeeeeeeeeeeee nee nennen 8 27 FIGURE 8 23 HOUSE SYNC INPUT REFERENCE CONNECTORS ccsssccccesecessesssseeeeeeceesseesssseeeeeeeeessaas 8 28 FIGURE 9 1 64 SERIES FAN ASSEMBLIES AND ASSOCIATED POWER CONNECTIONS 000sccccceeeeseessseees 9 3 Proprietary Information of PESA Switching Systems iv e PESA CHEETAH 64 SERIES TABLES 81 9059 0577 0 Rev E LIST OF TABLES TABLE 3 1 CHEETAH 64 SERIES ACTIVE COMPONENTS MATRIX cceseeeeeneeeeeeeeeeeeenaaeeeeeeeeeeeeeenaaeeeeeeees 3 2 TABLE 3 2 CHEETAH 64 SERIES CHASSIS COMPONENT PART NUMBERS eere 3 3 TABLE 5 1 STROBE SWITCH FUNCTIONS eere rennen rennen erre KN N nnne nnne 5 6 TABLE 6 1 AC POWER CONNECTORS cscccccessseeecessscceceessaceesesssaeeceessaeeessaceesesssaeeseessaeeesesssaeeseessaeeeeee 6 4 TABLE 7 1 3500 SERIES CARD S1
36. ABLES s c cns cosnssinnnsesosnosnonsenndmaednsasoandndoarasinnadneatnenimentnentes 6 1 CONNECTION GUIDE CHECKLIST ccccccccccceceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeseeeseeeeeeeeeeeeeeees 6 2 CHEETAH 64 SERIES CHASSIS SUPPLY POWER CONNECTIONS ee 6 3 Cheetah 64 Series Chassis Supply Power eese eene 6 3 Cheetah Chassis International Power Requirements eee 6 4 Proprietary Information of PESA Switching Systems i e PESA CHEETAH 64 SERIES TABLES 81 9059 0577 0 Rev E CHAPTER 7 7 1 7 2 7 3 7 3 1 7 3 2 7 3 3 7 4 7 4 1 7 4 2 CHAPTER 8 8 1 8 1 1 8 1 2 8 1 3 8 1 4 8 1 5 8 1 6 8 2 8 2 1 8 2 2 8 3 8 3 1 8 3 2 8 4 8 5 8 5 1 8 5 2 8 5 3 8 5 4 8 5 5 8 5 6 8 5 7 8 6 8 6 1 8 6 2 8 7 8 7 1 8 7 2 8 7 3 FRAME AND CONTROL VERIFICATION ssscssssossssssesssesssscesssseressseessesenes 7 1 SYSTEM PRE START VERIFICATION CHECKLIST 000000000eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeesees 7 1 SYSTEM STARTUP lt scosssassebsssdsasssswassecsasnasdiansisossnsssnnasbadaccccdecsdccsdecsdecsdecscecsdeccceccccccccccess 7 1 FRAME CONTROL VERIFICATION cccccccceeeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeseeeeeeeees 7 3 Frame Control Verification Overview esee ee eene eene nennen nnn 7 3 Frame Strobe Setting Verification eese eene eene 7 3 Frame Control Verification Procedure esses 7 3 SYSTEM CONTRO swssic
37. Cheetah video matrix routers r USER MANUAL 64NE 64XE amp 64WE VIDEO MATRIX SWITCHERS eetah Ne router 3 e PESA md Publication 81 9059 0577 0 Rev E July 2012 www PESA com e PESA CHEETAH 64 SERIES 81 9059 0577 0 Rev E Thank You for purchasing your new Cheetah signal routing equipment from PESA We appreciate your confidence in our products PESA produces quality state of the art equipment designed to deliver our users the highest degree of performance dependability and versatility available anywhere We want you to know that if you ever have a concern or problem with a PESA product we have a team of engineers technicians and customer service professionals available 24 7 365 to help resolve the issue Our commitment is to continue earning the trust and confidence of our customers throughout the industry by incorporating cutting edge technology into the highest quality most cost effective products on the market And we would like to invite you to tell us how we re doing If you have any comments or suggestions concerning your PESA equipment please contact our Customer Service Department Again thank you for choosing a PESA product and we look forward to a long term partnership with you and your facility SERVICE AND ORDERING SERVICE DEPARTMENT MAIN OFFICE ASSISTANCE Tel 256 726 9222 24 7 Tel 256 726 9200 DESA Swichina Toll Free 800 323 7372 Fax 256 726 9271 PESA Switching Systems 103 Quality C
38. Combiner Card LED Indicators Two LED indicators are located on the Output Combiner card These LEDs are described in Table 8 3 TABLE 8 3 Output Combiner Card Led Indicators LED COLOR STATUS DESCRIPTION Indicates that a control error has occurred or a loss of receive clock from the frame controller has been detected A control error COM ON includes a bad CRC of the received data incorrect number of E Red words in the message being received or corrupted data in the d message being received If a control error occurs the LED will remain on until a message with a good CRC has been received Blinking Indicates a missing receive clock error ON Indicates that the 28V 5 0V 3 7V and 4 5V power is stable us res and within normal operating parameters OFF Indicates that 28V is not stable or the 5 0V 3 7V or 4 5V power supplies are not working 8 4 INSTALLING INPUT OUTPUT BUFFER CARDS Install the input output buffer cards as follows see Figure 8 3 Screw Locking Shafts OPTION La 16 FIGURE 8 3 Input Output Signal Connectors rear view 1 Align the first input output buffer card with the card guides in the chassis 2 Carefully insert the input output buffer card into the chassis until the screw makes contact with the backplane This will align the card with its correspond
39. ESA CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 9 CHEETAH 64NE 64XE AND 64WE CHASSIS SYSTEM CONNECTION LOCATIONS See Figure 5 4 for specific system connection locations Com 3 PRC Com 1 Com 2 PRC Loop Se 3 PRC ERC LOOP System Control Alarm am S C RCP Panel Port 1 j dn UT E B Frame Control Alarm z RCP Panel Port 2 d l Output Reference Input 2 Reference Input 1 Frame Controller Ethernet FIGURE 5 4 64NE 64XE and 64WE Chassis System Interface Connector Locations and Descriptions Proprietary Information of PESA Switching Systems Rear View 5 8 CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 10 CHEETAH 64NE 64XE AND 64WE CHASSIS INPUT OUTPUT SIGNAL CONNECTORS These Input Output I O BNC coaxial connectors located on the rear of the units see Figure 5 5 provide the input output signal interface Qutputs oun 1 A that T SIS e LE e e 0 Output 64 CK e 8 e O fee o e ele e S D al Pi ON p E oe amp OOE 6 e See Inputs Input 1 Input 64 A Cheetah 64NE I O Connections E MON IC AC TC ICIC j 6 4A ums 4 Sy 4 Y yi lO O d 00018 8 6 IC IC AC 3 LN C CU C N dj FN 2 E e o y LL Y oe om e ee o o Y Pe LJ Y 6 r5 6 XC LIE E 3830 3C CE Y e D e i o je e oe e se
40. Hz EA EER 0 5 dB to 35 MHz T 3 0 dB 950 MHz Mertical Fito E E NUI ETI PIRE IDLDIPE PIDE DUPLPIDEPADER EL 0 25 50 Hz Square Wave Horizontal lp o 0 25 Crosstalk aiu tete teet ee eet x 60 dB to 5 0 MHz All Inputs and Outputs Hostile PH lt 35 dB 35 MHz High Level Analog Video Signal to Noise Signal to Noise sseeeeeeeeeeeeeee eene 70 dB RMS Noise to P P Signal to 5 0 MHZ Proprietary Information of PESA Switching Systems 4 10 e PESA CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E Chapter 5 CHEETAH 64 SERIES INITIAL SETUP 5 1 5 2 5 3 This section will describe the initial unpacking site selection procedures sequences and settings for the Cheetah 64 Series switchers UNPACKING AND INSPECTION This equipment contains electrostatic sensitive devices ESD Use a grounded wrist strap grounding mat and or comply with local established ESD procedures when handling the internal circuit cards to prevent destruction from electrostatic discharge Immediately upon receipt inspect all shipping containers Carefully unpack the equipment and compare the parts received against the packing list If any parts appear to be missing or damaged please contact PESA immediately GENERAL CHASSIS INSTALLATION OVERVIEW
41. IEW cccccccscccsseccsscccuseccuseceuseceuseceuseceussesenseses 1 1 WARNINGS CAUTIONS AND NOTES ccccccccccceecccecccccccesccucccucccecceusecseuseseneesenseees 1 1 WARNING 1 1 CAUTION E 1 1 NOTE e T MEE Mid 1 1 CHEETAH 64 SERIES INTRODUCTION eere eee eee eere eee eere eere essere tete eeeenn 2 1 CHEETAH 64 SERIES PRODUCT OVERVIEW c cccsccccecccceccccsccccsccceusccuscceuseceuteceeaeeseneeees 2 1 CHEETAH 64 SERIES SWITCHERS ANALOG SUPPORT eese eene eene 2 1 CHEETAH 64 SERIES SWITCHERS FEATURES eese Ie eee esee hheee hse enint ee 2 2 Cheetah 64 Series Switchers Features Overview nnnm 2 2 Cheetah 64 Series Switchers Standard Features see eene nnne 2 2 CHEETAH 64 SERIES CONFIGURATION MATRIX eee eee eere eere eere 3 1 CHEETAH 64 SERIES CONFIGURATION MATRIX OVERVIEW ccccccscccsscccescceeecenseceueeces 3 1 CHEETAH 64 SERIES CHASSIS CONFIGURATIONS c ccecccseccceeccceeccceecccuesccuecccueeceueesees 3 2 CHEETAH 64 SERIES CHASSIS COMPONENT PART NUMBERS ecce 3 3 CHEETAH 64 SERIES VIEWS AND SPECIFICATIONS eee eere 4 1 CHEETAH 64NE FRAME VIEWS ccccccccccccccssssseccccscceeuessseecccssceeeeuesusseececsssseuuueeeeceess 4 CHEETAH 64XE AND 64WE FRAME VIEWG ccccccccccccseecccccesscsccuesecsceuececscuussesesseuenecs 4 3 CHEETAH 64NE 64XE AND 64WE SPECIFICATIO
42. II keys are concatenated onto a string In addition entry of the DELETE or BACKSPACE keys will cause the last character that was entered to be removed from the character string In verbose mode all ASCII characters entered into the serial port are echoed back The DELETE and BACKSPACE keys cause control characters to be echoed that cause the cursor to move back deleting the last character input In terse mode the input characters are not echoed back After a command has been executed the debug port will output the appropriate response if any followed by a Carriage Return Linefeed and the gt character The receipt of the gt character indicates that the next command is ready to be entered Proprietary Information of PESA Switching Systems 10 7 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 2 Verbose Mode The verbose mode responses include text information and formatting that describe the command response in terms that can be read by a user that is using a terminal interface to the debug port i e Human Machine Interface HMI e Ctl C Aborts the current command and starts new command line with a new prompt e Ctl V Verbose Response Mode default Causes responses to be returned in a verbose mode fit for human consumption of data plain language 3 Terse mode This mode outputs minimal information that fully describes the necessary response data Its intent is to be read from
43. If any of following LED conditions are different than specified perform troubleshooting sequences to correct the problem s prior to placing the system in service On the Power Supply module the Power OK LED is illuminated green b Onthe 64x64 Matrix module the following LEDs are illuminated e 28 green e 43 3 green e 2 5 green c On the Matrix Frame Controller MFC the following LEDs and LED display are illuminated single or dual modules e Single module the Control Status display indicates OSNGL OK red e Dual modules the Control Status display of the active module indicates Active OK while the other module indicates Standby e Active green illuminated on single and Active modules only e 28 green e 5 green e 3 green d On each of the Input and Output modules the Power LED is illuminated green e PERC2000 Series System Controller module s only If one or two PERC2000 cards are installed in the Cheetah chassis verify on each system controller card that the following conditions exist 1 Both the PWR IN and REGS OK LEDs are lit 2 Verify the ACTIVE LED is illuminated With a dual PERC2000 System Controller configuration verify that the ACTIVE LED is illuminated on only one of the controller cards f 3500 Series System Controller module s only If one or two 3500 Series cards are installed in the Cheetah chassis verify on each system controller card that the following
44. ND 64WE REAR CONNECTOR VIEW cccceeeeeeeeeeeeeen eene nennen 4 5 FIGURE 5 1 CHEETAH 64NE CHASSIS STROBE SWITCH LOCATION AND SETTINGS FRONT VIEW 5 4 FIGURE 5 2 CHEETAH 64XE AND 64WE CHASSIS STROBE SWITCH LOCATION AND SETTINGS 5 5 FIGURE 5 3 CHEETAH 64NE 64XE AND 64WE CHASSIS MATRIX BACKPLANE SWITCHES 5 7 FIGURE 5 4 64NE 64XE AND 64WE CHASSIS SYSTEM INTERFACE CONNECTOR LOCATIONS AND DESCRIPTIONS REAR VIEW ccccccccccccessessssneeeeeeeeeseessseeeeeeeesseeseeeeeeesseessseeeeeeeeseeesssseeeeeseeeeeesaaaes 5 8 FIGURE 5 5 CHEETAH 64 SERIES INPUT OUTPUT SIGNAL CONNECTORS REAR VIEWS ccccccceeeeeeeeeeeees 5 9 FIGURE 6 1 CABLES ATTACHED TO SUPPORTS ccccccssssscceseeceessessneeeeeeceseeesssaeeeeseseesseeeeeeeeeeessssseeeeeees 6 1 FIGURE 6 2 POWER SUPPLIES CONFIGURATION cccssssceceeccessesssnseceeeeeeeseessssseeeeecessssseeeeeeeeeseesssaeeeeeees 6 3 FIGURE 7 1 3500 SERIES CARD DIPSWITCH LOCATIONS SET FOR 9 600 BAUD RATE ccccccceeeeeeeeeeeees 7 6 FIGURE 8 1 CHEETAH 64 SERIES CHASSIS POWER SUPPLY LOCATIONS FRONT VIEWS sees 8 2 FIGURE 8 2 POWER SUPPLY LED INDICATORS AND TEST POINTS ccccccseessseeeeeceesseessnseeeeeeeesseesaaaees 8 3 FIGURE 8 3 INPUT OUTPUT SIGNAL CONNECTORS REAR VIEW cccccccccccsssesssseeeeeceeeseessneeeeeeeessesssaaeees 8 6 FIGURE 8 4 3500 SERIES SYSTEM CONTROLLER BOARD ASSEMBLY FRONT VIEW cccccccceeeeeeeeeee
45. NS eee eene 4 6 CHEETAH 64 SERIES INITIAL SETUP eee eee eee eee eee eee eerte ettet tetto 5 1 UNPACKING AND INSPECTION cccceeeeeeenee eee e he enhn esee hene hh se n t ese ESEESE SS 5 GENERAL CHASSIS INSTALLATION OVERVIEW ccccccscccssecccscccuseccuseceuseceuseceuseceuseeses 5 1 CHOOSING A LOCATION ccccccecccceeccceeccccccecccceccuseceueceuseceseecessecessecessesenesensesenseses 5 1 MOUNTING A CHEETAH 64NE 64XE AND 64WE CHASSIS IN AN EQUIPMENT RACK 5 2 SETTING CHEETAH 64NE 64XE AND 64WE CHASSIS LEVEL CODES STROBES 5 3 Cheetah 64NE Chassis Strobe Switch Location and Settings eese 5 4 Cheetah 64XE and 64WE Chassis Strobe Switches Location and Settings 5 5 Cheetah 64 Series Chassis Strobe Switch Functions eese 5 6 CHEETAH 64NE 64XE AND 64WE CHASSIS POWER SUPPLY BACKPLANE SWITCHES 5 7 CHEETAH 64NE 64XE AND 64WE CHASSIS INPUT OUTPUT BACKPLANE DIP SWITCHES 5 7 CHEETAH 64NE 64XE AND 64WE CHASSIS MATRIX BACKPLANE SWITCHES 5 7 CHEETAH 64NE 64XE AND 64WE CHASSIS SYSTEM CONNECTION LOCATIONS 5 8 CHEETAH 64NE 64XE AND 64WE CHASSIS INPUT OUTPUT SIGNAL CONNECTORS 5 9 CHEETAH 64NE 64XE AND 64WE FUSE LOCATIONS AND ASSIGNMENTS 5 10 CHEETAH 64 SERIES CABLE INSTALLATION AND POWER CONNECTIONS M X Mr 6 1 CONNECTING EQUIPMENT C
46. P e Appendix C PESA Matrix Frame Controller Debug Port Protocol e Appendix D Abbreviations Acronyms and Definitions AA amp D 10 1 APPENDIX A ETHERNET CONFIGURATION The Matrix Frame Controller supports a variety of interfaces via the Ethernet interface These include NET PRC HTTP HyperText Transfer Protocol web SNMP Simple Network Management Protocol and Telnet To configure this access the following items will need to be configured refer to Table 10 1 The network server automatically assigns the IP Address Subnet Mask specification and Gateway specification when the Dynamic Host Configuration Protocol DHCP is enabled TABLE 10 1 Ethernet Configuration NAME USAGE DEFAULT DHCP On Off Automatically obtain an IP address from On a DHCP server on the network IP Address When DHCP is disabled allows a fixed 0 0 0 0 IP address to be assigned to the Matrix Frame Controller Subnet Mask When DHCP is disabled allows the 0 0 0 0 specification of the subnet mask for the IP address Gateway When DHCP is disabled allows the 0 0 0 0 specification on the default gateway Telnet On Off Enables or disables the Telnet server On Telnet Port Allows the specification of the TCP port 23 to be used by the Telnet server Telnet Password Specifies the password for telnet access lt blank gt NETPRC Master Slave Enables or disables the NETPRC server Slave Note that the SNMP agent is dis
47. R DER P cane te seeiaeteenan sete A AAAA AA BNC NUMDED NE LLLI One Two Optional Standard Analog Video Gain Characteristics Ga cco cic EP Unity GaS taby M lt 0 1 dB Gain Adjust Range eee etetetetelolaceduse Da ced ese Dazu e cu e aae o taa ed Sada e ERO 0 5 dB Standard Analog Video Linear Distortion Prequency Response recreere EAR NEE EE TEE EEEN 0 1 dB to 10 MHz E E EE E E OE A 0 5 dB to 35 MHz Cp 3 0 dB 950 MHz Vertical TiD cia ichaiataschasatasttasatanttaranastbarabinecieceetacecevecaveratocevecateuecabns 0 25 50 Hz Square Wave PAZ al M kic M 0 2596 Bo WIBLEQUENCY T 10 296 ms max with 10 Overshoot eren MI M 10 90 or 90 10 change Standard Analog Video Pulse and Bar Responses Factor PANE c M 0 2 K P ls Bar CIONCUTUEIEELM M R m 0 2 K Pulse Sharp eeir e a e eE ELM ILE I DD oe EAEEREN 0 2 K Continued Proprietary Information of PESA Switching Systems 4 8 e PESA CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Cheetah 64NE 64XE and 64WE Specifications cont Standard Analog Video Chrominance Luminance Gainudnequiby e erecti t E a A DIS IDSD IE 1 0 max Ib EVA rz uin 1 0 ns Standard Analog Video Non Linear Distortions Note All tests 10 to 9096 3 58MHz or 12 5 to 87 596 4 43M
48. Response e Power Supplies Address 1 to 16 WC xxxxOD1 xxxx OD2 xxxx OD3 xxxx OD4 xxxx OD5 xxxx OD6 xxxx OD72xxxx OD8 xxxx CRC xxxx Total Errors xxxx e Output Monitor Address 17 WC xxxxOD1 xxxx OD2 xxxx OD3 xxxx CRC xxxx Total Errors xxxx Comment e This syntax describes the status and or the specific component information 13 CL Clear Error Syntax e CL IIOIOOIPIMIS addr Where I Input O Output OO Output Option P Power Supply M Matrix S System lt addr gt slot or board address Response Comment e Clears the total number of errors for the specified board Proprietary Information of PESA Switching Systems 10 13 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 14 ST System Temperature Syntax e ST IIOIOOI MIP Where I Input O Output OO Output Option M Matrix P Power Supply Response e Temperature Frame Controller lt hex gt lt dec gt Output Monitor lt hex gt lt dec gt lt type gt lt hex gt dec lt hex gt dec Where lt hex gt is the hex number for the temperature lt dec gt is the decimal number for the temperature lt type gt is the board type INPUT OUTPUT etc The data following the type is the hex dec temperature in Celsius for each board of the specified type in the system Comment e This syntax describes the status and or the specific component information Pr
49. Status Syntax e CO Response e PRC status NET PRC status NET PRC Connections lt num gt Where status is IDLE ERROR or OK numo is the number of Ethernet PRC connections Comment e Indicates whether we are receiving commands from the PRC port or the NETPRC port NETPRC indicates the number of connections currently active Proprietary Information of PESA Switching Systems 10 10 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 7 SS Switch Status NOTE Output Monitor only on digital matrix systems Syntax e SS Output M Where Output is the output to be switched M indicates to switch the monitor matrix Default is the primary matrix Response e Output out Input in Level lev Where out is the output number in is the input number currently switched to the output lev is the level MAIN or MONITOR for the switch status 8 RC Roll Call Syntax e RCk lt IIO IM ISI OO gt lt A B gt Where I Input O Output OO Output Option M Matrix S System Board A Port A B Port B Response e RollCall Port port Type type lt data gt Where port is A or B type is INPUT OUTPUT MATRIX or SYSTEM data is the multiple 8 bit data bytes used to indicate a boards exists in the frame Comment e Roll Call is used to determine if a board exists in the system which port the board is used to communica
50. TION ON Indicates that the 28Vpower is stable and within normal operating 428V Green parameters OFF Indicates that 28V is not stable or power supplies are not working ON Indicates that the 3 3Vpower is stable and within normal operating 3 3V Green parameters OFF Indicates that 3 3V is not stable or power supplies are not working ON Indicates that the 2 5Vpower is stable and within normal operating 2 5V Green parameters OFF Indicates that 2 5V is not stable or power supplies are not working Table continued on next page Proprietary Information of PESA Switching Systems 8 11 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E Table 8 5 cont LED COLOR STATUS DESCRIPTION Indicates that a control error has occurred or that a loss of receive clock from frame controller has been detected A control error ON includes a bad CRC of the received data incorrect number of words in the message being received or corrupted data in the message being Ctrl Err Red received The LED will remain on until a message with a good CRC has been received Blinking Indicates a missing receive clock error OFF No alert conditions are present In Use Yellow ON Indicates that a crosspoint on the matrix card is activated Yellow These surface mount LEDs indicate whether the card is On the communicating with the frame controller via communications port A Port A B ON i PCB or B
51. abled in Slave mode Table Continued on next page Proprietary Information of PESA Switching Systems 10 1 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E TABLE 10 1 Ethernet Configuration cont NAME USAGE DEFAULT NETPRC Port Allows the specification of the TCP port 1000 to be used by the NETPRC server Read Community Specifies the read community string for public the SNMP agent Write Community Specifies the write community string for Private the SNMP agent Trap Community Specifies the trap community string for public the SNMP agent Traps On Off Enables or disables SNMP trap Off generation Authentication Traps Enables or disables SNMP Off On Off Authentication failure trap generation Trap Target IP Specifies the IP address to receive SNMP 0 0 0 0 traps The configuration of these fields are accessed via the DB 9 RS 232 connector on the Matrix Frame Controller Communication parameters for this serial interface default to 38400 baud no parity eight 8 data bits and one 1 stop bit Proprietary Information of PESA Switching Systems 10 2 PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E Upon connection to the serial interface via a communications program such as HyperTerminal enter the command ET for Ethernet at the gt prompt The current Ethernet settings will be displayed note that these settings are unavaila
52. and Allocations The power supplies are located on the front of the frame as shown in Figure 8 1 64NE Chassis ae foco ooo 90008 po od onis C iS mmc Power Supplies 64XE and 64WE Chassis j WiiiecsL ls 7 m Power Supplies FIGURE 8 1 Cheetah 64 Series Chassis Power Supply Locations Front Views Proprietary Information of PESA Switching Systems 8 2 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 1 3 LED Indicators and Test Points Three LED indicators and two test points are located on the front of the power supply as illustrated in Figure 8 2 The LED indicators are described in Table 8 1 PWR OK TEMP CURRENT 28V Test Point not labeled on the panel GND FIGURE 8 2 Power Supply LED Indicators and Test Points TABLE 8 1 Power Supply LED Indicators LED COLOR STATUS DESCRIPTION PWR Green ON Indicates that the 28V power is stable and within normal operating OK parameters Tem Red ON Indicates there is an over temperature condition in the power supply P This must be corrected immediately Current Red ON Indicates there is an over current condition in the power supply This must be corrected immediately 8 1 4 28V Test Points The test point labeled 28V is used to determine by measurement whether 28VDC power is present bare metal of the chassis can be used for the ground negative potential Proprieta
53. ard been detected A control error includes a bad CRC of the received data incorrect number of words in the message being received or corrupted data in the message being received In the case of a control error the LED will remain illuminated until a message with a good CRC has been received Blinking Indicates a missing receive Remove and re insert the board clock error If the condition continues replace the board Indicates that the 28V 5 0V ON 3 7V and 4 5V power is None stable and within normal Power Good Green operating parameters Indicates that 28V is not stable Remove and re insert the board OFF or the 5 0V 3 7V or 4 5V If the condition continues replace power supplies are not working the board Port A Port B Indicate whether the board is Surface Yellow ON communicating with the frame None Proprietary Information of PESA Switching Systems 9 7 PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E TABLE 9 4 Input Board LEDs LED COLOR STATUS DESCRIPTION ACTION REQUIRED Control Error Red ON Indicates that a control error has occurred or a loss of receive clock from frame controller has been detected A control error includes a bad CRC of the received data incorrect number of words in the message being received or corrupted data in the message being received In the case of a control error the LED will remain illuminated until a message wi
54. atic selection of 143 Mb s 177 Mb s 270 Mb s 360 Mb s mcMcED 540 Mb s and 1 5 GB s Reference Sync Inputs NO OK TAMU ess 2 standard COMMECUOL siccicsiesstetsbassestspecsdetenecetelesndeiodesadebetsnesde lesions 75Q BNC Returm LOSS aiseasssesacssnsesnasvanandasvscaneabssoareaboacnnaonvdeccacsvendseonetededenoncess gt 40 dB 100 KHz to 30 MHz Signal Formats cccccsescccccceeeeeeeenneeeeeeeeessneeeeeees NTSC PAL Black Burst or HD Tri Level Qi Sync per SMPTE 274 SMPTE 276 M signal Level ettet teret aped edo a pese aiaiai Nominal 1 0 V p p 6dB DAC Card Specifications Connector Ty per ccieiita seshetan 75Q BNC Connection Card 1 eee better tended dido d dedos do d decre ded daese 16 Individual Outputs eon 10 bit Serial Digital to Analog Over samplil b eese eret terere ete eet e ste e ped EE Ne FE RUE Pe e epe PER RYE PaL EP RU OET o aA Saa EAEE 4X OUI Repeater dites neuter tcn trtdu Lett M EU Eu ED M dur NTSC PAL Cooling Internal cooling fans with auto sensing speed adjustments Control Panel COnN d RS 485 3 pin WECO 4 per frame Control Com eee RS 232 or PESA PRC for PERC2000 or 3500 Series System Connector VY Pete cece casa isi 9 pin D sub female Network Connector prinesie ia aA RJ 45 Etherne
55. ble via the Telnet interface For example gt et MAC address 02 02 02 02 02 02 SERIAL AAAAAA000000001 DHCP ON IP address Subnet mask Def Gateway NETPRC MASTER NETPRC port 1000 TELNET ON TELNET port 23 TELNET pass RCOMM public WCOMM private TCOMM public TRAP OFF AUTH OFF TARGET 000 000 000 000 192 168 000 002 Proprietary Information of PESA Switching Systems 192 168 000 104 gt 255 255 255 000 10 3 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E Help on how to change one of these settings can be obtained by entering the command HE ET for Help Ethernet at the gt prompt For example gt he et gt et NS ET lt DHCP ONJOFF IP addr GW addr SN addr DP port TN ON OFF TP tport TL pass RCOMM str WCOMM str TCOMM str TRAP ON OFF AUTH ON OFF TARGET addr NP MASTER SLAVE gt Where DHCP ON enables client automatic IP address negotiation IP addr allows you to set the IP address of the PMFC GW addr allows you to set the gateway address SN addr allows you to set the subnet mask DP port allows you to set the NETPRC IP port TN ON enables the on board telnet server TP port allows you to set the telnet port TL pass allows you to set the telnet login password where addr is in dotted notation ex 192 168 1 1 where port is in the range 1000 65535 where tport is in th
56. case of a control error the LED will remain illuminated until a message with a good CRC has been received Blinking Indicates a missing receive Remove and re insert the board clock error If the condition continues replace the board In Use Yellow ON Indicates that a crosspoint on None oe the matrix card is activated Indicates that the 28Vpower is ON stable and within normal None 428V Green operat ng parameters Indicates that 28V is not stable Remove and re insert the board OFF or the 3 3V or 2 5V power If the condition continues replace supplies are not working the board Indicates that the 3 3V power 3 3V Green ON is stable and within normal None operating parameters Indicates that the 2 5V power 2 5V Green ON is stable and within normal None operating parameters Port A Port B Indicate whether the board is Surface Yellow ON communicating with the frame None controller via communications port A or B Proprietary Information of PESA Switching Systems 9 6 PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E TABLE 9 3 Output Board LEDs mounted on the PCB controller via communications port A or B LED COLOR STATUS DESCRIPTION ACTION REQUIRED Control Error Red ON Indicates that a control error Remove and re insert the board has occurred or a loss of receive If the condition continues replace clock from frame controller has the bo
57. conditions exist 3 Dual 3500 Series System Controller module configurations e If both 3500 Series System Controller modules active standby switches are in the Standby or Active position then Frame Slot A determines the active module Otherwise the active module is selected by the individual module s switch settings 4 Any 3500 Series System Controller configuration the Active amber on the active module and Run green LEDs are illuminated Proprietary Information of PESA Switching Systems 7 2 e PESA CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E 7 3 7 3 1 7 3 2 7 3 3 5 At the end of this sequence there should be no LED indicators that are blinking or any red LEDs illuminated on any of the I O and Matrix modules cards If so perform troubleshooting to correct the status before proceeding to the next step or section 3 Startup Sequence complete Proceed to Frame Control Verification Section 7 3 FRAME CONTROL VERIFICATION Frame Control Verification Overview Frame control verification is required to verify Cheetah chassis component operations and isolate abnormalities prior to connecting peripheral equipment to the system To assist the user this verification sequence uses a graphic user interface GUI that is communicating directly with the chassis Matrix Frame Controller MFC for the diagnostic portion of the sequence The following equipment documentation is required
58. connect a 10baseT RJ 45 LAN connector to the System Controller Ethernet jacks Configure the Ethernet settings as described in the Appendix If SNMP management of additional Cheetah Switchers is to be utilized connect the switchers using the Frame Controller Ethernet connectors Configure the Ethernet and SNMP settings as described in the Appendices If desired connect an external alarm to the System Control Alarm for further connection compliance information refer to Chapter 5 for connector pin outs If desired connect an external alarm to the Frame Control Alarm for further connection compliance information refer to Chapter 5 for connector pin outs Connect the video sources to the video inputs using Belden 8281 coaxial cable or equivalent 75Q coaxial cable Connect the video outputs to the video destinations using Belden 8281 coaxial cable or equivalent Proprietary Information of PESA Switching Systems 6 2 e PESA CHEETAH 64 SERIES CHAPTER 6 81 9059 0577 0 Rev E 6 3 CHEETAH 64 SERIES CHASSIS SUPPLY POWER CONNECTIONS All Cheetah frames have two AC receptacle power inputs As depicted in Figure 6 2 each AC power input is filtered full wave bridge rectified and then fed to the power supply to be diode OR d with the other rectified power inputs to the system supply Cheetah System MOV Power DC Power Filter i Supply IN Cheetah MOV 2 Power Filter Supply FIGURE 6 2 Power Supplies Configuration
59. cs teactaactuaet a ETHER APRI UUNN EUN EON REPRE EUR URNA EEES Direct DC bc A Balanced COD TIeCLOE HEREIN LEE EUER IER RURER UON LL ERE GERE GERE LEGE LEUR GR RR LR RR aa LER ERE GEAR LEAL CL ATL eS Dee EP Dos BNC High Level Analog Video Output Characteristics Levels eene PIRA ERN E E AT 5 0 V Referred to Ground Imped nce ui REOR REL CERLE RE COSE EE REEL dua 75Q internally terminated Return LOSS tris ciiecssietiasitictiasibiatiantiaathantbantanananteccdccedeccdccedeccddcedeccdccededcdcccseccss gt 40 dB to 5 0 MHz E 15 dB to 50 MHz CoUuplimpg tociens lI EID Mp MU Ee E M d Lf cecus Direct DC DC OM UE lt 50 mV CONMECLOR ss sieieieietetatetetataletetatatatataiatalataiaialie eh Mua ada asa ada ada du Od ed eit BNC ud mc One Two Optional Continued Proprietary Information of PESA Switching Systems 4 9 e PESA CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Cheetah 64NE 64XE and 64WE Specifications cont High Level Analog Video Gain Characteristics Gaim aaea a a tects E E A EE EERE Unity Gaim Stabiliys itii ieu belussu ed Vestae inea EARR RR AA A E T EOE R lt 0 1 dB Gain Adjust Range tette ertet erre I HI A C edd dede du ida ud ed Pd dedi Sai siini 0 5 dB High Level Analog Video Linear Distortion Frequency ResSporse eee ee Ee TEE ERU EEU plane EDO LA FL PEDE aside DG 0 1 dB to 10 M
60. d fiber optic Input Buffer Card LED Indicators Two LED indicators are located approximately in the middle of the Input Buffer card s service connection faceplate The illumination actions of these LEDs are described in the Table 8 2 TABLE 8 2 Input Buffer Card LED Indicators LED COLOR STATUS DESCRIPTION ON Indicates that an invalid CRC has been detected COM Red Error NUT Indicates a loss of communication from the frame controller Blinking This LED can only be reset when a valid CRC is received Indicates that the 28V 4 8V 4 3V and 3 5V power is ON T PWR stable and within normal operating parameters Good Green Indicates that 28V is not stable or the 4 8V 4 3V or OF 3 5V power supplies are not working OUTPUT COMBINER CARD Output Combiner Card Overview Each output combiner card provides 16 output connections from the system After the signals are combined the data rate selection switch selects between video re timers or bypass mode for non standard data rates The output combiner is available in either SDI or HD multi rate versions each of which can support option cards for dual output BNC or fiber option output The SD can also support a 10 bit digital analog DAC card The HD MR card can support HD to SD conversion as an option card Proprietary Information of PESA Switching Systems 8 5 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 3 2 Output
61. e range 23 1000 65535 RCOMM str allows you to set the SNMP read community string WCOMM str allows you to set the SNMP write community string TCOMM str allows you to set the SNMP trap community string TRAP ON enables SNMP traps AUTH ON enables authentication traps TARGET addi allows you to set the trap target IP address NP MASTER SLAVE sets the NETPRC type of the PMFC MAC address 02 02 02 02 02 0a SERIAL 4 EEEEEE000000001 DHCP ON IP address 192 168 000 114 Subnet mask 255 255 255 000 Def Gateway 192 168 000 002 NETPRC SLAVE NETPRC port 1000 TELNET ON TELNET port 23 TELNET pass RCOMM public WCOMM private TCOMM public TRAP OFF AUTH OFF TARGET 000 000 000 000 For example to set the read community string to pesa enter gt ET RCOMM pesa and press return To view your changes wait for the gt prompt and enter ET Proprietary Information of PESA Switching Systems 10 4 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 10 2 APPENDIX B SNMP The Cheetah Matrix Frame Controller contains an SNMP v2c agent which is also compatible with SNMP v1 management stations The agent supports the following standards RFC 1903 SNMPv2 Textual Conventions RFC 1904 SNMPv2 Conformance Statements RFC 1905 SNMPv2 Protocol Operations RFC 1906 SNMPv2 Transport Mappings RFC 1907 SNMPv2 SNMP MIB Objects RFC 1908 SNMPv1 Coexistence
62. eatures of the three Cheetah Series models are as follows 64NE non expandable outputs no output options and redundant crosspoints matrix cards 64XE expandable to 64x128 outputs with output options and no redundant crosspoints 64WE non expandable outputs with output options and redundant crosspoints Proprietary Information of PESA Switching Systems 3 2 e PELA CHEETAH 64 SERIES CHAPTER 3 81 9059 0577 0 Rev E 3 3 CHEETAH 64 SERIES CHASSIS COMPONENT PART NUMBERS Refer to Table 3 2 TABLE 3 2 Cheetah 64 Series Chassis Component Part Numbers STANDARD MAINFRAME COMPONENTS 81906526750 64NE Mainframe Assembly 81906526900 64WE Mainframe Assembly 81906526760 64XE Mainframe Assembly 81906523810 Power Supply 81903469040 Power Supply blank 81906523970 Frame Controller Cards E E PERC2000 System Controller Card s P N determined by software inclusion 3500 System Controller Card s INPUT CARDS CHNE INPUT 3G BNC Cheetah Input Buffer 3Gb BNC ONLY CH INPUT 3G FIB Cheetah Input Buffer 3Gb with singlemode fiber CH INPUT 15G FIB Cheetah Input Buffer 1 5Gb with singlemode fiber CH INPUT DEMUX BNC Cheetah Input card with audio de embed CH INPUT 3G BNC Cheetah Input Buffer 3Gb with BNC 81906527180 Cheetah Input Buffer SD BNC 81906523040 Cheetah Input Buffer HD MR BNC 81906526120 Cheetah Input Buffer Fiber 8190652432
63. eeeees 8 8 FIGURE 8 5 64X64 VIDEO CROSSPOINT MATRIX CARD DIAGRAM eene e eene ener nennen 8 10 FIGURE 8 6 64X64 VIDEO CROSSPOINT MATRIX CARD LEDS sss nnns 8 11 FIGURE 8 7 MATRIX FRAME CONTROLLER eene erre eene ee erinnnnn sese enn ntrrs sess enne tren nnns sss e eene nennen 8 13 FIGURE 8 8 8 CHARACTER DISPLAY ccsssseeeeseeeeeeneeee nnne eene n enhn nnnnn nent r ann s sisse sentent nsns sees rra nns 8 15 FIGURE 8 9 MFC DIPSWITCH LOCATIONS ccccccccessesssseeeececesseessseeeeeeceesssaeeeeeeecesessssaeeeeeeeeeseessaaaes 8 17 FIGURE 8 10 RS 232 CONTROL CONNECTORS ccccccecseessseceeeeeeeeseessneeeeeeeecessessaseeeeeeseesssseeeeeeeeseeeeaaaes 8 18 FIGURE 8 11 RS 422 COM 3 PRC CONTROL CONNECTOR cccsccsssseeeeeeeeeseessseeeeeeeeeseeessseeeeeesessaees 8 19 FIGURE 8 12 SYSTEM CONTROL ALARM CONNECTOR c ccccccccesssssssseeeeececessessseeeeeeeeeseesseeeeeeeeseessaaaes 8 20 FIGURE 8 13 ALARM CABLE SETTING AND ASSOCIATED SCHEMATIC ccccceesssseeeeeceessessssseeeeeeeeeenees 8 21 FIGURE 8 14 PRC LOOP CONNECTOR ccccssssceeececeseesssseeeeeeeeeeesesseeeeesseesssseeeeeeeeesseessaseeeeeeeeeeeeeaaaes 8 22 FIGURE 8 15 RS 422 SYSTEM EXPANSION CABLE ccsssssceseeeeesesssseeeeeececesessssaceeeeeccsssaeeeeeeeeeeesesaaaes 8 22 FIGURE 8 16 RCP PANEL PORT CONNECTORS ccccccsesssseeeceeeeeseessneeeeeeeeeseessseeeceeseessseeeeeeeeeeeesaaaes 8 23 FIGURE 8 17 RS 485 C
64. eislajeialodideialadiieiaiad il siehdtenmeoeeeteen 20 VV SLING ease cue ect sae veers E a AO 60 90 Ibs 40 82 kg Nominal depending on the configuration Supply Power Requirements Operating voltage deu de ee Lees Leto eie Robe es iac Plu Ee Pac Eu Da eo 95 240 VAC 47 63 Hz POWEr CONSUMPULONS oerte bate ie 650Watts Maximum Power Supplies DC Input from the source rectification filter breaker assy 95 VDC to 240 VDC eren EP 28 VDC Maximum Output Watts 00 eceesssseeccessnceecessnaeeceesaaeeceessaeeessaeeeeessaeeseesaeeseessaeeeeees 600 Watts Digital Electrical Signals for Inputs Standards eere eer e bra High Definition video conforming to SMPTE 292M pU TEETH Serial Digital video conforming to SMPTE 259M Connector TYPE Ar e 750 BNC lino M 75Q nominal Return Loss eese ene eren nene nnne HD gt 15 dB from 5MHz to 1 5 GHz Mac uA mE EIE e Y SD 15 dB from 5 MHz to 540 MHz Cable Equalization eee HD Automatic up to 100 meters Belden 8281 m cp pH SD Automatic up to 300 meters Belden 8281 Electrical Signals for Outputs Connector Type c 75Q BNC output card E T 75Q BNC dual output card Signal Leyel 23 2 m eneore ensororarero tana kana aE ren E E 800 mV p p 10 Signal Polarity eese Non inverti
65. en frames are added to the system This setting accepts 1 to 255 in binary 1 to FF in hexadecimal Set this strobe to the first input number you want to use for this unit This LSB Input Offsets setting must match the Input Offset setting in the 3500 S6 Series software select Configuration gt Component The Input Offset displays in the lower section of the window S7 Not Used Not installed or assigned S8 LSB Frame Specifies the type of frame the boards are plugged into Proprietary Information of PESA Switching Systems 5 6 e mes A CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 6 CHEETAH 64NE 64XE AND 64WE CHASSIS POWER SUPPLY BACKPLANE SWITCHES There are no Power Supply backplane switches in the Cheetah 64NE 64XE and 64WE chassis configurations 5 7 CHEETAH 64NE 64XE AND 64WE CHASSIS INPUT OUTPUT BACKPLANE DIP SWITCHES There are no Chassis Input Output Backplane dipswitch settings required for the Cheetah 64NE 64XE and 64WE chassis configurations 5 8 CHEETAH 64NE 64XE AND 64WE CHASSIS MATRIX BACKPLANE SWITCHES The matrix backplane switches in the Cheetah 64NE 64XE and 64WE chassis configurations are preset at the factory and should not be adjusted other than the settings shown in Figure 5 3 FIGURE 5 3 Cheetah 64NE 64XE and 64WE Chassis Matrix Backplane Switches Proprietary Information of PESA Switching Systems 5 7 P
66. er PESA Part No 81 9065 2360 0 Proprietary Information of PESA Switching Systems 9 1 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E 9 1 3 Fan Replacement Sequences The fans that are used in all Cheetah chassis configurations are continuous duty ball bearing 24VDC brushless circulating fans In operation the fans are voltage controlled by the power supplies which receive feedback from the system heat sensors That is as the heat increases the fan voltage is increased thus increasing the fan circulating speed and vice versa All fan assemblies in Cheetah chassis are hot swappable All fan assemblies used in the Cheetah Series switchers have a continuous duty rating of 40 000 hours It is recommended that predicted failure and or preventive maintenance schedules be implemented to replace fan assemblies during scheduled maintenance periods for fan assemblies that have exceeded 30 000 to 35 000 hours of operation Since the fans are electro mechanical devices they will eventually fail due to wear All fan assemblies are monitored for proper operation and a system alarm is initiated whenever a fan is not operating correctly or has failed Only authorized personnel should attempt repair or replacement of fan components Potential injury or equipment damage exists during fan replacements Always disconnect power to the fan prior to any fan replacement Cooling is an integral
67. er HD SD frames thus allowing for easy future migration to full digital Power supplies and matrix control cards are the same for Cheetah 64 series analog versions Proprietary Information of PESA Switching Systems 2 1 e IPERS A CHEETAH SERIES SWITCHERS CHAPTER 2 81 9059 0577 0 Rev E 2 3 2 3 1 2 3 2 CHEETAH 64 SERIES SWITCHERS FEATURES Cheetah 64 Series Switchers Features Overview All Cheetah 64 series 64NE XE and WE video matrix switchers offer alarm support switch confirmation block checking and power out of range indicators A key feature of the 64NE and 64WE switchers is the Matrix Watchdog redundant crosspoint matrix option For critical routing requirements of live on air situations or other critical distribution facilities a redundant crosspoint can be added to automatically swap over in case of failure This feature is offered as an option in our basic configurations The Watchdog option includes monitoring capabilities to alert personnel of a crosspoint failure The Cheetah 64XE is an extremely flexible routing switcher that can be configured in three ways First the 64XE expands outputs for a basic 64X128 configuration similar to the 64WE model Next the 64XE is offered as a 64X64 that offers output option slots for in frame format conversion cards In this configuration three options are available e HD to SDI down conversion e SDIto Composite Analog Video DAC e Fiber Outputs e Dual Ou
68. erre ren nennen 8 6 3500 SERIES SYSTEM CONTROLLER CARDS si siiisessscsressarsenrsansassersentsassavsansenssunsesshiaiseai s 8 8 CND sass P 8 8 SED A E athe uiti Diete eat eas sve uous ETE 8 8 SSLZUMPU MED M 8 8 Battery ON OFF Select Switcli c eene tet eee eee e rita aee keep ex eeepc he ES OAS ces sape saves 6 8 nO sue 6 8 MOUe d RR ERR I II II IIR OIN EINE 6 8 D Up C M n 8 9 64X64 VIDEO CROSSPOINT MATRIX CARD ceeeeeeeeeeeeen nene ennemis 8 10 64x64 Video Crosspoint Matrix Card Overview eese eene 6 10 64x64 Video Crosspoint Matrix Card LED Indicators eene 6 11 MATRIX FRAME CONTROLLER MFC seen eene tnnt tet 8 13 MEG LED IndiCatOTSs iicet eceeteeeee teet acc ia a da 6 14 MFC 8 Character Display sees eene eene nnn eene nennen nnne 6 15 MFC Switch Locations and Settings S1 and 82 esses 6 17 Proprietary Information of PESA Switching Systems ii e PESA CHEETAH 64 SERIES TABLES 81 9059 0577 0 Rev E 8 8 8 8 1 8 8 2 8 8 3 8 8 4 8 8 5 8 8 6 8 8 7 6 8 8 CHAPTER 9 9 1 9 1 1 9 1 2 9 1 3 9 1 4 9 2 9 2 1 9 2 2 9 2 3 9 3 9 3 1 9 5 2 9 4 9 5 9 6 CHAPTER 10 10 1 10 2 10 3 10 4 REAR PANEL CONNECTORS ssssseeccceccceeesssseccceceeceeeseeeccceeeeecesaaaeseeccess
69. etah 64 series chassis configurations The blank covers if necessary are required for the card locations that are not used to satisfy chassis component cooling requirements Table 3 2 includes PESA part numbers for the corresponding Cheetah 64 Series cards power modules and other components Proprietary Information of PESA Switching Systems 3 1 PESA CHEETAH 64 SERIES CHAPTER 3 81 9059 0577 0 Rev E 3 2 CHEETAH 64 SERIES CHASSIS CONFIGURATIONS Table 3 1 contains values for the maximum card module configurations for the Cheetah 64 series frame sizes TABLE 3 1 Cheetah 64 Series Active Components Matrix CHEETAH COMPONENT SELECTION REQUIREMENTS AND MAXIMUM QUANTITIES 64 SERIES FRAME Power Matrix Matrix Input Input Input Output Output Output Output Dual Output Output Supplies Frame Card Buffer Buffer Buffer Combiner Combiner Option Option Output Option Option Controller HDMR Fiber Cards SDI HDMR Fiber DACSD Option HD to HD MR SDI BNC SD to SD 64NE 2 2 I 4 4 4 4 4 0 0 0 0 0 Matrix 64x64 Watch dog 64XE 2 2 1 4 4 4 1 to 8 1 to 8 0 to Oto Oto4 Oto 0 to 64x64 4k 4 4 4 64XE 2 2 2 4 4 4 1 to 8 1to8 0to4 0to4 Oto4 Oto4 0to4 64x128 64WE 2 2 I 4 4 4 4 4 4 4 4 4 4 Matrix Watch dog Matrix Crosspoint Card Dependant upon configuration 64x64 64x80 64x96 64x112 or 64x128 The basic configuration f
70. exhaust air is been removed resulting in lower unobstructed and is being properly total power improper cabinet vented away from the cabinet cooling due to exhaust air verify filter media is clean and obstructions or because an unobstructed tbe viddn pow cr Supply as Tent If the fans are working the panels are in place no obstructions to the exhaust air and the Temp LED is still on then replace the power supply OFF No alert conditions are present None Current Red ON There is an overcurrent condition Check to make sure all of the other in the power supply power supplies are functional the PWR OK LED is on If the other power supplies are functional and the Current LED is still blinking then replace the power supply OFF No alert conditions are present None Proprietary Information of PESA Switching Systems 9 5 PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E TABLE 9 2 Matrix Board LEDs mounted on the PCB LED COLOR STATUS DESCRIPTION ACTION REQUIRED Control Error Red ON Indicates that a control error Remove and re insert the board has occurred or a loss of receive If the condition continues replace clock from frame controller has the board been detected A control error includes a bad CRC of the received data incorrect number of words in the message being received or corrupted data in the message being received In the
71. ger Keyboard Commands CNTL T Terse Mode does not echo received characters CNTL V Verbose Mode echoes received characters Response e HELP provides a list of the available commands Comment e Displays a summary of the commands available with a brief description of what they do Also displays a summary of the control key codes The response for this is the same for both verbose and terse modes AL Alarm Syntax e AL Response Comment e Responds with an enumeration of alarms that are currently active in the frame controller RE Reset Board Syntax e RE Response Comment e The Reset Board command RE must be entered twice in a row before the frame controller will be reset 10 9 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 4 5 6 SW Switch Crosspoint NOTE Output Monitor only on digital matrix systems Syntax e SW lt Output gt lt Input gt M lt syne gt Where lt Output gt is the output to be switched lt Input gt is the input to be switched M indicates to switch the monitor matrix Default is the primary matrix sync is the sync number 0 or 1 to switch to AC Active Status Syntax e AC Response e SINGLE single frame controller in system ACTIVE active frame controller in dual system STANDBY inactive frame controller in dual system Comment e Indicates whether the board is active or standby CO Communications
72. h Power Supply is responsible for providing a regulated 28VDC 922A to the switching frame The Cheetah Power Supply is designed to operate automatically with input AC line voltage ranges from 95 240 VAC and with AC line frequencies of 50 60 Hz All Cheetah power supplies have built in over current protection circuitry When two supplies are used each supply is electrically connected to a common dedicated buss within the chassis and from there to the fuse block for overcurrent protection and distribution Additionally each power supply contains dual internal fan controller systems that are isolated from the main DC power output buss connections Depending on the chassis there are dependent power supply installation configurations to satisfy the fan operations In a two supply system one supply module becomes the master and the other becomes the slave In the event of a Cheetah Power Supply failure return the malfunctioning unit to the PESA Service Department for replacement The power supplies contain lethal voltages when operating and should be serviced only by the PESA Service Department Please call PESA s Service Department for a RMA number before returning any units for replacement The Service Department s phone number is listed on the front page of this manual Proprietary Information of PESA Switching Systems 8 1 e PES A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 1 2 Cheetah Series Chassis Power Supplies Locations
73. hz Intterential Gain tette treten eee eu ee aee eee ese eua e detecte 0 25 4 43 MHz Iowrdbudbng EE lt 2 0ns 50MHz to 85 MHz Differential PASC w sccsssasssassaccnaassaccnnassacannnaanrnnnrnnarececcceecedecececedecedececedcccesecees 0 25 4 43 MHz Line Time Non Lieartty sccsiscssscssvsstenssvsstoucsnsstananaesegnuenushasaneslesedapticccedessactescessesodegecneasebs cases 0 2 Transient Gait s sscccscssnsstatetetetatetatetacetacetecebetatatebecdecedccs 1 0 Luminance Chrominance or Sync Video Crosstalk eeeeeeeeeeeeeee lt 60 dB to 5 0 MHz all Inputs and Outputs Hostile T UU 35 dB 35 MHz Standard Analog Video Switching Characteristics Switchimns Lime es eee tette Re bo vate pa Led Led cas LUE tus Eoo OU Rose Se lt 1 0 us Switching Transient cccccccccceesessscneeceeeeeseeennaeeeeeeeeeaneeeeeeeeeeeeeenaeeeeeees 22 mV 30 IRE Units Differential Delay any Input to any Output eese Approx 8 5ns EPUM MPH NNODMIE EM EM E T 11 3 58 MHz LE E OEE 13 5 4 43 MHz Standard Analog Video Signal to Noise Video Filtet oisein 70 dB RMS Noise to P P Signal to 5 0 MHz High Level Analog Video Input Characteristics Level E EEEE E EI E S 5 0 V Referred to Ground IHrpedatCcezeotoeofue fup AAA AEE EOE T 75Q internally terminated EE A EE E E EN gt 40 dB to 5 0 MHz A E N gt 15 dB to 50 MHz Couplilg S aac
74. ify the card LEDs status and Active Standby switch position as follows e Single 3500 Series card installed a The Active Standby switch is in the Active position b The Run green LED is illuminated c The Active amber LED is illuminated e Dual 3500 Series cards installed a Verify one card s Active Standby switch is in the Active position and the other card s switch is in the Standby position Note that with any other switch configuration the active card will be system selected by which card is in chassis A slot b On the Active card the Run green LED is illuminated and the Active amber LED is illuminated c On the Standby card the Run green LED is illuminated and the Active amber LED is extinguished 6 Refer to the 3500 Series System Controller and System Software manual and perform the following d Verify the 3500 Series controller is communicating COM1 properly with the PC e Verify the system configuration matrix is loaded on the 3500 Series controller card firmware If not reload the system configuration in the controller firmware f Verify the system confidence for the configuration matrix That is all system components in the system configuration matrix have communication capabilities e g handshaking with the 3500 Series System Controller g Perform a routine diagonal active test sequence as outlined in the 3500 Series System Controller and System Software manual s diagnostic tool
75. ing Systems 8 9 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 6 64x64 VIDEO CROSSPOINT MATRIX CARD 6 6 1 64x64 Video Crosspoint Matrix Card Overview The 64x64 Video Matrix Card selects one of 64 inputs to each of 64 outputs Input signals from the input buffer card are buffered to the input of a high speed matrix The output of the matrix is again buffered and sent to the output combiner cards Each matrix card contains input buffer chips octal bus transceivers that drive into a single 64x64 crosspoint configuration see Figure 8 5 SD Input Std Analog gt Hp inipit High Level Analog ea des SD Output LEE y 64x64 Std Analog Crosspoint Input Matrix Card E Level E Input Control Dual E Frame HD to SD B Conversion 1 5Gb s HD Output Fiber FIGURE 8 5 64X64 Video Crosspoint Matrix Card Diagram Proprietary Information of PESA Switching Systems 8 10 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 6 2 64x64 Video Crosspoint Matrix Card LED Indicators Five LED indicators are located on the 64x64 matrix card faceplate as illustrated in Figure 8 6 and described in Table 8 5 e 28V e Green 3 3V e 2 5V Red CTRL ERR Yellow Amber IN USE FIGURE 8 6 64X64 Video Crosspoint Matrix Card LEDS TABLE 8 5 64X64 Video Crosspoint Matrix Card LED Descriptions LED COLOR STATUS DESCRIP
76. ing backplane contact block 3 Secure the screw using a hex socket or a flathead screwdriver As the screw is been tightened the card will be automatically seated into the contact block on the backplane 4 Repeat the above steps for each additional input output buffer card Proprietary Information of PESA Switching Systems 8 6 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 5 Reverse the order for removal of the card Dipswitch settings for information only are detailed in the specific Chapter for the chassis configuration that you have These dip switches are set at the factory Do not change the settings Proprietary Information of PESA Switching Systems 8 7 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 5 3500 SERIES SYSTEM CONTROLLER CARDS The Cheetah may contain up to two 3500 Series System Controllers see Figure 8 4 If the primary controller fails the secondary controller automatically resumes all of the primary controller functions The System Controller working in conjunction with the 3500 Series Control System software enables users to configure and operate a switcher system from a standard IBM compatible PC The System Controller interfaces between the routing switcher and all user controlled elements including RCPs PCs etc Based upon configuration data input during setup and installation the System Controller sends appropriate I O control signals to
77. ircle Suite 210 Fax 256 726 9268 Huntsville AL 35806 USA Email service pesa com www pesa com 2012 2008 2005 PESA Switching Systems All Rights Reserved Microsoft Windows and Windows NT are either registered trademarks or trademarks of Microsoft Corporation in the United States and or other countries No part of this publication including text illustrations tables and charts may be reproduced stored in any retrieval system or transmitted in any form or by any means including but not limited to electronic mechanical photocopying recording or otherwise without the prior written permission of PESA All information illustrations and specifications contained in this publication are based on the latest product information available at the time of publication approval The right is reserved to make changes at any time without notice Printed in the United States of America July 2012 Original Printing December 2005 Proprietary Information of PESA Switching Systems PESA CHEETAH 64 SERIES TABLES 81 9059 0577 0 Rev E CHAPTER 2 2 1 2 2 2 3 2 3 1 2 3 2 CHAPTER 3 3 1 3 2 3 3 CHAPTER 4 4 1 4 2 4 3 CHAPTER 5 5 1 5 2 5 3 5 4 5 5 D321 3 2 2 5 5 3 5 6 5 7 5 8 5 9 5 10 5 11 CHAPTER 6 6 1 6 2 6 3 6 3 1 6 3 2 TABLE OF CONTENTS ABOUT THIS MANUJAL eeeeeeeeeee eee ee gene vere vene ene eee ee nee eee NER Eee av ER Nee EN NER NEN 1 1 DOCUMENTATION AND SAFETY OVERV
78. is is a None surface mount LED located on the PCB Port A Port B Indicate whether the board is Surface Yellow ON communicating with the frame None mounted on the controller via communications PCB port A or B 9 2 3 Unresolved Troubleshooting Problems If the troubleshooting information and sequences in this section did not resolve your problem you should contact PESA s Customer Service Department for further assistance The contact information for the Customer Service Department appears in Section 9 6 and on the front cover of this document Proprietary Information of PESA Switching Systems 9 9 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E 9 3 REPAIR Before attempting to repair this equipment consult your warranty documents and or PESA s Customer Service Department Unauthorized field repairs may void your warranty Only Qualified service personnel using appropriate equipment should service the Cheetah Series power supply assemblies in this equipment Consult PESA Customer Service before attempting to repair any of the PC cards in this equipment 9 3 1 Replacement Parts Only parts of the highest quality have been incorporated in the design and manufacture of this equipment If the equipment s inherent stability and reliability are to be maintained replacement parts must be of the same high quality For selection of exact replacement parts or for acceptable
79. munications Summary This display window is used as an overview of all system components Verify the status for each component 4 is indicating green and there are no errors being displayed 5 Frame Control Verification is complete Exit the ViewPort program and disconnect the serial cable from the PC and MFC If your system includes the 3500 Series controller module s proceed to System Control Section 7 4 Proprietary Information of PESA Switching Systems 7 4 e PESA CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E 7 4 3500 SERIES SYSTEM CONTROL This subsection only applies to Cheetah Series systems that are equipped with 3500 Series card s module s 7 41 System Control Overview The 3500 Series System Controller is a full featured microprocessor based unit that is designed to interface with various configurations of PESA video and audio routing switchers The 3500 Series System Controller working in conjunction with the 3500 Series Control System software provides a Graphic User Interface GUI that enables users to configure and operate a routing switcher system from a standard IBM compatible Personal Computer PC that has the following minimum requirements e Processor 500 MHz or above e Memory 128 MB of RAM or more e Monitor 800X600 SVGA or better e Serial Port One serial port available from COMI through COM4 available for CPU Link use Minimum of a 16550 UART preferred e Hard Disk 1
80. nections can be completed Use the following guide to insure that Cheetah Switcher system interconnections are properly connected and that the control power sync and video cables are correctly installed for further detailed information refer to the corresponding sub section in this Chapter 1 12 13 14 Connect the external sync sources to the reference inputs using Belden 8281 coaxial cable or equivalent Be sure to properly terminate the external sync sources into 75Q Connect the primary external computer to the COM 1 Connector using a 9 pin RS 232 cable Please note that this connection must be made to configure the internal System Controller using the 3500 Series Control System software package If a secondary external computer is to be used connect it to the COM 2 Connector If additional Cheetah Switchers are to be utilized as part of the switching matrix connect the PRC Loop jack on the primary Cheetah Switcher to PRC Loop jack on the other Cheetah Switcher using 5 pin ribbon cables If an external controller such as the 3500 Series System Controller is used to control the Cheetah Switcher connect the external controller to COM 3 PRC using 9 pin RS 422 cable Connect the RCP control panels to the RCP Panel Ports 1 and or 2 using twisted pair cables while observing polarity refer to Chapter 5 The connections to the control panel may be daisy chained If Ethernet connectivity is desired system controller
81. ng physical portion can begin This section assumes that the basic troubleshooting starting sequence has been completed and the actual system troubleshooting sequence has begun 9 2 2 Subassembly LEDs Cheetah Series equipment has been designed to provide the user with basic monitoring and diagnostic system information If the Cheetah equipment fails to operate correctly check the appropriate LEDs listed in the following Tables Tables 9 1 through 9 4 for the system s individual components cards modules for information concerning their and the system s operational status and suggested actions to perform accordingly Proprietary Information of PESA Switching Systems 9 4 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E TABLE 9 1 Power Supply LEDs LED COLOR STATUS DESCRIPTION ACTION REQUIRED ON 28V power is stable and within None normal operating parameters PWR OK Green OFF Power is not present Check supply voltage and fuses Replace the power supply Temp Red ON 28V power is not within normal If this alert appears on multiple operating parameters power supplies ensure that all of the power supplies are properly installed If only one power supply appears with this alert replace it There is an over temp condition in Check the fans and make sure all the the power supply This can occur access panels are in place Verify the either because a power supply has cabinet cooling
82. ng with respect to input ports Impedance C niaise EEEE AOO ERER 75Q nominal Return Loss 4 eere bee HEP eL E aiaia HD gt 15 dB from 5MHz to 1 5 GHz A MD e ee EE SD gt 15 dB from 5MHz to 540 MHz Optical Signals Fiber Optics for Inputs Receivers Connector Type 2 eoe Peter rte rerba read SFF modules w LC type fiber card Data RAtes C 143 Mbps to 1 485 Gbps Optical Input Wavelength eeeeeeeeseeeeeessneeeeeesaaeecessaesesseeeeessaaeees Single Mode 1310 nm Input POWEL corsie ee oE EEEE EEEE spsaetane 20 dBm minimum Continued Proprietary Information of PESA Switching Systems 4 6 e PESA CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Cheetah 64NE 64XE and 64WE Specifications cont Optical Signals Fiber Optics for Outputs Transmitters Connector Typ renererien ensina SFF modules w LC type fiber card Data Rates EE 1 0 Mbps to 1 485 Gbps Optical Output Wavelength eeeeeee Single Mode 1310 nm 20 nm Output POWEFE erriren oee E E E E E EOE AE ENE OE E sa 34d eoe pus PANE Ehi 11dBm to 3dBm Optical Loss Budget 10 000 km minimum Single Mode fiber w 2 optical couplings 9 0 dB minimum Signal Operational Specifications Polarity T M RR All paths non inverting Re clocking SD Automatic selection of 143 Mb s 177 Mb s 270Mb s IDPORTA D C 360 Mb s 540 Mb s Re clocking HD Autom
83. ond MFC Matrix Frame Controller MIB Management Information Base MSB Most Significant Bit NETPRC NET work PESA Routing Controller NTSC National Television Standards Committee PAL Phase Alternating Line PC Personal Computer typically IBM compatible PCB Printed Circuit Board or Parts Component Board when populated with components PIE Protocol number 1 Extensions PESA defined PRC PESA Router Controller RCP Remote Control Panel RMA Return Material Authorization SD Standard Definition SDI Standard Definition Interface SFF Small Form Factor SNMP Simple Network Management Protocol SNR Signal to Noise Ratio SPDT Single Pole Double Throw switch SPST Single Pole Single Throw switch syntax The structural or grammatical rules that define how the symbols in a language are to be combined to form words phrases expressions and other allowable constructs TCP Transmission Control Protocol or Transfer Control Point TCP IP Transmission Control Protocol Internet Protocol AA amp D continued on next page Proprietary Information of PESA Switching Systems 10 21 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E AA amp D continued AA amp D DESCRIPTION DEFINITION Telnet Telephone Network USB Universal Serial Bus Intel USER NOTES Proprietary Information of PESA Switching Systems 10 22
84. oprietary Information of PESA Switching Systems 10 14 PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 15 VE Version of Software Syntax e VE Response e LOADER ver INSTALLER ver PMFC ver FPGA ver Matrix Cards ver ver Input Cards ver ver Output Cards ver ver Output Option Cards ver ver Power Supply Cards ver ver Output Monitor Card Comment date date date Ver Ver Ver Ver en lt ver gt lt ver gt e The version command provides the version number and date for each software module in the system If a software module does not exist then Invalid is displayed 16 VT Vertical Trigger Syntax e VT AIB Where VT no port change VT A change to Port A VT B change to Port B Response Comment e This syntax describes the status and or the specific component information The vertical trigger command forces the cards in the system to use the specified port A or B as the primary data link Proprietary Information of PESA Switching Systems 10 15 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 17 DT Dual Takeover Syntax e DT Response Comment e Allows the Standby Frame Controller to take over control of the frame 18 EC Error Count Syntax e EC IIOIOOIMIPIS Where I Input O Output OO Output Option M Matrix P Powe
85. or non standard data signals 143 0Mbs to 3 0Gbs e Output option slots support dual output fiber output DAC module for SDI conversion to analog outputs SD Converter and HD to SDI converter down converter e Supports for SNMP monitoring and diagnostics e Full redundant controllers available e All modules are hot swappable for on air maintenance Proprietary Information of PESA Switching Systems 2 3 e PELA CHEETAH 64 SERIES CHAPTER 3 81 9059 0577 0 Rev E Chapter 3 CHEETAH 64 SERIES CONFIGURATION MATRIX 3 1 CHEETAH 64 SERIES CONFIGURATION MATRIX OVERVIEW This section includes a list of all of the major components for the Cheetah 64NE 64XE and 64WE Video Matrix Switchers chassis frames models When discussing output options and expandable outputs the meanings are as follows e Output Options pertains to which cards can go into a particular output slot in the frame for a specific configuration s This includes cards that offer signal expansion or conversion such as dual outputs HD to SDI down conversion Digital to Analog conversion and electrical copper to fiber conversion Option cards are offered as piggy back modules that plug onto the base output combiner card e Expandable Outputs pertains to the number of outputs that a particular frame can be expanded beyond the basic configuration e g 80 96 112 or 128 outputs Table 3 1 includes only the active cards that are required for the individual Che
86. ower filter assembly has been designed for 95 240VAC which includes connectors and cords specified to handle maximum power requirements Cheetah Chassis International Power Requirements All Cheetah frames have two AC Main power feeds which are isolated from each another All international power requirements are pre configured at the factory and commercially available prefabricated power cords designed for the power source that the equipment will be operating are supplied with each unit As in the United States international operation with one power supply is the normal non option condition An optional second redundant backup power supply is available Typical full frame power consumption is approximately 6 0 Amps or approximately 650 Watts at 240 VAC nominal regardless of the number of power supplies in use Proprietary Information of PESA Switching Systems 6 4 e PESA CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E Chapter 7 FRAME AND CONTROL VERIFICATION This section addresses the system components frame and control verification sequences that should be performed prior to energizing the system and placing the system in service Attention to this section will minimize system startup and in service malfunctions 7 14 SYSTEM PRE START VERIFICATION CHECKLIST A system pre start verification checklist includes a visual inspection to account for basic setup functions that if incorrect could result in immediate s
87. part of the Cheetah system operation Any fan alarm must be addressed and corrected as soon as possible Continued operation of the equipment during a failed fan s condition could result in catastrophic equipment failure Replace switcher fan assemblies only with PESA approved replacement fan assemblies All PESA approved fan securing 6 hardware should be tightened to no more non lubricated than a torque values of 9 6 inch pounds and 8 hardware to no more than 17 8 inch pounds There are two types of fan assemblies that are used for the Cheetah series which are as follows e Surface mount fan assembly fan is mounted externally to the surface of the chassis e Flush mount fan assembly fan is mounted internally and is flush with the surface of the chassis This section will address the replacement sequences for each type of assembly in the Cheetah 64 Series chassis Proprietary Information of PESA Switching Systems 9 2 e PES A CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E 9 1 4 Cheetah 64 Series Fan Replacements These switchers are equipped with two surface mounted fan assemblies see Figure 9 1 that are easily removed from the rear exterior of the chassis Upper Fan Assembly Lower Fan Assembly Power Cord Connection Power Cord Connection FIGURE 9 1 64 Series Fan Assemblies and Associated Power Connections Perform the following sequence to replace a faulty fan assembly
88. pendix FRAME CONTROL FIGURE 8 18 Network Connectors LED indicators are provided as follows see Figure 8 19 and refer to Table 8 11 M To Yellow LED B Green LED FIGURE 8 19 Ethernet Connector TABLE 8 11 Ethernet LED Indicators LNK ON Ethernet LINK established 100M ON The Ethernet connection speed is 100Mb s OFF The Ethernet connection speed is 10Mb s To connect the cards to the network do the following 1 Set the IP address Subnet mask Gateway address and Trap address on Matrix Frame Controller and System Controller to addresses approved by the Network Administrator Proprietary Information of PESA Switching Systems 8 24 e CS A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 2 Using a straight through RJ 45 Ethernet cable connect the Ethernet jacks to a 10 100BASE T hub or switch on the TCP IP network The Slot A Network Frame Control is for the Matrix Frame Controller in Slot A The Slot B Network Frame Control is for the Matrix Frame Controller located in slot B The Slot A System Control is for the System Controller located in Slot A The Slot B System Control is for the System controller located in slot B see Figure 8 20 for typical slot locations System Controller Cards Slot A Slot B Slot A Slot B Matrix Frame Controller Cards FIGURE 8 20 Typical Matrix Frame Controller Cards locations Slot A and Slot B Proprietary Information of PESA S
89. r Supply S System Response e Board Type error count error count Comment e Response gives the number of error counts for all of the boards in the frame for the board type that was specified 19 TM Get Set Time Syntax e TM lt mm dd yy gt lt hh mm ss gt Response Comment e Gets sets the Frame Controller s real time clock Proprietary Information of PESA Switching Systems 10 16 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 20 SY Sync Status Syntax e SY 112 Where 1 indicates sync 1 and 2 indicates sync 2 Response Comment e Indicates the sync reference being detected by the frame controller card 21 PM Power Management Syntax e PM IIOIMISIPIOO P sslot ON OFF gt Where I Input O Output M gt Matrix S gt System P gt Power Supply OO Output Option Slot is the specific card ON gt DC Board Power is ON OFF gt DC Board Power is OFF PM IIOIMISIPIOO will display DC Power Status for every board of the specified type PM lt I O MIS1P1OO gt lt slot gt will display DC Power Status for a specific board of the specified type Response Comment e Allows you to remotely turn power on off to individual cards in the system Proprietary Information of PESA Switching Systems 10 17 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 22 OOB Output Option Board Status 23 24 Syntax
90. r s suggested torque settings Install the equipment into the rack as follows 1 Carefully remove the equipment from the packing container and place the unit near the rack where it will be installed 2 Insert the chassis into the equipment rack and support the bottom of the chassis while the mounting hardware is being installed Install the bottom two chassis mounting screws Install the top two chassis mounting screws Install any remaining chassis mounting screws Ov Ue e m Tighten all of the chassis mounting screws until they are secure Release remove the support from the bottom of the chassis Proprietary Information of PESA Switching Systems 5 2 e PESA CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 5 SETTING CHEETAH 64NE 64XE AND 64WE CHASSIS LEVEL CODES STROBES This subsection will be divided into the following two subtopics e Cheetah 64NE Chassis Strobe Switch Locations and Settings e Cheetah 64XE and 64WE Chassis Strobe Switch Locations and Settings Set the level codes strobes BEFORE installing the matrix frame controller card To set the level codes for all Cheetah Series chassis use the rotary switches to define a hexadecimal number Use the settings in the LSB row lower row first For example to set the Level Strobe to 12 set the LSB Level Strobe switch to C Switch functions are described in the corresponding Table for the specific chassis You must ensure that these settings match the
91. rame Verification Procedure perform troubleshooting sequences to correct the problem s prior to proceeding to the next step 3 At the PC access the ViewPort software program and establish communication with the MFC the module s RX and TX LEDs will be flashing green and yellow respectfully 4 While using the ViewPort GUI and referring to the packing list specification sheet verify the following Occasionally there may be recorded errors during the initial startup sequence However they typically can easily be reset when the clear function is initiated a b c d e Under the Cheetah directory click on Frame Controller Status Verify there are no alarms and the MFC configuration single or dual is correct as per your specification Under the Cheetah directory click on Inputs Verify there are no errors and the input module card configuration is correct as per your specification Under the Cheetah directory click on Outputs Verify there are no errors and the output module card configuration is correct as per your specification Under the Cheetah directory click on Matrices Verify there are no errors and the matrix module card configuration is correct as per your specification Under the Cheetah directory click on Power Supplies Verify there are no errors and the power supply module configuration is correct as per your specification Under the Cheetah directory click on Com
92. ration options Proprietary Information of PESA Switching Systems 8 13 PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 7 1 MFC LED Indicators The matrix frame controller LED indicators are described in Table 8 6 TABLE 8 6 Matrix Frame Controller LED Indicators LED COLOR STATUS DESCRIPTION Indicates that the 28V power is stable and within normal Green ON 428V operating parameters Red ON Indicates that 28V power is not stable This LED when on green indicates that the 5V power is Green ON As j 5V stable and within normal operating parameters Red ON Indicates that 5V power is not stable Indicates that the 3V power is stable and within normal Green ON 43V operating parameters Red ON Indicates that 3V power is not stable PRC EE TX Rx Green ON Indicate that PRC traffic is being transmitted or received 422 cR E f Tx Rx Green ON Indicate that RS 422 traffic is being transmitted or received ACT f TOM NET Green ON Indicates that network activity is present LNK Green ON Indicates that a network connection exists UN Green ON Indicates that a sync signal is present Active Green ON Indicates the active controller when dual controllers are in use Reset Red ON Indicates that the controller is in Reset mode Rx Green ON Indicates that Receive data is being received Tx Yellow ON Indicates that Transmit data is being transmitted
93. rm status of the power supply FAN OK er 8 FAN BAD Shows the alarm status of the fan circuit Proprietary Information of PESA Switching Systems Table continued on next page 8 15 PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E TABLE 8 7 8 Character Display Messages cont PAGE MESSAGE DESCRIPTION FENA Describes whether the system is communicating via the PRC bus If so it PRO UE indicates whether it has detected any errors on the PRC communication bus PRC BAD i A ae we Describes whether the system is communicating via the Network Communication NET BAD If so it indicates whether there have been any errors detected B SYNI NO This indicates whether a valid SYNC 1 is present The type of sync is encoded in SYNI XX the XX C SYN2 NO This indicates whether a valid SYNC 2 is present The type of sync is encoded in SYN2 XX the XX XXX XXX This is the first half of the IP address of the frame controller s network node E XXX XXX This is the second half of the IP address of the frame controller s network node INE OK F INE BAD Indicates whether there are any errors detected on any input cards OTE OK G OTE BAD Indicates whether there are any errors detected on any output cards MTX OK H MTX BAD Indicates whether there are any errors detected on any matrix cards J EOE Indicates whether th detected ly card PSB BAD Indicates whether there are any
94. roprietary Information of PESA Switching Systems 5 1 e PESA CHEETAH 64 SERIES CHAPTER 5 81 9059 0577 0 Rev E 5 4 MOUNTING A CHEETAH 64NE 64XE AND 64WE CHASSIS IN AN EQUIPMENT RACK The mounting configurations for each chassis differ slightly because of physical size and weight The 64NE chassis is 4 Rack Units RU in height while the 64XE and 64WE chassis are 6RU in height The weight of a fully loaded 64NE chassis is 60 Ibs nominal while the 64XE and 64WE chassis weigh 90 Ibs nominal dependant on the configuration Installation or removal of this equipment requires at least two persons in order to avoid possible personal injury or equipment damage Install this equipment in such a manner as to avoid any tipping hazard from uneven loading of the rack Make sure that all power is disconnected Lockout Tagout before installing the specific frame into the rack Fans that are mounted on this equipment provide forced air cooling Do not block airflow around these fans Replace all service panels and blank filler plates Keep the chassis door closed during normal operation This equipment is designed for installation in a standard 19 equipment rack Provide sufficient space behind the equipment racks to allow for control signal power cables and free airflow after all cables are installed Use all chassis mounting holes and tighten mounting hardware securely by using the rack equipment manufacture
95. ry Information of PESA Switching Systems 8 3 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 1 5 Installing the Power Supplies Install each power supply as follows 1 Align the metallic support plate of the first power supply vertically with the card guides in the chassis 2 Press upward on the power supply latch located on the front bottom of the assembly and carefully insert the power supply into the chassis until the connectors on the power supply make contact with the backplane connectors 3 Firmly push the power supply unit into the chassis until the power supply latch engages the corresponding slot in the chassis The latch on the power supply acts as a retainer latch and a power ON OFF switch for the unit 4 Make sure the latch is fully engaged down and secured mated into the corresponding slot in the chassis to enable energize the power supply Refer to the appropriate chassis location and allocation descriptions for the total amount of power supplies that are required for proper operation Each slot must have either a power supply or a blank installed Refer to the specific section in the manual for the correct slots for your configuration If applicable repeat the above Steps for the remaining power supplies 8 1 6 Removing the Power Supplies To remove a power supply follow these steps you may remove power supplies while the Cheetah system is operational
96. s preset members The first connects source 1 to destination 1 on level 2 The second connects source 2 to destination 2 again on level 2 Both are set to utilize the synchronization signal A REF 1 on the Cheetah back panel snmpset 192 168 0 106 c private pesaPresetStatus 1 i 2 PESA MATRIX MIB pesaPresetStatus 1 INTEGER active 2 snmpset 192 168 0 106 c private pesaPresetMemberRowStatus 1 2 1 i 1 PESA MATRIX MIB pesaPresetMemberRowStatus 1 2 1 INTEGER active 1 snmpset 192 168 0 106 c private pesaPresetMemberS yncSource 1 2 1 b syncA PESA MATRIX MIB pesaPresetMemberS yn cSource 1 2 1 BITS 80 syncA 0 snmpset 192 168 0 106 c private pesaPresetMemberSourceNum 1 2 1 u 1 PESA MATRIX MIB pesaPresetMemberSourceNum 1 2 1 Gauge32 1 snmpset 192 168 0 106 c private pesaPresetMemberRowStatus 1 2 2 i 1 PESA MATRIX MIB pesaPresetMemberRowStatus 2 2 1 INTEGER active 1 snmpset 192 168 0 106 c private pesaPresetMemberSyncSource 1 2 2 b syncA PESA MATRIX MIB pesaPresetMemberS yn cSource 2 2 BITS 80 syncA 0 snmpset 192 168 0 106 c private pesaPresetMemberSourceNum 1 2 2 u 2 PESA MATRIX MIB pesaPresetMemberSourceNum 2 2 Gauge32 2 snmpset 192 168 0 106 c private pesaTakePreset O u 1 PESA MATRIX MIB pesaTakePreset 0 Gauge32 1 Note that if you specify sources destinations or synchronization sources which are unknown to the agent
97. s used in a dual controller system to designate the primary controller and the backup controller Set the Mode switch to ACTIVE on the primary controller and to STANDBY on the backup controller In a single controller system this switch has no effect Proprietary Information of PESA Switching Systems 8 8 PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 5 7 LEDs The 3500 Series System Controller board has three LEDs which are described in Table 8 4 TABLE 8 4 3500 Series System Controller LEDs LED COLOR PANEL NORMAL TROUBLESHOOTING INFO LEGEND STATE LEDI RED None OFF Controller board is in RESET state or is in program LED is download mode located on the PCB LED2 GRN RUN ON Indicates that input voltage to this board is within design parameters If LED is OFF 1 Remove and reinstall board to verify backplane connector is properly seated 2 Check power supplies for proper operation 3 Contact PESA Customer Service LED3 YEL ACTIVE ON Indicates that the board is currently in active control of a routing switcher system v In a dual controller system the primary controller ACTIVE LED will be ON and the backup controller ACTIVE LED will be OFF If the LED is OFF 1 Remove and reinstall board to verify backplane connector is properly seated 2 Ensure the board has been configured to be active 3 Contact PESA Customer Service Proprietary Information of PESA Switch
98. seuauaaneeecees 8 18 RS 232 Control Connectors COM 1 and COM 2 sse enne 6 16 RS 422 Control Connectors COMS PRC esses eene nennen nnnnes esee nnn 6 19 System Control Alarm Connector eese ee eene eene ennemi nnns 6 20 PRC Loop Connector i e e t ERREUR CUIU E Ee eed quo FEE Ko bs Ca oo EU D beans biden OR REREO 6 22 RCP Panel Port Connectors eee sese eene eene er eeo re i esee nennen nennen 6 23 Network ETT CX 6 24 Frame and System Alarm Connectors aee ennnnnn nne 6 26 House Synchronization Input Connectors eese eee 6 26 MAINTENANCE AND REPAIR eese eere entes nee ena sets ases stessa etas et ens sens 9 1 MAINTENANGE mm 9 1 Maintenance Overview esses essen eene nnn net SEESE S ESRR SS 9 1 LUNO AM E P 9 1 Fan Replacement Sequences eaae ee ease teet etra eene eaea aa EEEE at sonata toten anna 9 2 Cheetah 64 Series Fan Replacements eese 9 3 TROUBLE SHOOTING eter eotete ntpote ea cu n iri Deere e queo t dassicaascec seedsevscatecec cecedserdbdeee 9 4 Troubleshooting Overview eese eee nenns seen nennen seen nnne 9 4 Subassembly LEDSs ies enie EEEE Eni Ea eee t tnn a asset hash nana ese eee estan nane 9 4 Unresolved Troubleshooting Problems eene 9 9 dug c EE 9 10 Replacement Prts ue ocecccccecutiscceceseeececestesx eese europe
99. sssssscocesensssssssisosanssoiissnssbsonbsasnnnsnnccdicccccecsscdeceseccsccessdestesseccesesaseses 7 5 System Control Overview ccccscssccccceeeseesssnnceeceeeeseeesanaaeecceeeeseaeeeeeeeeeeeesuaaeeeeceeeeeeeenaaaes 7 5 System Control Verification Procedure eese eene 7 6 OPERATIONAL DESCRIPTIONS AND CARD MODULE INSTALLATIONS 8 1 CHEETAH SERIES POWER SUPPLIES cccccccccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeneneees 8 1 Cheetah Series Power Supply Information eene een 6 1 Cheetah Series Chassis Power Supplies Locations and Allocations 6 2 LED Indicators and Test Points eee Ree uela pea se ee ko euo AR FERRE teense 6 3 HDS V Lest V P 6 3 Installing the Power Supplies eese enne nennen nennen nnne nene 6 4 Removing the Power Supplies eese esee eene nnne enne nene 6 4 INPUT BUPBER CARD RP RRTRERCRCRCRCRKCRCTC m 8 5 Input Buffer Card Overview etes eet etie chev age a Fa Sole FEE AE Eo FAR REP EET Rao ER 6 5 Input Buffer Card LED Indicators eese eene nennen nnns 6 5 OUTPUT COMBINER CARD sassssssisssssssessbessbelasassbalssossbalsbabsbelsbabebecceccecccdaceccccdadeccddccdecedede 8 5 Output Combiner Card Overview esee eene nennen nennen nnns 6 5 Output Combiner Card LED Indicators eee nennen 6 6 INSTALLING INPUT OUTPUT BUFFER CARDS ssse I eee
100. strated in Figure 8 16 provide RS 485 serial communication interfaces using the PESA RCP Protocol Document No 81 9062 0300 0 SS i i TAANI js AEREE D COM 3 PRC PRC LOOP FRAME f 7 CONTROL FIGURE 8 16 RCP Panel Port Connectors These RCPs are connected to PESA Remote Control Panels with daisy chained cables constructed with RCP connectors Part No 81 9029 0780 0 and shielded twisted pair cable Part No 81 9028 0043 2 Belden 8451 or equivalent as illustrated in Figure 8 17 The connector body has an integral strain relief which requires the use of a nylon cable tie which is included with the connector If cable tie is not available use PESA Part No 81 9021 0028 8 81 9029 0811 0 to Panel Port Connector S 81 9029 0780 0 to Remote Control Panel pss High 1 9 1 High Low 3 e 2 Low Shield S 2 T H 3 Shield S LA eri es Cable is not pin for pin Pins 2 and 3 are swapped FIGURE 8 17 RS 485 Cable Construction Proprietary Information of PESA Switching Systems 8 23 e IPES A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 8 6 Network Connectors The RJ 45 Ethernet connectors illustrated in the Figure 8 18 connect the Matrix Frame Controllers and System Controllers to a 10 or 100Mb s TCP IP network Ethernet configuration options are detailed in the Ap
101. t 2 per frame Continued Proprietary Information of PESA Switching Systems 4 7 e PESA CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Cheetah 64NE 64XE and 64WE Specifications cont Environmental Operating Temperatures ics eiue eerte tenete ru eS p na enri ie es MI SMe 0 40 C Operating Humidity iari nee ree Rut senti enZe Ep ADOS IRE desedenedenasanene 10 90 non condensing Standard Analog Video Input Characteristics MOV SV 1 0V P P nominal 2 0V P P max C EC Without obvious distortion Impedance i iet tet edel Las EH o eO a a 75Q internally terminated Return LOSS i cicsiecihastsaatiastiaatbentbaatbavtiastbaetannnetdededccedicedcced dedeccd cedeccd cececcdacacs 40 dB to 5 0 MHz rU RE gt 15dB to 50 MHz inp Um Direct DC Typi EE Balanced Gronierod T H BNC Standard Analog Video Output Characteristics lE E 1 0V P P nominal 2 0V P P max vis usin EEEE Mere EE REEF bls Vad since TEKELER E MER unde ee RR E RRR NONE RT E QNSE ARE DNE re qua Ag Without obvious distortion Impedance usse PEERS aioe ICI DNE ois mt 75Q internally terminated x cuthur bo MEME gt 40 dB to 5 0 MHz E 15 dB to 50 MHz Coupling 2 ertet CELER aea ia Dre De Du Pide du su De a ule ba as edu La PRU a ed Ru ed Ova Direct DC Ib emo Em 30 mV C Onfle tOE os DO
102. th a good CRC has been received Remove and re insert the board If the condition continues replace the board Blinking Indicates a missing receive clock error Remove and re insert the board If the condition continues replace the board Power Good Green ON Indicates that the 28V 4 8V 4 3V and 3 5V power is stable and within normal operating parameters None OFF Indicates that 28V is not stable or that the 4 8V 4 3V or 3 5V power supplies are not working Remove and re insert the board If the condition continues replace the board 28V Green ON Indicates that the 28V power is stable and within normal operating parameters This is a surface mount LED located on the PCB None 4 5V Green ON Indicates that the 3 3V power is stable and within normal operating parameters This is a surface mount LED located on the PCB None Proprietary Information of PESA Switching Systems Table continued on next page 9 8 e PESA CHEETAH 64 SERIES CHAPTER 9 81 9059 0577 0 Rev E TABLE 9 4 Input Board LEDs cont LED COLOR STATUS DESCRIPTION ACTION REQUIRED Indicates that the 4 3V power is stable and within normal 4 3V Green ON operating parameters This is a None surface mount LED located on the PCB Indicates that the 3 5V power is stable and within normal 3 5V Green ON operating parameters Th
103. the Cheetah 64x64 Video Matrix Card ON ACTIVE 000 29 0 GND 5V BATTERY ATTERY RESET MODE FIGURE 8 4 3500 Series System Controller Board Assembly Front View 8 5 1 GND This test point provides a convenient ground connection when measuring voltages at the other test points on the 3500ProSystem Controller Card 8 5 2 5V The voltage measured between this test point and GND is the output of the voltage regulation circuit and should be 5 0VDC 40 1 VDC 8 5 3 BATTERY The voltage measured between this test point and GND is the output voltage of the backup memory power source and should be greater than 2 0VDC when power has been removed from the board 6 5 4 Battery ON OFF Select Switch This SPDT toggle switch is used to enable and disable the backup memory power source Early designs of PESA system controllers used a battery for backup power This switch was used to prevent the battery from discharging during prolonged storage The 3500 Series System Controller uses a capacitor as a backup power source which does not need to be isolated during storage This switch should be in the ON position at all times 8 5 5 Reset This SPDT momentary pushbutton switch is used to manually reset the 3500 Series System Controller in the event of system failure or lockup similar to a warm boot on a PC To reset the controller press and hold this switch for about three seconds 8 5 6 Mode This SPDT toggle switch i
104. tion on which slot the board is in relative to the board type and the boards general condition Error and or Over Temperature Proprietary Information of PESA Switching Systems 10 11 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 9 10 11 IB Input Board Status Syntax e IB lt Slot gt Where Slot is the input board slot Response e WC xxxxOD1 xxxx OD2 xxxx OD3 xxxx CRC xxxx Total Errors xxxx Comment e See Matrix Frame Controller Hardware Interface Protocol MFCHIP to get specific information on the response MB Matrix Board Status Syntax e MB Slot Where Slot is the matrix board slot Response e WC xxxxOD1 xxxx OD22xxxx CRC xxxx Total Errors xxxx Comment e See Matrix Frame Controller Hardware Interface Protocol MFCHIP to get specific information on the response OB Output Board Status Syntax e OB Slot Where Slot is the output board slot Response e WC xxxx OD1 xxxx OD2 xxxx OD3 xxxx OD4 xxxx OD5 xxxx OD6 xxxx OD7 xxxx OD8 xxxx OD9 xxxx OD10 xxxx CRC xxxx Total Errors xxxx Comment e This syntax describes the status and or the specific component information Proprietary Information of PESA Switching Systems 10 12 e PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E 12 SB System Board Status Syntax e SB lt Addr gt Where lt Addr gt is the system board address
105. tputs The 64XE is further enhanced with an option to support either internal fiber or coax I O Finally for those applications that require only a portion of the frame to be configured for output options the 64XE is flexible enough to accommodate the following three additional sizes e 64x80 Output options for 17 64 first option slot used for 65 80 e 64x96 Output Options for 33 64 first two option slots used for 65 96 e 64x112 Output Options for 49 64 first three options slots used for 65 112 The 64WE includes non expandable outputs similar to the 64NE with output options similar to the 64XE and has redundant crosspoints Cheetah 64 Series Switchers Standard Features The Cheetah 64 series features include e Compact 4RU for the 64NE configuration 6RU for the 64WE and 64XE configurations e Full feature control system using either standard PESA PRC Control or PESA Network Control PERC2000 3500Pro or 3500Pro LE e Video and data signals from 3Mb s to 1 48Gb s e Optional Fiber Input and Output cards for the 64XE and 64WE frames Proprietary Information of PESA Switching Systems 2 2 e IPERS A CHEETAH SERIES SWITCHERS CHAPTER 2 81 9059 0577 0 Rev E e Supported signal types gt VV ON ON V SD HD 3G Multirate from 143Mbs up to 3 0Gbs SDI and ASI Composite Analog Video AES 75Q Audio TTL ASI EBU e Compatible with SMPTE 259M 292M 372M and 424M TV standards e Input EQ to 300M SD 100M HD e Bypass mode f
106. ued on a PC running Linux against a pair of small Cheetah Switchers Proprietary Information of PESA Switching Systems 10 5 PESA CHEETAH 64 SERIES CHAPTER 10 81 9059 0577 0 Rev E The first of these simply obtains the inventory for the two frames snmpwalk 192 168 0 106 pesaFrameInvDeviceType PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB PESA MATRIX MIB pesaFrameInvDeviceT ype 1 1 INTEGER pesaFrameInvDeviceT ype 1 2 INTEGER pesaFrameInvDeviceT ype 1 3 INTEGER pesaFrameInvDeviceT ype 1 4 INTEGER pesaFrameInvDeviceT ype 1 5 INTEGER pesaFrameInvDeviceT ype 1 6 INTEGER pesaFrameInvDeviceT ype 1 7 INTEGER pesaFrameInvDeviceT ype 1 8 INTEGER pesaFrameInvDeviceType 2 1 INTEGER pesaFrameInvDeviceType 2 2 INTEGER pesaFrameInvDeviceType 2 3 INTEGER pesaFrameInvDeviceT ype 2 4 INTEGER pesaFrameInvDeviceType 2 5 INTEGER frameController 6 frameController 6 inputBoard 1 inputBoard 1 outputBoard 2 powerSupply 3 matrixCard 5 outputMonitorCard 4 frameController 6 inputBoard 1 outputBoard 2 powerSupply 3 matrixCard 5 The next set of commands creates a preset a collection of switches that are to be taken as a group In this case the preset contains two switch definition
107. utputs Ja Qe e e i ji 2 e 128 Vu UAS 7 i oe eo 2 64 6 x 24 9 08 OKOK e e r Y eo Y Inputs M E eee Cheetah 64XE shown above The 64WE Switcher may contain blank panels where the 65 thru 128 81 thru 96 97 thru 112 and 113 thru 128 output BNC connectors are in place for the 64XE Switcher The 64WE switcher can be configured with blank panels or option cards as per customer configuration request FIGURE 4 4 Cheetah 64XE and 64WE Inputs Outputs Proprietary Information of PESA Switching Systems 4 4 PESA CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E Com 3 PRC Com 1 PRC Loop a RCP Panel Port 1 S RCP Panel Port 2 nop panen ESAN 40 Reference Input 1 Com 2 System Control Alarm FIGURE 4 5 Cheetah 64XE and 64WE Rear Connector View Proprietary Information of PESA Switching Systems Output S Frame Control Alarm Output Reference Input 2 D Frame Controller Ethernet 4 5 e PESA CHEETAH 64 SERIES CHAPTER 4 81 9059 0577 0 Rev E 4 3 CHEETAH 64NE 64XE AND 64WE SPECIFICATIONS Physical a A E cs 4 64NE amp 6 64XE and 64WE ld P cnc x 7 0 amp 10 50 bal Eas testes as 19 Depth socsedeiaced sieiaded etesedeiaieseioid cas sicti ca siacscessdeoneed old Liab ijad
108. ve 114 F e Detects a fan s voltage out of range e Detects a power supply s voltage or current out of range The voltage or current must be out of range for three consecutive times before the Matrix Frame Controller will indicate an alarm The System Control alarm is activated if any of the following system conditions exist e Detects a system interrupt ie a CPU failure error an address error or an illegal instruction e Synchronization problem with dual system cards e The system configuration is not properly relayed to the dual system cards e Whenever the system software is being upgraded Proprietary Information of PESA Switching Systems 8 26 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E The Customer supplied alarm circuit voltage to this connector must not exceed 12VDC and the associated amperage must not exceed 10mA Customer Part Number Supplied 81 9029 0811 0 Connector Controller B Bottom Alarm Controller A Top Alarm Customer X Supplied 1 RL A Alarm A 1 X Cheetah Internal FIGURE 8 22 Alarm Cable Connection and Circuit Schematic Proprietary Information of PESA Switching Systems 8 27 e CS A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 8 8 House Synchronization Input Connectors These BNC coaxial connectors illustrated in Figure 8 23 provide the interface for two house analog only synchronization signals i e
109. witching Systems 8 25 e PES A CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E 8 8 7 Frame and System Alarm Connectors The three pin connectors illustrated in Figure 8 21 provide an interface for an external customer supplied frame and system control alarm The Matrix Frame Controller determines when a frame alarm condition is declared while the System controller determines when a system alarm condition is declared Alarm contact location is illustrated in Figure 8 22 on the next page This circuit acts as a switch to trigger an optional external alarm in the event of a controller system fault or failure The alarm circuit supplies an electronic contact closure but does not provide a voltage to the external alarm The customer supplied external alarm circuit is connected with a cable constructed as shown in Figure 8 22 next page The Customer supplied power input to this connector must not exceed 12VDC and the associated amperage must not exceed 10mA COM 3 PRC PRC LOOP RAME AND SYSTEM CONTROL ALARM CONNECTOR E i 9 2 CONTROL C ALARM Y AN S RCP PANELS EU BY if me CONTROL FIGURE 8 21 Frame and System Control Alarm Connector The Frame Control alarm is activated if any of the following matrix frame controller conditions exist e Detects a card input output matrix output monitor power supply or matrix frame controller with a temperature out of range abo
110. y isolated electronically closed circuit see Figure 8 13 on next page exists between contacts 3 and 1 for Controller A top and contacts 2 and 1 for Controller B bottom This circuit acts as a switch to trigger an optional external alarm in the event of a controller fault or failure The controller alarm circuit supplies an electronic contact closure but does not provide a voltage to the external alarm The Customer supplied alarm circuit voltage to this connector must not exceed 12VDC and the associated amperage must not exceed 10mA The alarm is activated if any of the following 3500 Series software conditions exist e Encounters an interrupt that it does not expect or can not process e Js unable to synchronize with the other 3500 Series controller dual controllers e Does not get the configuration from the other 3500 Series controller dual controllers Proprietary Information of PESA Switching Systems 8 20 e PESA CHEETAH 64 SERIES CHAPTER 8 81 9059 0577 0 Rev E The customer supplied external alarm circuit is connected with a cable constructed as shown in Figure 8 13 The Customer supplied alarm circuit voltage to this connector must not exceed 12VDC and the associated amperage must not exceed 10mA Customer Part Number Supplied 81 9029 0811 0 Connector Controller B Bottom Alarm Controller A Top Alarm Customer X RLA Cheetah Internal 1 i I
111. ystem startup malfunctions The following basic checks should be performed prior to energizing any Cheetah chassis 1 Verify the main power source is OFF de energized 2 Verify all cards modules are latched and secure 3 Verify all blank covers are in place and secure no open slots in the frame 4 Verify the line cord s are connected to the chassis and are properly terminated to the source power distribution system i e connectors plugged in or pigtails terminated 5 Inspect for unusual items such as loose wiring frayed cabling loose connections or components and missing cards modules basically check for anything that seems out of place or could present a problem 6 Proceed to System Startup 7 2 SYSTEM STARTUP Perform the Cheetah system startup sequence as follows 1 Energize the main power source to the chassis Result The system has a 30 to 45 second delay prior to energizing the components When the delay has expired the system will energize and the cards will perform initial self diagnostics Verify the blank cover panels are securely in place These panels are an integral part of the chassis cooling system A loose broken and or missing blank cover panel could result in destructive overheating of equipment components Proprietary Information of PESA Switching Systems 7 1 e PESA CHEETAH 64 SERIES CHAPTER 7 81 9059 0577 0 Rev E 2 Verify the following LED conditions
Download Pdf Manuals
Related Search