SM-6800M - Ansaldo STS
Contents
1. 300 SEC 0 MSEC INDICATION ACK ENABLED NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 0 0 0 0 003 007 013 017 023 027 033 037 003 007 013 01 7 023 027 033 037 Appendix D SM 6800M Rev 2 September 2010 D 3 5 Appendix D 77 AnsaldoSTS ADDRESS 1 ADJUSTABLE ENABLE 1 NV OUTPUT 50 00 50 01 50 02 50 03 50 04 50 05 50 06 50 07 50 10 50 11 50 12 50 13 50 14 50 15 50 16 50 17 50 20 50 21 50 22 50 23 50 24 50 25 50 26 50 27 50 30 50 31 50 32 50 33 50 34 50 35 50 36 50 37 NV INPUT 51 00 51 01 51 02 51 03 51 04 51 05 51 06 51 07 851 10 851 11 51 12 51 12 51 14 81 15 91 16 51 17 51 220 61 21 91 227 1 23 SI 24 SI 25 SI 26 SI 27 91302 61431 91 392 91 33 SI 34 SI 35 SI 36 SI 37 CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS qs ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC LOGIC BEGIN NV ASSIGN NVIO OOO TO 50 00 NV ASSIGN NVIO 001 TO 50 01 NV ASSIGN NVIO 002 TO 50 02 NV ASSIGN 0 003 50 03 NV ASSIGN NVIO 004 TO 50 04 NV ASSIGN NVIO 005 TO 50 05 NV ASSIGN NVIO 006 TO 50 06 NV ASSIGN NVIO 007 TO 50 07 NV ASSIGN NVIO 010 TO 50 10 D 4 SM 6800M Rev 2 September 2010 w AnsaldoSTS Appendix D2. NV ASSIGN NVIO OOO TO MII NVO1 000 NV ASSIGN NVIO 001 TO MII NVO1 001 NV ASSIGN NVIO 002 TO MII NVO1 002 NV ASSIGN NVIO 003 TO MII NVO1 003 NV ASSIGN NVIO 004 TO MII NVO1 004 NV ASSIGN NVIO 005 TO MII NVO1 005 NV ASSIGN NVIO 006 TO MII NVO1 006 NV ASSIGN NVIO 007 TO MII NVO1 007 NV ASSIGN MII NVI1 000 TO 00 000 NV ASSIGN MII NVI1 001 TO 00 001 NV ASSIGN MII NVI1 002 TO 00 002 NV ASSIGN 11 003 00 003 NV ASSIGN MII NVI1 004 TO 00 004 NV ASSIGN MII NVI1 005 TO 0 005 NV ASSIGN MII NVI1 006 TO NVO0 006 NV ASSIGN MII NVI1 007 TO NVO0 007 NV ASSIGN NVIO 020 TO MII NVO2 000 NV ASSIGN NVIO 021 TO MII NVO2 001 NV ASSIGN NVIO 022 TO MII NVO2 002 NV ASSIGN NVIO 023 TO MII NVO2 003 NV ASSIGN NVIO 024 TO MII NVO2 004 NV ASSIGN NVIO 025 TO MII NVO2 005 NV ASSIGN NVIO 026 TO MII NVO2 006 NV ASSIGN NVIO O27 TO MII NVO2 007 NV ASSIGN MII NVI2 000 TO 00 020 NV ASSIGN MII NVI2 001 TO 00 021 NV ASSIGN MII NVI2 002 TO 00 022 NV ASSIGN MII NVI2 003 TO 00 023 NV ASSIGN MII NVI2 004 TO 00 024 NV ASSIGN MII NVI2 005 TO 00 025 NV ASSIGN MII NVI2 006 TO 00 026 NV ASSIGN MII NVI2 007 TO 00 027 END LOGIC END PROGRAM C 6 SM 6800M Rev 2 September 2010 A 77 AnsaldoSTS Appendix D Appendix D Typical Genisys Il SCS 128 Slave Protocol Application SM 6800M Rev 2 September 2010 D 1
3. 5 6 SCS128 Slave Protocol Link Protocol 9 5 7 5 1 Slave Protocol Link Configuration 6 5 MCS 1 Slave Protocol Link Statistics 6 6 MCS 1 Slave Protocol Link Protocol Monitor 6 7 Typical ARES WIU Protocol Radio Modem 7 2 ARES WIU Protocol Link 7 8 ARES WIU Protocol Station Configuration 4 0022 11 000 0000000 7 9 ARES WIU Protocol Link Statistics 7 10 ARES WIU Protocol Station Statistics 4 7 11 ARES WIU Radio Control Link Statistics 7 12 ARES WIU Protocol Link Protocol 40 00 7 13 Typical ATCS WIU Protocol Radio Connection See Specific ATCS Radio Documentation for Connector and 8 2 ATCS WIU Protocol Link 8 6 ATCS WIU Protocol Station Configuration 22 8 7 SM 6800M Rev 2 September 2010 Table of Contents 7 AnsaldoSTS Figure 8 4 ATCS WIU Protocol Link Statistics 8 8 Figure 8 5 Figure 8 6 Figure 9 1 Figure 9 2 Figure 9 3 Figure 9 4 Figure 10 1 Figure 10 2 Figure 10 3 Figure 1
4. 10 4 10 9 Maintenance Tool Support for the S2 Slave Protocol 10 4 SM 6800M Rev 2 September 2010 V Table of Contents 77 AnsaldoSTS 10 9 1 S2 Slave Protocol Link Configuration 10 5 10 9 2 S2 Slave Protocol Link Statistics 10 6 10 9 3 S2 Slave Protocol Link Protocol Monitor 10 7 11 DT SLAVE PROTOCOL 2 22 eere erii ater vacca neues 11 1 11 1 Introd ctlon aiio ceux tee CR ean eee 11 1 11 2 External Connections tede eet a toe t catre tate ees 11 1 11 3 Genisys ll CSIB Jumper Positions 11 1 Front Pariel Optiofis 5u ep eet tene te ena ven 11 1 11 5 Defining an DT 8 Slave Protocol Link in a Genisys Application Program 11 2 11 6 DT 8 Slave Protocol Link Compiler Declarations and Configuration Commands 11 3 11 7 DT 8 Slave Protocol Station Compiler Declarations and Configuration Commands 11 4 11 8 DT 8 Slave Protocol Link System Boolean 11 5 11 9 Maintenance Tool Support for the DT 8 Slave Protocol 11 5 11 10 DT 8 Slave Protocol Link 11 5 11 10 1 DT 8 Slave Protocol Link 11 6 11 10 2
5. 3 1 3 42 Front ParielODtlors 3 1 3 5 Defining Enhanced Genisys Slave Protocol Link Genisys Application Program 3 4 3 6 Genisys Slave Protocol Link Compiler Declarations and Configuration Commands 3 4 3 7 Genisys Slave Protocol Link Compiler Declarations 3 6 3 8 Genisys Slave Protocol Link System Boolean Bits sse 3 7 3 9 Maintenance Tool Support 3 7 3 9 1 Enhanced Genisys Slave Protocol Link Configuration 3 8 3 9 2 Enhanced Genisys Slave Protocol Link Statistics 3 9 3 9 3 Enhanced Genisys Slave Protocol Link Protocol 3 10 4 MICROLOK Il PEER PROTOCOL nnmnnn 4 1 rm Mte 4 1 4 2 dato eie tete utr AN ir ead 4 1 4 3 Genisys CSIB Jumper 4 1 4 4 Front PaneltOptionS in eec mtr tecta poe 4 1 4 5 Defining MicroLok II Peer Protocol Link in Genisys Application 4 1 4 6 MicroLok II Peer Protocol Link Compiler Declaration and Configuration Commands 4 3 SM 6800M Rev 2 Septembe
6. 9 1 9 4 Front Panel OptlOns io AA dIa 9 1 9 5 Defining SLCP Link in Genisys Application 9 2 9 6 SLCP Protocol Link Compiler Declarations and Configuration 9 4 9 7 SLCP Protocol Link Compiler 9 5 9 8 SLCP Protocol Link System Boolean 9 5 9 9 Maintenance Tool Support for the SLCP 9 5 9 9 1 SLOP Protocol Link Configuration essen 9 5 9 9 2 SLCP Protocol Link 5 9 7 9 9 3 SLCP Protocol Link Protocol Monitor enne 9 8 10 S2 SLAVE PROTOCOL LINK 10 1 Introductions e e E A 10 1 10 2 External Connection S deste ah LN cnn apte MIS 10 1 10 3 Genisys 1 CSIB Jumper Positions 10 2 104 Front Panel OptionS sss SLA et 10 2 10 5 Defining an S2 Slave Protocol Link in a Genisys II Application Program 10 2 10 6 S2 Slave Protocol Link Compiler Declarations and Configuration Commands 10 3 10 7 S2 Slave Protocol Link Compiler 10 4 10 8 S2 Slave Protocol Link System Boolean
7. 31 07 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 8 11 23 59 DAT 31 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 CO 11 24 01 80 11 24 01 RCV DAT 29 40 5 00 00 00 00 00 00 2 11 24 16 2 95 89 11 24 16 2 1509 11 24 16 2 948 11 24 16 80 Figure 9 4 SLCP Protocol Link Protocol Monitor 9 8 SM 6800M Rev 2 September 2010 AnsaldoSTS S2 Slave Protocol Link 10 52 SLAVE PROTOCOL LINK 10 1 Introduction The Genisys CSIB Executive supports communication using the 52 protocol however it supports only the slave end of the 52 protocol it cannot be an 52 master 10 2 External Connections Connections for the various serial interface signals supported by the 52 slave end protocol are shown for each physical serial port in Table 1 2 Refer to Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices See Figure 10 1 for typical interconnections GENISYS II A TS RIS C20 5 XD PORT4 C22 RXD EDMI MODEM C16 A32 COM COM s 7 ISOLATOR N16401101 NOTE ISOLATOR MAY BE ELIMINATED IF MODEM COMMON IS PROPERLY ISOLATED FROM EARTH GROUND C14 gt 4 E16 gt 2 EDMI PORT3 E14 3 E10 8 C18 7 T vu E12 GTS C26 AA NOTE ISOLATOR MAY BE ELIMIN
8. Appendix F 77 AnsaldoSTS AV 77 AnsaldoSTS F 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Typical Genisys II ARES Protocol Application Genisys PROGRAM ARES EXAMPLE INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 TYPE NV IN32 0UT32 NV OUTPUT 00 000 00 004 00 010 00 014 00 020 00 024 NVOO 030 00 034 NV INPUT NVIO OOO NVIO 004 NVIO 010 NVIO 014 NVIO 020 NVIO 024 NVIO O30 NVIO O34 COMM LINK LINK NAME NVI NVI NVI NVI NVI NVI NVI ADJUSTABLE ENABLE 1 PROTOCOL ARES SLAVE ADJUSTABLE PORT 2 NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 021 NVI 0 0 NVIO 001 NVOO 005 NVOO 011 NVOO 015 NVOO 021 NVOO 025 NVOO 031 NVOO 035 NVOO 001 NVI 005 NVI 011 NVI 015 NVI 025 NVI 031 NVI ADJUSTABLE KEY ON DELAY 0 ADJUSTABLE KEY OFF DELAY 12 2000 MSEC ADJUSTABLE INDICATION BROADCAST INTERVAL 120 SEC c ADJ GC ADJ ADJ ADJ ADJ ADJ ADJ ADJ JSTABLE CTS WAIT JSTABLE STALE DATA TIMEOUT JSTABLE ACK TIMEOUT JSTABLE PROTOCOL RESET TIMEOUT JSTABLE TIME REQUEST TIMEOUT JSTABLE XMIT RETRY LIMIT 3 JSTABLE ARES HOST ADDRESS JSTABLE ARES TIME ADDRESS 10 SEC 0 0 0 0 022 NVI 0 032 NVI 035 NVIO 0 002 NVOO 006 NVOO 012 NVOO 016 NVOO 022
9. 011 TO 1ER NV ASSIGN NVIO O12 TO 2WG PK NV ASSIGN NVIO O13 TO 2WR PK NV ASSIGN NVIO 014 TO 2EG PK NV ASSIGN NVIO 015 TO 2ER PK NV ASSIGN NVIO Ol6 TO PK NV ASSIGN NVIO 017 2TK PK NV ASSIGN NVIO O20 TO 1WBK PK NV ASSIGN NVIO O21 TO 1EBK PK NV ASSIGN NVIO O22 TO 2WBK PK NV ASSIGN NVIO O23 TO 2EBK PK NV ASSIGN NVIO O24 TO TKILK PK NV ASSIGN NVIO O25 TO TK2LK PK NV ASSIGN NVIO O26 TO 1 PK NV ASSIGN NVIO O27 TO 2TE PK NV ASSIGN NVIO O30 TO SMK PK NV ASSIGN NVIO O31 TO MCK PK NV ASSIGN NVIO O32 TO MOK PK NV ASSIGN NVIO O33 TO LOK PK NV ASSIGN NVIO O34 TO POK PK NV ASSIGN NVIO O37 TO CLCP Link Disable END LOGIC END PROGRAM SM 6800M Rev 2 September 2010 H 5 Appendix H 77 AnsaldoSTS AV 77 AnsaldoSTS H 6 SM 6800M Rev 2 September 2010 5 77 AnsaldoSTS Appendix Appendix Typical Genisys Il 52 Slave Protocol Application SM 6800M Rev 2 September 2010 1 1 c Appendix I 77 AnsaldoSTS SN 77 AnsaldoSTS 1 2 SM 6800 Rev 2 September 2010 5 77 AnsaldoSTS Appendix Genisys II S2 Slave Protocol Test Application x7 Genisys_II PROGRAM S2TEST INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 NV IN32 0UT3Z2 NV OUTPUT 00 000 NVOO 001 00 002 NVOO OO3 00 004 NVOO 005 00 006 00 007 00 010 NVOO 011 00 012 NVOO 013 00 014 NVOO 015 00 016 NVOO 01
10. 52 protocol link that receives no messages can transmit no messages as a slave can only respond to received messages High error counts often indicate a higher than normal level of noise on the communication Circuit 10 6 SM 6800M Rev 2 September 2010 a 7 AnsaldoSTS S2 Slave Protocol Link 10 9 3 52 Slave Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 10 4 presents a typical protocol monitor display for the 52 Protocol The protocol monitor display for the 52 protocol shows time followed by a descriptive summary for each message transmitted or received message The actual text of the message excluding opening and closing flag bytes follows in hexadecimal bytes See Queensland Rail Dignal and Operational Systems drawing FTS 70 for an explanation of the 52 protocol message records GENISYS Development System Version 7 38 PROTOTYPE m i md e Print s ed Zr io Program 11 at address 1 on 1 Serial je Monitor Do sam sas 5 1 52 SLAVE 03 ENABLEC 14 32 58 XMT IND 02 02 00 CB 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 70 AB 2 52 SLAVE 04 ENABLED 14 32 58 RCV 03 83 00 00 3C 00 00 00 00 00 00 00 00 00 00 00 00 00 00 9C 31 14 32 58 XMT IND 03 03 00 00 C3 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DC 57 14 32 58 RCV
11. RCL FD 3F 00 80 6 16 52 16 RCV IND 2 3F 00 00 01 00 02 00 03 C7 04 00 05 00 06 00 07 00 08 00 09 00 00 OB 000 16 52 16 XMT ACK FA3F 02 BO F6 16 52 16 RCV ACK F1 3F F6 16 52 16 XMT POL FB 02 C2 F0 01 F6 16 52 17 RCV ACK F1 02 F6 16 52 17 XMT POL FB 03 03 31 F6 16 52 17 RCV ACK F103 6 16 52 17 XMT POL FB 04 42 03 F6 16 52 17 RCV ACK F1 04 F6 16 52 17 XMT POL FB 3F 03 20 F6 16 52 17 RCV ACK F1 F6 16 52 17 XMT RCL FD 02 C1 51 F6 16 52 17 RCV IND F2 02 00 CB 01 00 02 00 03 00 04 00 05 00 06 00 07 00 08 00 09 00 0A 00 OB 00 C 16 52 17 XMT FAO2 C3 61 F6 16 52 17 RCV ACK F1 02 F6 16 52 17 XMT POL FB 02 C2 F0 01 F6 16 52 17 RCV ACK F1 02 F6 16 52 17 XMT POL FB 03 03 31 F6 16 52 17 ACK F1 03 F6 Figure 2 4 Genisys Master Protocol Monitor SM 6800M Rev 2 September 2010 2 9 A 7 Genisys Master Protocol Link AnsaldoSTS 77 AnsaldoSTS 2 10 SM 6800M Rev 2 September 2010 5 AnsaldoSTS Enhanced Genisys Slave End Protocol Link 3 ENHANCED GENISYS SLAVE PROTOCOL LINK 3 1 Introduction The Genisys CSIB Executive supports the assignment of a STANDBY serial port to a Genisys SLAVE communication link The STANDBY port is enabled and the NORMAL port is disabled when the DCD input to the STANDBY port is asserted The NORMAL port is enabled when the DCD input to the STANDBY port is de asserted or when no good messages addressed to a slave defined on the Genisys SLAVE lin
12. Unite Toole Print Save Copy Back Split Settings Help Program DTSTESTS at address 1 on COM1 Serial Message Monitor n Ses ow EA pra sve 1 DT8 SLAVE ENABLED 00 41 44 FRN POL AB 02 00 42 00 XMT CHG AC FD 03 00 61 90 5C AS ENABLEC 00 42 15 RCV ACK FD 03 A9 00 42 15 ACK FD 03 A9 00 42 33 FRN POL AB 02 00 42 45 RCV BMP AE FD 03 00 00 00 00 1 27 A9 00 42 45 ACK AA FD 03 A9 00 42 51 FRN POL 02 For Help press F1 10 01 10 12 54 1 li f Y tg Start fli GEN74A fi DVD CD RW Drive P GENISYS II Develo untitled Paint RJS 12 44AM Figure 11 3 Typical DT 8 Protocol Monitor Display 11 8 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Technical Support 12 RAIL TEAM AND TECHNICAL SUPPORT The Rapid Action Information Link Team RAIL Team is a group of experienced product and application engineers ready to assist you to resolve any technical issues concerning this product Contact the RAIL Team in the United States at 1 800 652 7276 or by e mail at railteam Cansaldo sts us 1 800 652 7276 SM 6800M Rev 2 September 2010 12 1 A Technical Support AnsaldoSTS MN 77 AnsaldoSTS 12 2 SM 6800M Rev 2 September 2010 A 77 AnsaldoSTS Appendix A Appendix A Typical Genisys Il Genisys Master Protocol Application SM 6800M Rev 2 September 2010 A 1 Appendix A 77 AnsaldoSTS 77
13. 002 006 012 016 002 006 012 016 0100 MSEC 100 MSEC 1 9600 500 MSEC Ts 1 1 1 1 ARI1 ARI1 ARI1 ARI1 003 007 013 017 003 007 013 017 000 001 002 003 004 005 006 F 4 SM 6800M Rev 2 September 2010 w AnsaldoSTS Appendix F NV ASSIGN NVIO 007 TO ARO1 007 NV ASSIGN NVIO O10 TO ARO1 010 NV ASSIGN NVIO 011 TO ARO1 011 NV ASSIGN NVIO 012 TO ARO1 012 NV ASSIGN NVIO 013 TO ARO1 013 NV ASSIGN NVIO 014 TO ARO1 014 NV ASSIGN NVIO 015 TO ARO1 015 NV ASSIGN NVIO 016 TO ARO1 016 NV ASSIGN NVIO 017 TO ARO1 017 NV ASSIGN ARI1 000 TO NVOO 000 NV ASSIGN ARI1 001 TO NVOO 001 NV ASSIGN ARI1 002 TO NVOO 002 NV ASSIGN ARI1 003 TO NVOO 003 NV ASSIGN ARI1 004 TO NVOO 004 NV ASSIGN ARI1 005 TO NVOO 005 NV ASSIGN ARI1 006 TO NVOO 006 NV ASSIGN ARI1 007 TO NVOO 007 NV ASSIGN ARI1 010 TO NVOO 010 NV ASSIGN ARI1 011 TO NVOO 011 NV ASSIGN ARI1 012 TO NVOO 012 NV ASSIGN ARI1 013 TO NVOO 013 NV ASSIGN ARI1 014 TO NVOO 014 NV ASSIGN ARI1 015 TO NVOO 015 NV ASSIGN ARI1 016 TO NVOO 016 NV ASSIGN ARI1 017 TO NVOO 017 END LOGIC END PROGRAM SM 6800M Rev 2 September 2010 F 5 Appendix F 77 AnsaldoSTS AV 77 AnsaldoSTS F 6 SM 6800M Rev 2 September 2010 5 77 AnsaldoSTS Appendix G Append
14. Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus SM 6800M Rev 2 September 2010 9 1 3 GETS SLCP Protocol Link AnsaldoSTS 9 5 Defining an SLCP Link in Genisys Application Program A typical Genisys II application program that defines an SLCP Protocol link is shown in Appendix H The basic structure of the SLCP link definition is similar to that of a Genisys slave link For a general description of the basic serial link declarations and configuration parameters refer to Section 3 5 2 of Service Manual SM 6800B 9 2 SM 6800M Rev 2 September 2010 7 AnsaldoSTS GETS SLCP Protocol Link GENISYS 48 PIN HARTING CONNECTOR Ji DB25P PORT 1 2 J2 DB9S CLCP P1 4 A18 TXD 2 TX 1 C6 A24 RXD d 1 TX 2 2 2266
15. 04 84 00 00 00 4C 00 00 00 00 00 00 00 00 00 00 00 00 00 48 02 14 32 58 IND 04 04 00 00 00 93 00 00 00 00 00 00 00 00 00 00 00 00 00 5 2 14 32 58 RCV CTL BF 00 00 00 00 55 00 00 00 00 00 00 00 00 00 00 00 00 92 9A 14 32 58 XMT IND 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 B5 81 14 32 59 RCV CTL 02 82 00 27 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 CF 14 32 59 XMT IND 02 02 00 CB 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 70 14 32 59 RCV CTL 03 83 00 00 3C 00 00 00 00 00 00 00 00 00 00 00 00 00 00 9C 31 14 32 59 XMT IND 03 03 00 00 C3 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DC 57 1 14 32 59 RCV 04 84 00 00 00 4C 00 00 00 00 00 00 00 00 00 00 00 00 00 48 02 14 32 59 XMT IND 04 04 00 00 00 93 00 00 00 00 00 00 00 00 00 00 00 00 00 5 2 14 33 00 RCV CTL BF 00 00 00 00 55 00 00 00 00 00 00 00 00 00 00 00 00 92 9A a 14 33 00 XMT IND 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 B5 81 14 33 00 RCV CTL 02 82 00 27 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 CF A6 14 33 00 IND 02 0200 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 70 AB 14 33 00 RCV 03 83 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 9C 31 14 33 00 XMT IND 03 03 00 00 C3 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DC 57 14 33 00 RCV CTL 04 84 00 00 00 4C 00 00 00 00 00 00 00 00 00 00 00 00 00 48 02 14 33 00 IND 04 04 00 00 00 93 00 00 00 00 00 00 00 00 00 00 00 00 00 5 2 1
16. 2 Declares an ARES protocol serial link defines the link name LINK The link name is a user selectable text string No default Not adjustable O Specifies whether not the ARES protocol link will be enabled ENABLE on unit initialization 0 DISABLED 1 ENABLED No default ARES SLAVE declares that this link will support the ARES slave protocol No default Not adjustable The physical port to which the ARES link will be attached The ARES link must be attached to Port 3 There is no default The data rate at which the link will operate Available selections are 150 300 600 1200 1800 2400 3600 4800 7200 9600 BAUD and 19200 bits per second The default rate is 2400 Note that the data rate for the ARES link is determined by the radio modem connected to physical Port 3 This selection must match the operating data rate of the connected radio modem The time in bit times between the assertion of CTS and the leading edge of the opening flag of the first byte of the RECON PER transmitted ARES message The allowable values are 0 and 8 to 280 bit times The default value is 0 bit times The time in bit times between the end of the closing flag of a transmitted ARES message and the de assertion of RTS The PE allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The HDLC layer address for messages addressed to ARES WIU LINK ADDRESS WIU s Valid addresses are 0 to OxFF The defa
17. 2 9 4 Genisys Master Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 2 4 presents a typical display for the Genisys Master Protocol Monitor The protocol monitor display for the Genisys Master Protocol Link shows message time message direction transmitted or received and message type followed by the full transmitted or received message in hexadecimal bytes Please refer to Genisys Protocol descriptions in SM 6300A Section VII or SM 6408F Section V for additional information on the Genisys Protocol Please refer to Section 7 3 4 of Service Manual SM 6800C for additional information on the Serial Message Monitor Program 5011 at addr o sam es 1 Ih ge Monitor GENISYS_MASTE 1 GENISYS MASTER 03 2 GENISYS MASTER 04 ENABLED 16 52 15 RCV ACK F1 04 F6 ENaBLEp 16 52 15 XMT POL FB 03 20 F6 16 52 15 RCV ACK F13F F6 16 52 16 XMT RCL FD 04 41 53 F6 16 52 16 RCV IND F2 04 00 00 01 00 02 93 03 00 04 00 05 00 06 00 07 00 08 00 09 00 00 00 0 16 52 16 XMT ACK FA04 43 63 F6 16 52 16 RCV ACK F1 04 F6 16 52 16 XMT POL FB 02 C2 F0 01 F6 16 52 16 RCV ACK F1 02 F6 16 52 16 XMT POL FB 03 03 31 F6 16 52 16 RCV ACK F1 03 F6 16 52 16 XMT POL FB 04 42 F0 03 F6 16 52 16 RCV ACK F1 04 F6 16 52 16 XMT POL FB 03 20 F6 16 52 16 RCV ACK F1 3F F6 16 52 16
18. Communication activity for active SCS 128 slave ports NORMAL or STANDBY may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired SCS 128 slave port identified as the NORMAL port for a link using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For SCS 128 Slave Protocol ports the protocol identification pp 1s SS Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port Communication activity on the currently active port NORMAL or STANDBY is displayed The serial communication display LED functions are described in Table 1 1 LED D Received Carrier Detected is not supported for the SCS 128 Slave Protocol Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs
19. LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For Genisys Master Protocol ports the protocol identification pp is GM Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first defined serial link defined in the application program is displayed on LEDs A through E by default The Genisys Master Protocol Link may be placed in link test mode by selecting the desired Genisys master port Using the UP DOWN menu switch select DOWN once Select SERL TEST on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch until SERL TEST is displayed on the alphanumeric display Select DOWN once to enter the serial port test menu PORT n is displayed where is the serial port protocol and is the physical port number 1 to 4 For Genisys Master
20. POSITION EXCEPT JP5 AND JP6 a uw AnsaldoSTS TXDs 2 ARES RADIO COM CONTROL 7 PORT DTRy 20 TADS 3 RXD RTS 4 CTS ARES COM 7 PORT DCD TXC S 45 17 20 2 SET JUMPER W1 ON BOTH GETS RS 232 ISOLATORS TO THE 2 3 POSITION Figure 7 1 Typical ARES WIU Protocol Radio Modem Connections 7 2 SM 6800M Rev 2 September 2010 5 AnsaldoSTS ARES Protocol 7 3 Genisys ll CSIB Jumper Positions The ARES protocol requires the standard CPU board jumper settings defined in Table 1 3 except as noted in Table 7 3 Table 7 3 Exceptions to the Standard Jumper Configuration for the ARES WIU Protocol Table 1 3 Jumper Function Position Effect JMP13 Port 3 Synchronous Transmitter INPUT Clock JMP14 Port 3 Synchronous Transmitter INPUT Clock JMP16 Port 3 Synchronous Receive Clock EXTERNAL 7 4 Front Panel Options Communication activity for active ARES Protocol ports may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired ARES Protocol port using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is
21. 0 Maximum bytes removed from FIFO 3 Spare 1 0 Spare 2 0 Spare 3 0 Spare 4 0 Figure 4 4 MicroLok ll Peer Protocol Link Statistics 4 10 4 MicroLok Peer Protocol Station Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Scroll down through the link statistics to locate and view the communication statistics for the desired station Figure 4 5 presents a typical MicroLok II Peer Protocol Station Statistics display 4 10 SM 6800M Rev 2 September 2010 AnsaldoSTS MICROLOK II Peer Protocol Link 1 stations defined Station MP_88 0 at address 7842444444444 Station 81 enabled Good messages for this station 118 Received init message count 2 Received data message count 57 Received status message count 0 Received service signal count 59 Total missed message count 0 Total messages sent 118 Transmitted init message count 2 Transmitted data message count 57 Transmitted status message count 0 Transmitted service signal count 59 Total messages acknowledged 59 Stale invalid ACK count 0 Total messages NAK ed 0 Stale invalid count 0 Acknowledge timeout count 0 Consecutive ACK timeouts 0 Max consecutive ACK timeouts 0 Received CRC er
22. 0 Serial transmitter timeout count 0 Total NEW messages transmitted 28 Transmitted protocol reset count 4 mitted protocol reset ACK count 0 Transmitted RF ACK count 6 Transmitted RF loopback count 0 Transmitted time request count 2 Transmitted L3 reset count 2 Repeated transmission count 4 Indication message count 14 Messages acknowledged count 20 Discarded RF acknowledge count 0 Data field CRC32 error count 0 Data field consistency error count 0 Bad received message number count 0 Message sequence error count 0 RSSI for last message for this unit 255 RSSI for last received message 255 Figure 7 4 ARES WIU Protocol Link Statistics 7 10 SM 6800M Rev 2 September 2010 EN 77 AnsaldoSTS ARES Protocol 7 9 4 ARES WIU Protocol Station Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Scroll the display down to see the communication statistics for the desired station Figure 7 5 presents the ARES Protocol Station Statistics Display Station MP 88 0 at address 5076134707 Station 81 enabled Total messages received 12 Received protocol reset count 0 Received protocol reset ACK count 2 Received control message count 0 Received recall message count 0 Rec
23. A through E by default SM 6800M Rev 2 September 2010 5 1 SCS 128 Protocol 7 AnsaldoSTS The SCS 128 Slave Protocol Link may be placed in link test mode by selecting the desired SCS 128 slave port identified as the NORMAL port Using the UP DOWN menu switch select DOWN once Select SERL TEST on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch until SERL TEST is displayed on the alphanumeric display Select DOWN once to enter the serial port test menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For SCS 128 Slave Protocol ports the protocol identification pp is SS Scroll through the active ports using the LEFT RIGHT menu switch until the desired NORMAL port is found Place the desired port in test mode by selecting DOWN once using the UP DOWN menu switch Scroll through the test modes using the LEFT RIGHT menu switch Available test modes include steady MARK steady SPACe and 50 duty at the configured data rate Select the desired test mode by selecting DOWN once using the UP DOWN menu switch When the SCS 128 slave link 1s placed in test mode the selected test signal will be transmitted over the selected currently active port NORMAL or STANDBY Return the port under test to normal operation
24. Appendix D 77 AnsaldoSTS AV 77 AnsaldoSTS D 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Typical Genisys 5 5 128 Slave Protocol Application i Genisys II PROGRAM SCS128 EXAMPLE INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 TYPE NV IN32 0UT32 NV OUT PUT 00 000 00 004 00 010 00 014 00 020 00 024 NVOO 030 00 034 NV INPUT COMM NVIO OOO NVIO 004 NVIO 010 NVIO 014 NVIO 020 NVIO 024 NVIO O30 NVIO O34 LINK LINK NAME ADJUSTABLE ENABLE 1 SCS SLAVE PROTOCOL ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJ ADJ ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE PORT NVI NVI NVI NVI NVI NVI NVI NVI 4 NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 0 0 0 001 005 OIL 015 021 025 031 035 001 005 011 015 025 031 035 STANDBY PORT 3 BAUD ALTERNATE BAUD 300 STOPBITS PARITY EVEN KEY ON DELAY KEY OFF DELAY 1 NVI NVI NVI NVI NVI NVI NVI d 5s 12 52 STALE DATA TIMEOUT POINT POINT Le INTERBYTE TIMEOUT NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 022 0 032 NVIO 0 002 006 012 016 022 026 032 036 002 006 012 016 026 036
25. Jumpers JMP 32 and JMP 33 allow the CPU board diagnostic port to be routed to the CPU board rear connector When this option is selected Serial Port 4 is not available Jumpers JMP 32 and JMP 33 must always be in the same position 1 4 Genisys Development System The Genisys Development System is virtually identical to the MicroLok II Development Syatem in appearance and operation However the two development systems are not interoperable The Genisys Development System must be used with the Genisys II CPU and the MicroLok II Development System must be used with the MicroLok II CPU 1 4 1 Genisys Compiler Service manual SM 6800D covering the MicroLok II Application Compiler also applies to the Genisys II compiler However when compiling a Genisys II application program the program title must be specified using the PROGRAM keyword rather than the MicroLok JI PROGRAM keyword Only the non vital features described for the MicroLok II compiler are supported by the Genisys II compiler See SM 6800D for additional information regarding the construction of MicroLok II and Genisys II application programs 1 4 2 Genisys Maintenance Tool Service Manual SM 6800C covering the MicroLok II Maintenance Tool also applies to the Genisys II Maintenance Tool Note however that the Genisys II Maintenance Tool provides support only for the non vital functions that are implemented in the Genisys II execu
26. SLCP Protocol Link Compiler Declarations 9 5 SM 6800M Rev 2 September 2010 ix Table of Contents 77 AnsaldoSTS Table 9 3 SLCP Protocol Link System Boolean 9 5 Table 10 1 S2 Slave Protocol Link Compiler Commands and Their Functions 10 3 Table 10 2 S2 Slave Protocol Link Compiler Declarations 2 10 4 Table 10 3 S2 Slave Protocol Link System Boolean 10 4 Table 11 1 DT 8 Slave Protocol Link Compiler Commands and Their Functions 11 3 Table 11 2 DT 8 Slave Protocol Station Compiler Declarations and Configuration Commands 11 4 Table 11 3 DT 8 Slave Protocol Link and Slave Station System Boolean 11 5 X SM 6800M Rev 2 September 2010 7 AnsaldoSTS Functional Description 1 FUNCTIONAL DESCRIPTION The Genisys II Code System Interface Board CSIB N17061302 Figure 1 1 is an enhanced replacement for the Genisys 2000 based CSIB N17061401 described in Section 2 3 5 of Service Manual SM 6800A MICROLOK II System Description The CSIB functions as an interface between various non vital code line protocols commonly used in the railroad industry and is physically identical to the standard Micro Lok 9 II controller board N17061301 having the same connector pinouts and option jumpers The Genisys II executive
27. Standby physical port E 0 means default 3 Baud rate 9 240 gt default 2 400 Stop bits default 1 Parity None default None Key On delay 2 3 default 12 Key Off delay 2 default 12 Master wait TO 6 p 4 default 500 Polling Interval 3 p a me default 0 Stale data TO seconds default 300 Configuration address p default 0 Carrier mode 6 Constant default Constant Secure default clear CRC Type 71 Checkback default clear te default CRETEI Station 0 Enable v default SET Station 2 Enable default SET Figure 3 2 Genisys Slave Configuration 3 8 SM 6800M Rev 2 September 2010 7 AnsaldoSTS Enhanced Genisys Slave End Protocol Link 3 9 2 Enhanced Genisys Slave Protocol Link Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Figure 3 3 presents a typical Genisys Slave Protocol Link Statistics display This display presents a summary of communication statistics for all slaves defined on the selected Genisys Slave Protocol Link Please refer to Section 7 3 3 of Service Manual SM 6
28. The default value is 0 Sets the length of time that MicroLok Il Peer protocol station will wait for an acknowledgement for a transmitted message that requires acknowledgement When the acknowledge timeout ACI TIMEOUT expires delivery failure is declared for the transmitted message Allowable values are 50 to 60 000 milliseconds The default value is the value of the heartbeat interval Sets the maximum length of time between the transmission of data or status messages from MicroLok II Peer protocol stations where HEARTBEAT INTERVAL serial outputs are not changing The allowable range is 100 to 600 000 milliseconds The default value is 40 of the stale data timeout for the station Sets the rate at which data messages are sent on the heartbeat interval A value of 1 causes a full data message to be sent on INDICATION UPDATE CYCLE every heartbeat interval A value of 2 causes a data message to be sent on every other heartbeat interval etc Allowable values are 1 to 100 The default value is 10 The elapsed time after which a slave is declared failed during which no valid messages addressed to the slave have been received The allowable range is 500 to 600 000 milliseconds The default value is 60 000 milliseconds NV ATCS ADDRESS STALE DATA TIMEOUT 4 4 SM 6800M Rev 2 September 2010 AnsaldoSTS MICROLOK II Peer Protocol Link 4 8 MicroLok Peer Protocol Link Fixed Compiler Declarations Tabl
29. steady SPACe and 50 duty CYCLe at the configured data rate Select DOWN to enter the desired test mode When the DT 8 slave link is placed in test mode the selected test signal will be transmitted over the selected currently active port NORMAL or STANDBY Return the port under test to normal operation by selecting NORMal using the LEFT RIGHT menu switch then selecting DOWN See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 11 5 Defining DT 8 Slave Protocol Link in a Genisys Application Program A typical Genisys II application program that defines an enhanced DT 8 slave end link is shown in Appendix J 11 5 SM 6800M Rev 2 September 2010 AnsaldoSTS DT 8 Slave Protocol Link The basic structure of the DT 8 slave link definition is similar to that of a Genisys slave link Up to six DT 8 links may be defined in the same application program although only four may be enabled at the same time 11 6 DT 8 Slave Protocol Link Compiler Declarations and Configuration Commands DT 8 slave protocol compiler declarations and configuration commands are listed in Table 11 1 Configuration commands can be declared adjustable unless otherwise noted Table 11 1 DT 8 Slave Protocol Link Compiler Commands and Their Functions Command 2 Function Declares a new DT 8 slave protocol serial link and defines the LINK link name
30. 013 NV ASSIGN SI 14 TO NVOO 014 NV ASSIGN SI 15 TO NVOO 015 NV ASSIGN SI 16 TO NVOO 016 NV ASSIGN SI 17 TO NVOO 017 NV ASSIGN SI 80 TO NVOO 020 NV ASSIGN SI 81 TO NVOO 021 NV ASSIGN SI 82 TO NVOO 022 NV ASSIGN SI 83 TO NVOO 023 NV ASSIGN 51 84 NVOO 024 NV ASSIGN SI 85 TO NVOO 025 NV ASSIGN SI 86 TO NVOO 026 NV ASSIGN SI 87 TO NVOO O27 NV ASSIGN SI 90 TO NVOO 030 NV ASSIGN 61 91 NVOO 031 NV ASSIGN SI 92 TO NVOO 032 NV ASSIGN 51 93 NVOO 033 NV ASSIGN SI 94 TO NVOO 034 NV ASSIGN 61 95 TO NVOO 035 NV ASSIGN SI 96 TO NVOO 036 NV ASSIGN SI 97 TO NVOO 037 NV ASSIGN NVIO OOO TO 50 00 NV ASSIGN 001 50 01 NV ASSIGN NVIO 002 TO 50 02 NV ASSIGN NVIO O03 TO 50 03 NV ASSIGN NVIO 004 TO 50 04 NV ASSIGN NVIO 005 TO SO 05 NV ASSIGN NVIO 006 TO SO 06 NV ASSIGN NVIO 007 TO 50 07 NV ASSIGN NVIO OlO TO 50 10 NV ASSIGN NVIO 011 TO SO 11 NV ASSIGN NVIO 012 TO 50 12 NV ASSIGN NVIO 013 TO S0 137 NV ASSIGN NVIO 014 TO 50 14 NV ASSIGN NVIO 015 TO SO 15 NV ASSIGN NVIO O16 TO 50 16 NV ASSIGN NVIO 017 TO SO 17 NV ASSIGN NVIO 020 TO SO 80 SM 6800M Rev 2 September 2010 A 5 m uw Appendix A AnsaldoSTS NV ASSIGN NVIO O21 TO 50 81 NV ASSIGN NVIO O22 TO 50 82 NV ASSIGN NVIO 023 TO SO 83 NV ASSIGN NVIO 024 TO SO 84 NV ASSIGN NVIO 025 TO SO 85 NV ASSIGN NVIO O26 TO 50 86 NV ASSIGN NVIO O27 TO 50 87 NV ASSIGN NVIO O30 TO 50 90 NV ASSIGN NVIO O31 TO
31. 06 NV ASSIGN NVIO 007 TO DT80 07 NV ASSIGN NVIO 010 TO DT80 10 NV ASSIGN NVIO 011 TO DT80 11 NV ASSIGN NVIO 012 TO DT80 12 NV ASSIGN NVIO 013 TO DT80 13 NV ASSIGN NVIO 014 TO DT80 14 NV ASSIGN NVIO 015 TO DT80 15 NV ASSIGN NVIO 016 TO DT80 16 NV ASSIGN NVIO 017 TO DT80 17 NV ASSIGN NVIO 020 TO DT80 20 NV ASSIGN NVIO 021 TO DT80 21 NV ASSIGN NVIO 022 TO DT80 22 NV ASSIGN NVIO 023 TO DT80 23 NV ASSIGN NVIO 024 TO DT80 24 NV ASSIGN NVIO 025 TO DT80 25 NV ASSIGN NVIO 026 TO DT80 26 NV ASSIGN NVIO 027 TO DT80 27 NV ASSIGN NVIO O30 TO DT80 30 NV ASSIGN NVIO 031 TO DT80 31 NV ASSIGN NVIO 032 TO DT80 32 NV ASSIGN NVIO 033 TO DT80 33 NV ASSIGN NVIO 034 TO DT80 34 SM 6800M Rev 2 September 2010 J 5 v Appendix J 7 AnsaldoSTS NV ASSIGN NVIO 035 TO DT80 35 NV ASSIGN NVIO O36 TO DT80 36 NV ASSIGN NVIO 037 TO TSTAMP REQ NV ASSIGN DT81 00 TO NVOO 000 NV ASSIGN DT81 01 TO NVOO 001 NV ASSIGN DT81 02 TO NVOO 002 NV ASSIGN DT81 03 TO NVOO 003 NV ASSIGN DT8I 04 TO NVOO 004 NV ASSIGN DT81 05 TO NVOO 005 NV ASSIGN DT81 06 TO NVOO 006 NV ASSIGN DT81 07 TO NVOO 007 NV ASSIGN DT8I 10 TO NVOO 010 NV ASSIGN DT8I 11 TO NVOO 011 NV ASSIGN DT81 12 TO NVOO 012 NV ASSIGN DT81 13 TO NVOO 013 NV ASSIGN DT8I 14 TO NVOO 014 NV ASSIGN DT8I 15 TO NVOO 015 NV ASSIGN DT8I 16 TO NVOO 016 NV ASSIGN DT81 17 TO NVOO 017 NV ASSIGN DT8I 20 TO NVOO 020 NV ASSIGN DT81 21 TO NVOO 021 NV ASSIGN
32. 2000 milliseconds The default value is 50 milliseconds The default value is normally adequate The time the Genisys master protocol handler will wait for a response after addressing a slave This delay must be long enough to accommodate the worst expected communication delays imposed by the communication circuit Consult documentation provided by the communication equipment supplier for specific information The allowable range of values is 30 to 25000 milliseconds The default value is 500 milliseconds The default value is usually adequate although when using a communication circuit with smaller end to end delays a lower timeout can improve link performance when some slaves are not answering regularly due to intermittent communication problems Specifies whether or not the master end of the link will have carrier keyed on continuously The CONSTANT carrier option requires a full duplex communication circuit The KEYED carrier option is used only when carrier outbound from the master might interfere with slave transmissions In all other cases including direct wire CONSTANT carrier operation should be specified The default carrier mode is CONSTANT The size of the CRC checksum in bits that is to be attached to Genisys protocol messages The standard CRC size for the Genisys protocol is 16 bits For greater security a 24 bit CRC checksum may be selected However at the present time only MicroLok Il and Genisys Il controller boards s
33. 50 91 NV ASSIGN NVIO 032 TO 50 92 NV ASSIGN NVIO 033 TO 50 93 NV ASSIGN NVIO O34 TO 50 94 NV ASSIGN NVIO 035 TO SO 95 NV ASSIGN NVIO O36 TO 50 96 NV ASSIGN NVIO O37 TO 50 97 END LOGIC END PROGRAM A 6 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Appendix Appendix Typical Genisys Il Genisys Slave Protocol Application SM 6800M Rev 2 September 2010 B 1 Appendix B 77 AnsaldoSTS 77 AnsaldoSTS B 2 SM 6800M Rev 2 September 2010 gt uw AnsaldoSTS Appendix B Typical Genisys II Genisys Slave Protocol Application Genisys PROGRAM Genisys EXAMPLE INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 TYPE NV IN32 0UT32 NV OUTPUT NVOO 000 NVOO 001 NVOO OO2 NVOO 003 NVOO 004 NVOO 005 NVOO 006 NVOO 007 NVOO 010 NVOO 011 NVOO 012 NVOO 013 NVOO 014 NVOO 015 NVOO 016 NVOO 017 NVOO 020 NVOO 021 NVOO 022 NVOO 023 NVOO 024 NVOO 025 NVOO 026 0 027 NVOO 030 NVOO 031 NVOO 032 0 033 NVOO 034 NVOO 035 NVOO 036 NVOO 037 NV INPUT NVIO 000 NVIO 001 NVIO 002 NVIO 003 NVIO 004 NVIO 005 NVIO 006 NVIO 007 NVIO 010 NVIO 011 NVIO 012 NVIO 013 NVIO 014 NVIO 015 NVIO 016 NVIO 017 NVIO 020 NVIO 021 NVIO 022 NVIO 023 NVIO 024 NVIO 025 NVIO 026 NVIO 027 NVIO 030 NVIO 031 NVIO 032 NVIO 033 NVIO 034 NVIO 035 NVIO 036 NVIO 037 COMM LIN
34. 61 65 21 75 41 45 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT8I DT8I DT8I DT8I DT8I 8 8 8 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT8I 8 02 06 12 16 22 26 32 36 02 06 12 16 22 26 5131275 236 42 46 52 56 62 66 72 76 42 46 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT8I DT8I DT8I DT8I DT8I 8 8 DT8I DT8O DT8O DT8O DT8O DT8O DT80 DT80 DT80 8 8 03 07 13 L7 23 27 335 37 03 07 13 17 23 ub 5337 aos 43 47 53 63 67 73 77 43 47 J 4 SM 6800M Rev 2 September 2010 uw AnsaldoSTS Appendix J DT81 50 DT8I 51 DT81 52 DT81 53 DT81 54 DT81 55 DT81 56 DT81 57 DT81 60 DT8I 61 DT81 62 DT81 63 DT81 64 DT81 65 DT81 66 DT81 67 DT81 70 DT81 71 DT8I 72 DT8I 73 DT81 74 DT81 75 DT8I 76 DT81 77 CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS 1 ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC LOGIC BEGIN NV ASSIGN NVIO 000 TO DT80 00 NV ASSIGN NVIO 001 TO DT80 01 NV ASSIGN NVIO 002 TO DT80 02 NV ASSIGN NVIO 003 TO DT80 03 NV ASSIGN NVIO 004 TO DT80 04 NV ASSIGN NVIO 005 TO DT80 05 NV ASSIGN NVIO 006 TO DT80
35. 6800M Rev 2 September 2010 N AnsaldoSTS ATCS WIU Protocol Link 8 5 WIU PROTOCOL LINK 8 1 Introduction The Genisys II CSIB Executive supports communication using the ATCS protocol Only one ATCS protocol link may be defined in a Genisys II application program and it must be assigned to Serial Port 3 A typical MicroLok II ATCS link test application is presented in Appendix G 8 2 External Connections Connections for the various serial interface signals supported by the ATCS protocol are shown for physical Port 3 in Table 8 1 Refer to Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys and other serial devices serial isolator is required between the Genisys II serial port and the ATCS MCP See Figure 8 1 for typical interconnections Table 8 1 Port 3 Connections for the ATCS WIU Protocol Name Desnaton Name Designation Output Receiver Clock Input Common SM 6800M Rev 2 September 2010 8 1 N uw x ATCS WIU Protocol Link 7 AnsaldoSTS GENISYS II 48 PIN HARTING ATCS CONNECTOR RADIO DB25P 08255 CONNECTIONS 16 RXD A RXD B RO RXC A RXC B Ride TXD A TXD B gt 6 TXC A E18 el TXC B COM C24 LEN RS 232 RS 422 SERIAL ISOLATOR N16404701 Figure 8 1 Typical ATCS WIU Protocol Radio Connection See Specific ATCS Radio Documenta
36. A32 RTS c A14 EGE Cie NOTE ISOLATOR MAY BE ELIMINATED IF UNITS POWERED BY THE SAME BATTERY TXD E16 gt RXD PORT3 14 cig COMMON E18 5 RXREF C14 gt RTS E10 DCD E12 7 CTS C26 5 12 VOLTS ISOLATOR N16401101 RXD lt E14 TXD E16 COMMON t C18 RXREF 4 E18 RTS C14 E10 CTS 4 E12 12 VOLTS C26 NOTE ISOLATOR MAY BE ELIMINATED IF UNITS ARE POWERED BY THE SAME BATTERY S TXD RXD C6 _1XD RXD lt ce BXD TXD S TXD A32 5 COMMON COMMON 7 PORT1 E2 5 4A RTS RTS lt E2 PORT C10 5 DCD DCD 4 C10 E4 5 34 RTS RTS lt E C12 5 DCD DCD C12 C26 5 12V 12V C26 A10 5 CTS CTS A10 C24 gt 412V 12V pK 024 122 5 CTS lt 12 NOTE USE DIRECT CONNECTION ONLY WHEN UNITS ARE POWERED BY THE SAME BATTERY Figure 4 1 Typical Connections for MicroLok Peer Protocol Ports 4 2 SM 6800M Rev 2 September 2010 AnsaldoSTS MICROLOK II Peer Protocol Link 4 6 MicroLok Il Peer Protocol Link Compiler Declaration and Configuration Commands Compiler declarations and configuration commands for the MicroLok I
37. AnsaldoSTS A 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS us Genisys II Genisys Master Protocol Test Application Genisys II PROGRAM GENMSTR INTERFACE LOCAL BOARD NV I ADJUSTABLE N32 OUT32 ENABLE 1 TYPE NV IN32 0UT32 NV OUTPUT NVO0O 000 NVOO OO1 NVOO 002 NVO0O 004 0 005 NVOO 006 00 010 NVOO 011 00 012 00 014 00 015 00 016 00 020 00 021 NVOO O22 00 024 00 025 NVOO O26 0 030 NVOO O31 NVOO O32 00 034 NVOO O35 NVOO O36 NV INPUT NVI NVI NVI NVI NVI NVI NVI NVI COMM 0 000 NVIO 001 NVIO 002 0 004 NVIO 005 NVIO 006 0 010 NVIO 011 NVIO 012 0 014 NVIO 015 NVIO 016 0 020 NVIO 021 NVIO 022 0 024 NVIO 025 NVIO 026 0 030 NVIO 031 NVIO 032 0 034 NVIO 035 NVIO 036 LINK GEN MASTER ADJUSTABLE ENABLE 1 PROTOCOL Genisys MASTER ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE PORT 3 BAUD 1200 STOPBITS 1 PARITY NONE KEY ON DELAY 50 KEY OFF DELAY 50 STALE DATA TIMEOUT POINT POINT lg MASTER TIMEOUT 1000 MSEC POLLING INTERVAL 0 MSEC CARRIER MODE CONSTANT SECURE MODE ON MASTER CHECKBACK ON 300 SEC NVI NVI NVI NVI NVI NVI NVI NVI NVOO NVOO NVOO NVOO NVOO NVOO NVOO
38. Bits Table 5 3 presents the System Boolean Bits available with the SCS 128 protocol Table 5 3 SCS 128 Slave Protocol Link System Boolean Expressions Exyrsin O link name ENABLED link names DISABLE link names STANDBY link names nn ENABLED link names nn STATUS link names nn INPUTS RECEIVED 5 9 Maintenance Tool Support for the SCS 128 Protocol A read only Boolean bit that indicates to the application whether or not the SCS 128 link is enabled in the link configuration 0 DISABLED 1 ENABLED A read write Boolean bit that allows the application program to disable the SCS 128 link 0 ENABLED 1 DISABLED A read only Boolean bit that indicates whether or not the SCS 128 STANDBY port is active 0 INACTIVE 1 ACTIVE A read only Boolean bit that indicates whether or not a slave is enabled nn is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current status of slave communication nn is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic blocks when a slave receives serial input data This bit cannot be directly accessed by the applictaion program This section describes the part of the Maintenance Tool that is applicable to the Genisys II SCS 128 Protocol For a complete description of the maintenance tool please refer to Service Manual SM 6800C 5 4 SM 6800M Rev 2 Septemb
39. DT 8 Slave Protocol Link Protocol 2 00 11 7 12 RAIL TEAM AND TECHNICAL 5 12 1 APPENDIX TYPICAL GENISYS GENISYS MASTER PROTOCOL APPLICATION A 1 APPENDIX B TYPICAL GENISYS ll GENISYS SLAVE PROTOCOL APPLICATION B 1 APPENDIX C TYPICAL GENISYS II MICROLOK PEER PROTOCOL APPLICATION C 1 APPENDIX D TYPICAL GENISYS SCS 128 SLAVE PROTOCOL APPLICATION D 1 APPENDIX E TYPICAL GENISYS MCS 1 SLAVE PROTOCOL APPLICATION E 1 APPENDIX F TYPICAL GENISYS ARES PROTOCOL F 1 APPENDIX G TYPICAL MICROLOK Il ATCS LINK TEST APPLICATION G 1 APPENDIXH TYPICAL GENISYS ll SLCP H 1 APPENDIX TYPICAL GENISYS S2 SLAVE PROTOCOL APPLICATION 1 1 APPENDIX J TYPICAL GENISYS II 8 SLAVE PROTOCOL J 1 vi SM 6800M Rev 2 September 2010 AnsaldoSTS Table of Contents Figure 1 1 Figure 2 1 Figure 2 2 Figure 2 3 Figure 2 4 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 4 1 Figure 4 2 Figure 4 3 Figure 4 4 Figure 4 5 Figure 4 6 Figure 5 1 Figure 5 2 Figure 5 3 Figure 6 1
40. DT81 22 TO NVOO 022 NV ASSIGN DT81 23 TO NVOO 023 NV ASSIGN DT81 24 TO NVOO 024 NV ASSIGN DT81 25 TO NVOO 025 NV ASSIGN DT81 26 TO NVOO 026 NV ASSIGN DT81 27 TO NVOO O27 NV ASSIGN DT8I 30 TO NVOO 030 NV ASSIGN DT81 31 TO NVOO 031 NV ASSIGN DT81 32 TO NVOO 032 NV ASSIGN DT81 33 TO NVOO 033 NV ASSIGN DT81 34 TO NVOO 034 NV ASSIGN DT81 35 TO NVOO 035 NV ASSIGN DT81 36 TO NVOO 036 NV ASSIGN DT81 37 TO 0 037 END LOGIC END PROGRAM J 6 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Appendix J AJ 77 AnsaldoSTS SM 6800M Rev 2 September 2010 J 7 AN Appendix J 77 AnsaldoSTS End of Manual J 8 SM 6800M Rev 2 September 2010
41. ENABLED the default is ENABLED Defines a list of Boolean values logic bits to be sent serially by NV OUTPUT a slave The list may include 1 to 128 Boolean bits Each ARES slave must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially NV INPUT by a slave The list may include 1 to 128 Boolean bits The NV INPUT declaration is optional Not adjustable SM 6800M Rev 2 September 2010 7 5 ARES Protocol e AnsaldoSTS 7 8 ARES WIU Protocol Link System Boolean Bits Table 7 6 presents the System Boolean Bits available with the ARES protocol Table 7 6 ARES WIU Protocol Link System Boolean Bits A read only Boolean bit that indicates to the application whether or not the ARES link is enabled in the link configuration 0 DISABLED 1 ENABLED A read only Boolean bit that indicates whether or not a lt link_name gt lt slave_name gt ENABLED slave is enabled is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current lt link_name gt slave_name gt STATUS status of slave communication is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic lt link_name gt lt slave_name gt blocks when a slave receives serial input data This bit INPUTS RECEIVED cannot be directly accessed by the application link names ENABLED 7 9 Maintenance Tool Support fo
42. MicroLok Peer address format Allowable addresses are 0 to 65534 NV MILADDRESS There is no default Note that MicroLok Peer protocol station may have either a MicroLok Peer format address or an ATCS format address Sets the address for MicroLok Peer protocol station in ATCS address format Allowable values 0 or a valid ATCS address See ATCS Specification 200 Appendix for the ATCS address format There is no default Note that a MicroLok II Peer protocol station may have either MicroLok Il Peer format address or an ATCS format address Specifies whether or not a MicroLok Peer protocol station will be ENABLE enabled on unit initialization 0 Disabled 1 Enabled There is no default Allows the application programmer to specify a name for a STATION NAME MicroLok Peer protocol station The station name has no default value and is not adjustable Sets the peer address for a MicroLok Peer protocol station The peer address must be in the same format as the station address Configures the peer station to include an optional time stamp in all TIME STAMP messages sent by the affected station 0 No Timestamp Included 1 Timestamp Included The default value is 0 Designates a MicroLok Il Peer protocol station as a Clock Master When CLOCK MASTER is setto 1 the station is allowed to set CLOCK MASTER the clock in the unit that hosts its peer station Allowable values are 0 1
43. NONE 2 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Genisys Master Protocol Link commend KEY ON DELAY KEY OFF DELAY STALE DATA TIMEOUT POLLING INTERVAL MASTER TIMEOUT CARRIER MODE CRC SIZE SECURE MODE The time in bit times between the assertion of RTS and the leading edge of the start bit of the first byte of the transmitted Genisys message The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time in bit times between the end of the last stop bit of the last byte of a transmitted Genisys message and the de assertion of RTS The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The elapsed time after which a slave is declared failed during which no valid messages from the addressed slave have been received The allowable range is 10 to 600 seconds The default value is 300 seconds The time interval inserted by the Genisys master between the completion of one message exchange initiated by the master and the beginning of the next The purpose of the polling interval is to reduce loading on the microprocessor by reducing the load imposed by serial communication Increasing the interval decreases serial communication loading while increasing serial communication delays for the affected link Decreasing the interval increases communication loading while decreasing communication delays The allowable range of values is 0 to
44. NV ASSIGN NVIO 011 TO SO ds NV ASSIGN NVIO 012 TO 50 12 NV ASSIGN NVIO 013 TO 50 13 NV ASSIGN NVIO 014 TO SO 14 NV ASSIGN NVIO 015 TO 50 15 NV ASSIGN NVIO O16 TO 50 16 NV ASSIGN NVIO O17 TO 50 17 NV ASSIGN NVIO 020 TO 50 20 NV ASSIGN NVIO O21 TO 50 21 NV ASSIGN NVIO O22 TO 50 22 NV ASSIGN NVIO 023 TO 50 23 NV ASSIGN NVIO O24 TO 50 24 NV ASSIGN NVIO 025 TO 50 25 NV ASSIGN NVIO O26 TO 50 26 NV ASSIGN NVIO O27 TO 50 27 NV ASSIGN NVIO 030 TO 50 30 NV ASSIGN NVIO O31 TO 50 31 NV ASSIGN NVIO O32 TO 50 32 NV ASSIGN NVIO 033 TO 50 33 NV ASSIGN NVIO O34 TO 50 34 NV ASSIGN NVIO 035 TO 50 35 NV ASSIGN NVIO O36 TO 50 36 NV ASSIGN NVIO O37 TO 50 37 NV ASSIGN 51 00 0 000 NV ASSIGN SI 01 TO NVOO 001 NV ASSIGN SI 02 TO NVOO 002 NV ASSIGN 51 03 NVOO 003 NV ASSIGN SI 04 TO NVOO 004 NV ASSIGN SI 05 TO NVOO 005 NV ASSIGN SI 06 TO NVOO 006 NV ASSIGN SI 07 TO NVOO 007 NV ASSIGN 61 10 NVOO 010 NV ASSIGN SI 11 TO NVOO 011 NV ASSIGN 51 12 NVOO 012 NV ASSIGN 51 23 NVOO 013 NV ASSIGN SI 14 TO NVOO 014 NV ASSIGN SI 15 TO NVOO 015 NV ASSIGN SI 16 TO NVOO 016 NV ASSIGN SI 17 TO NVOO 017 NV ASSIGN SI 20 TO NVOO 020 NV ASSIGN 51 21 0 021 NV ASSIGN SI 22 TO NVOO 022 NV ASSIGN SI 23 TO NVOO 023 NV ASSIGN SI 24 TO NVOO 024 NV ASSIGN SI 25 TO NVOO 025 NV ASSIGN SI 26 TO NVOO 026 NV ASSIGN 51 27 00 027 NV ASSIGN SI 30 TO NVOO 030 NV ASSIGN 61 31 NV
45. Protocol Link Protocol Monitor 6 7 ARES WIU PROTOCOL 7 1 Tal INVOQUCUON 7 1 7 2 e Oe p date a ftbi 7 1 7 3 Genisys Il CSIB Jumper 7 3 7 4 OFront Panel Options ii ER er iet E ur Ea b Pep ti E ens 7 3 7 5 Defining an ARES WIU Protocol Link in a Genisys Application Program 7 3 7 6 ARES WIU Protocol Link Compiler Declarations and Configuration Commands 7 3 7 7 ARES WIU Protocol Station Compiler 7 5 7 8 ARES WIU Protocol Link System Boolean 7 6 iv SM 6800M Rev 2 September 2010 77 AnsaldoSTS Table of Contents 7 9 Maintenance Tool Support for the ARES WIU Protocol Link 7 6 7 9 1 ARES WIU Protocol Link 7 7 7 9 2 ARES WIU Protocol Station Configuration 7 8 7 9 3 ARES WIU Protocol Link 7 10 7 9 4 ARES WIU Protocol Station Statistics 7 11 7 9 5 ARES WIU Radio Control Protocol 7 12 7 9 6 ARES WIU Protocol Link Protocol Monitor se
46. Signal Common 12 Volts 12 Volts 1 3 Genisys CSIB Board Jumpers The required jumper positions for the Genisys II CSIB vary depending on the protocol selected for each serial port The default jumper positions are presented in Table 1 3 The protocol specific jumper positions are described in the protocol specific sections in this manual The factory default position for each jumper is shown in BOLD TYPE 1 4 SM 6800M Rev 2 September 2010 AM 77 AnsaldoSTS Table 1 3 Jumper Connections Functional Description JMP1 JMP2 JMP3 JMP4 JMP5 RS 232 JMP11 Serial Port 3 Driver Level RS 423 5 232 12 Serial Port 3 Driver Level RS 423 JMP18 JMP19 JMP24 Bottom PCMCIA Slot Wait States Bottom PCMCIA Slot Wait States On Board RAM Wait State Top PCMCIA Wait States Top PCMCIA Wait States On Board FLASH Wait States Enable Serial Port 4 RXD Input Enable Serial Port 4 DCD Input CPU Reset from Backplane Serial Port 1 Synchronous TX CLK Serial Port 3 Synchronous TX CLK Serial Port 3 Synchronous TX CLK Serial Port 4 Receiver Clock Input Serial Port 3 Receiver Clock Input Serial Port 2 Receiver Clock Input Serial Port 1 Receiver Clock Input Deleted FLASH PROM Programming Enable 0x200000 Ox2FFFFF Low application program space FLASH PROM Programming Enable 0x000000 OxOFFFFF Low executive program space FLASH PROM Programming Enable 0x100000 Ox1FFFFF High execut
47. System Revision 7 00 N451232 1881 GI x El Zi m m Save Copy Back Split Settings Help Program 2 at address 1 Serial Message Monitor Do uw se u 1 LINK NAME ENABLEC 10 57 58 XMT ACK 01 10 57 58 RCV POL 01 01 10 57 58 XMT ACK 01 01 10 57 58 RCV POL 01 01 10 57 58 01 01 10 57 58 RCV POL 01 01 10 57 58 01 01 10 57 58 RCV RCL 01 810283 10 57 58 RCR 01 81820401 02 03 04 11 10 57 59 RCV ACK 01 00 10 57 59 RCV POL 01 01 i 10 57 59 XMT ACK 01 01 10 57 59 RCV 01 81 83 04 80 40 CO 20 10 57 59 XMT 01 81 83 04 80 40 CO 20 8 DU 10 57 59 RCV EXE 01 810485 10 57 59 XMT VER 01 810485 10 57 59 RCV POL 01 01 10 57 59 01 01 10 57 59 RCV POL 01 01 10 57 59 01 01 10 57 59 RCV POL 01 01 10 57 59 XMT ACK 01 01 10 57 59 RCV RCL 01 810283 10 57 59 RCR 01 81820401 02 03 04 11 10 58 00 01 00 10 58 00 RCV POL 01 01 rl For Help press F1 08 30 05 11 04AM A Figure 5 3 SCS128 Slave Protocol Link Protocol Monitor SM 6800M Rev 2 September 2010 5 7 EM 5 5 128 Protocol 7 AnsaldoSTS 77 AnsaldoSTS 5 8 SM 6800M Rev 2 September 2010 5 AnsaldoSTS MCS 1 Protocol 6 ENHANCED 5 1 SLAVE PROTOCOL LINK 6 1 Introduction The Genisys II CSIB Executive supports communication using the MCS I protoco
48. The time in bit times between the assertion of RTS and the leading edge of the start bit of the first byte of the transmitted Genisys message The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times KEY ON DELAY SM 6800M Rev 2 September 2010 11 3 DT 8 Slave Protocol Link S 77 AnsaldoSTS po Command Function The time in bit times between the end of the last stop bit of the last byte of a transmitted DT 8 message and the de assertion of RTS The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times Specifies whether or not the master end of the link will have KEY OFF DELAY CARRIER MODE STALE DATA TIMEOUT carrier keyed on continuously The CONSTANT carrier option requires a full duplex communication circuit The KEYED carrier option is used only when carrier outbound from the master might interfere with slave transmissions In all other cases including direct wire CONSTANT carrier operation should be specified The default carrier mode is CONSTANT The elapsed time after which a slave is declared failed during which no valid messages addressed to the slave have been received The allowable range is 10 to 600 seconds The default value is 300 seconds 11 7 DT 8 Slave Protocol Station Compiler Declarations and Configuration Commands The DT 8 Slave protocol Compiler declarations and configuration commands are given in Table 11 2
49. bit that indicates whether or not a slave is enabled is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current status of slave communication nn is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic blocks when a slave receives serial input data This bit cannot be directly accessed by the application This section describes the part of the Maintenance Tool that is specifically applicable to the Genisys Slave End link For a complete description of the maintenance tool please refer to Chapter 4 of Service Manual SM 6800C SM 6800M Rev 2 September 2010 3 7 5 7 Enhanced Genisys Slave End Protocol Link AnsaldoSTS 3 9 1 Enhanced Genisys Slave Protocol Link Configuration the main launch menu click on the button labeled System Configuration The user may either examine of modify the configuration database Select the appropriate button to modify or view the Genisys Slave End Link configuration elements Figure 3 2 presents the Genisys Slave End Link configuration Genisys Slave Protocol configuration parameters are described in Section 3 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool GENISYS_SLAVE Genisys slave Link Enable Point to Point V o default SET Physical port number 4 E default 4
50. button to modify or view the configuration elements Figure 6 1 presents the configuration of the MCS 1 Slave Protocol Link MCS 1 Slave Protocol configuration parameters are described in Section 6 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool MCS_SLAVE MCS Slave Link Enable v i default SETE emn Point to Point V default SET Physical port number 4 default 3 Standby physical port 4 0 means default 0 Baud rate 240 default 2 400 Alt Baud rate 75 default 75 Stop bits default 1 Parity Even default Even Key On delay 12 default 12 Key Olf delay 12 default 12 Interbyte timeout 0 ms default 0 Stale data TO a seconds default 300 Configuration address p default 0 28223422 4 Station 1 Enable default SET Station 2 Enable default SET Figure 6 1 MCS 1 Slave Protocol Link Configuration SM 6800M Rev 2 September 2010 6 5 MCS 1 Protocol 77 AnsaldoSTS 6 9 2 MCS 1 Slave Protocol Link Statistics the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and protocol links Figure 6 2 To enter the Link Information view for a particular
51. enabled in the link configuration 0 DISABLED 1 ENABLED lt link_name gt lt slave_name gt ENA A read only Boolean bit that indicates whether or not a slave is BLED enabled 0 DISABLED 1 ENABLED BLE a specific ATCS slave A read only Boolean bit that indicates the current status of slave TUS communication 0 FAILED 1 NORMAL lt link_name gt lt slave_name gt A special Boolean bit that is used to trigger logic blocks when a slave INPUTS RECEIVED receives serial input data This bit cannot be directly accessed by the application program 8 9 Maintenance Tool Support for the ATCS WIU Protocol Link This section describes the part of the Maintenance Tool that is applicable to the Genisys ATCS Protocol For a complete description of the maintenance tool please refer to SM 6800C SM 6800M Rev 2 September 2010 8 5 x ATCS WIU Protocol Link AnsaldoSTS 8 9 1 ATCS WIU Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate ATCS WIU protocol link button to modify or view the configuration elements Figure 8 2 presents the ATCS WIU Protocol Link configuration ATCS WIU Protocol link configuration parameters are described in Section 8 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maint
52. indicates whether or not a link names nn ENABLED slave is enabled nn is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current status of link names nn STATUS slave communication nn is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic blocks link name nn INPUTS RECEIVED when serial input data is received from a slave This bit cannot be directly accessed by the application program 2 9 Maintenance Tool Support This section describes the part of the Maintenance Tool that is specifically applicable to the Genisys Master End link For a complete description of the maintenance tool please refer to Chapter 4 of Service Manual SM 6800C SM 6800M Rev 2 September 2010 2 5 A Genisys Master Protocol Link AnsaldoSTS 2 9 1 Genisys Master Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate button to modify or view the Genisys Master End Link configuration elements Figure 2 1 presents the Genisys Master End Link configuration Genisys Master Protocol configuration parameters are described in Section 2 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool GENISYS MASTER 03 Genisys
53. link simply click on the appropriate button An MCS I protocol link that is functioning properly generally has receiver error counts that are substantially lower than less than 5 of the Good message count Higher error counts indicated the need to test the integrity of the communication circuit Elevated error counts will usually cause an apparent slowdown of data flow on the circuit Loss of data may not be readily apparent until error counts become very high 30 or more of the Good message count The count of messages sent should roughly equal the count of messages received An MCS 1 slave protocol link that receives no messages can transmit no messages as a slave can only respond to received messages High error counts often indicate a higher than normal level of noise on the communication circuit A high receive timeout error count suggests possible momentary interruptions of the signal on the communication circuit MCS SLAVE 5128 slave status Good message count this unit 276964 Good control messages received 1 Good control execute count 1 Good recall message count 50358 Good master recall count 0 Good 75 baud command count 0 Good normal baud command count 0 Acknowledges received 50357 Indications sent 50359 Checkback responses sent 1 Execute verification messages sent 1 Unacknowledged indications 2 Failed checkback sequence count 0 Invalid message received count 0 Message format error coun
54. master Link Enable v d Point to Point V default SET Physical port number 3 2 default 3 x Standby physical port 00 10 22 none default 0 Baud rate 3600 default 9 600 Stop bits default 1 Parity None default None Key On delay fi 2 ES default 12 Key Dif delay 8 E 2 default 12 Master wait TO 1 000 ms default 1 000 Polling Interval 8 0 ms default 0 Stale data TO 300 seconds default 300 Configuration address 0 default 0 Carrier mode Constant default Constant Secure default SET CRC Type 1 bits default Checkback default SET Station 2 Enable default SET Station 3 Enable default SET Station 4 Enable default SET Station 63 Enable v default SET Figure 2 1 Genisys Master Link Configuration 2 6 SM 6800M Rev 2 September 2010 A AnsaldoSTS Genisys Master Protocol Link 2 9 2 Genisys Master Protocol Link Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Figure 2 2 presents a typical Genisys Master Protocol Link Statistics display This display p
55. menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and protocol links Figure 9 3 To enter the Link Information view for a particular link simply click on the appropriate button CLCP Link1 SLCP link status Total messages received 56 Good received message count 56 Total messages queued for transmit 52 Total messages transmitted 52 Total DATA messages received 25 Total RECALL REQUEST received 2 Total UPDATES messages received 28 Total DATA messages transmitted 27 Total RECALL REQUESTs transmitted 25 Received byte error count 0 Hardware detected receive errors within a properly framed message 0 Unrecognized header error count 1 Illegal message type Otherwise valid message that cannot be processed 1 Received Checksum error count 0 Receive inter byte timeout 0 Receive buffer overflow error cnt 0 Receive FIFO overflow count 0 Maximum bytes removed from FIFO 1 Spare counter 1 0 Spare counter 2 0 Spare counter 3 0 Spare counter 4 0 1 stations defined Station 0 Station 81 enabled Figure 9 3 SLCP Protocol Link Statistics SM 6800M Rev 2 September 2010 9 7 GETS SLCP Protocol Link AnsaldoSTS 9 9 3 SLCP Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the li
56. option requires a full duplex communication circuit The KEYED CARRIER MODE carrier option is used only when carrier outbound from the master might interfere with slave transmissions In all other cases including direct wire CONSTANT carrier operation should be specified The default carrier mode is CONSTANT The size of the CRC checksum in bits that is to be attached to Genisys protocol messages The standard CRC size for the Genisys protocol is 16 bits For greater security a 24 bit CRC CRC SIZE checksum may be selected However at the present time only MicroLok and Genisys Il controller boards support the Genisys protocol using a 24 bit CRC checksum The default CRC size is 16 bits SM 6800M Rev 2 September 2010 3 5 Enhanced Genisys Slave End Protocol Link AnsaldoSTS 3 7 Genisys Slave Protocol Link Compiler Declarations Table 3 2 presents the Genisys Slave Compiler declarations Table 3 2 Genisys Slave Protocol Link Compiler Declarations Fem Declares a slave on an Genisys slave protocol link and assigns its address An Genisys slave link may include 1 to 32 slave declarations The address of a Genisys slave may be 1 to 255 ADDRESS There is no default If a Genisys slave address is declared as 0 the configurable address is used for that slave Only one address declaration on an Genisys slave protocol link may use address 0 Not adjustable Specifies whether or no
57. the physical port number 1 to 4 For ARES Protocol ports the protocol identification pp is RS Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 7 5 Defining an ARES WIU Protocol Link in a Genisys Application Program A typical Genisys II application program that defines an ARES Protocol link is shown in Appendix F The basic structure of the ARES slave link definition is similar to that of a Genisys slave link 7 6 ARES WIU Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted Table 7 4 SM 6800M Rev 2 September 2010 7 3 ARES Protocol 77 AnsaldoSTS Table 7 4 ARES WIU Protocol Link Compiler Commands and Their Functions Command 2
58. the HDLC link between the Genisys II controller and 8 8 SM 6800M Rev 2 September 2010 EN 77 AnsaldoSTS 4 ATCSWIU Protocol Link the MCP The most likely reasons for elevated error counts are problems in the interconnection wiring and hardware problems either in the MCP or the Genisys II controller card TCS slave status General 5 Protocol Errors Invalid ATCS datagram format count 0 Unsupported message label count 0 Invalid datagram size count 0 Unsupported GFID count 0 Foreign message count 0 Invalid service signal count 0 5 CAD Protocol Counters CAD invalid datagram format errors 0 CAD source address errors 0 Good control message count 3 Repeated control count 2 Good recall message count 1 Repeated recall count 2 Recall response count 1 Indication message count 20 Indication acknowledge count 17 Invalid indication ACK count 0 Indication count 1 Invalid indication count 0 Consecutive un amp CK ed CAD indications 2 Maximum consecutive unACK ed CAD indications 1 2 stations defined Station 0 Station 1 enabled Station 0 Station 2 disabled Figure 8 5 ATCS WIU Protocol Station Statistics ATCS WIU Protocol station statistics reflect the quality of end to end communications between the Genisys II controller and the ATCS host the control office Unacknowledged indications and repeated control and recall messages indicate possible communication problems on
59. the RF link A moderate number of these events up to 20 of the total sent or received message counts is neither unusual nor detrimental to communication system performance When unacknowledged indications and repeated control and recall messages exceed 30 of the total good message counts the integrity of the communication link should be evaluated SM 6800M Rev 2 September 2010 8 9 AV ATCS WIU Protocol Link AnsaldoSTS 8 9 4 ATCS WIU Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate ATCS WIU protocol link to monitor from the list on the left to monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 8 6 presents a typical display for the ATCS Protocol Monitor The protocol monitor display for the ATCS Protocol Link shows message time and message direction transmitted or received followed by the full text of the transmitted or received message in hexadecimal bytes Please refer to ATCS Specification 200 or other appropriate ATCS Protocol document for additional information on the ATCS Protocol 23 GENISYS II Development System Revision 7 00 N451232 1881 e a wm A 7 Back Split dvanced Settings Help onitor TO ac DI sms ul se 1 ATCS SLAVE 13 38 42 2351 13 38 4
60. update sequence before reinitiating the request Valid times are 10 to 120 seconds The default time is 70 seconds The number of times a single message will be retried before it is ERETON discarded Valid values are 1 to 10 The default value is 3 7 4 SM 6800M Rev 2 September 2010 5 AnsaldoSTS ARES Protocol po Command 44 4 eaej The elapsed time after which a slave is declared failed during which no valid messages addressed to the slave have been STALE DATA TIMEQUT received The allowable range is 20 to 1810 seconds The default time is 300 seconds 7 7 ARES WIU Protocol Station Compiler Declarations Table 7 5 presents the ARES Station Compiler declarations for the ARES WIU protocol Table 7 5 ARES WIU Protocol Link Compiler Declarations ___ Funcdion 0M 6 O Declares a slave on an ARES link and assigns its address An ADDRESS ARES link may include 1 to 6 slave declarations The ARES slave address consists of 8 to 15 BCD digits formatted as defined in the ARES protocol specification There is no default Specifies whether or not an ARES slave will be enabled on unit ENABLE initialization 0 DISABLED 1 ENABLED There is no default A user defined string that defines the name of an ARES slave SL ATION NAME There is no default Allows the slave to request time from the ARES time server and SET CLOCK ENABLE set the system real time clock 0 DISABLED 1
61. 0 4 Figure 11 1 Figure 11 2 Figure 11 3 viii ATCS WIU Protocol Station Statistics 2 8 9 ATCS WIU Protocol Link Protocol Monitor 0021 0 enne 8 10 Typical Connection to the GETS Local Control Panel Controller 9 3 SLCP Protocol Link Configuration ssssssssssseseee eene 9 6 SLCP Protocol Link Statistics 9 7 SLCP Protocol Link Protocol Monitor 9 8 Typical Connection to an EDMI 10 1 S2 Slave Protocol Link Configuration 10 5 S2 Slave Protocol Link StatistiCS te fro er be et Mr Pe eats 10 6 S2 Slave Protocol Link Protocol Monitor 10 7 DT 8 Slave Protocol Link 1 1 nnne 11 6 Typical DT 8 Slave Protocol Link Statistics Display 11 7 Typical DT 8 Protocol Monitor ener 11 8 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Table of Contents List of Tables Table 1 1 Communication LED 1 4 Table 1 2 Serial Interface Signal Connections Supported by Genisys 11 1 4 Table 1 3 Jumper Connections 1 5 Table 2 1 Genisys Master Link Compiler Commands and
62. 014 TO 50 14 NV ASSIGN NVIO 015 TO SO 15 NV ASSIGN NVIO 016 TO 50 16 NV ASSIGN NVIO O17 TO 50 17 4 SM 6800 Rev 2 September 2010 w AnsaldoSTS Appendix E NV ASSIGN NVIO 020 TO 50 20 NV ASSIGN NVIO O21 TO 50 21 NV ASSIGN NVIO O22 TO 50 22 NV ASSIGN NVIO O23 TO 50 23 NV ASSIGN NVIO O24 TO 50 24 NV ASSIGN NVIO 025 TO 50 25 NV ASSIGN NVIO O26 TO 50 26 NV ASSIGN NVIO O27 TO 50 27 NV ASSIGN 51 00 0 000 NV ASSIGN SI 01 TO NVOO 001 NV ASSIGN SI 02 TO NVOO 002 NV ASSIGN SI 03 TO NVOO 003 NV ASSIGN SI 04 TO NVOO 004 NV ASSIGN SI 05 TO NVOO 005 NV ASSIGN 51 06 NVOO 006 NV ASSIGN SI 07 TO NVOO 007 NV ASSIGN 61 10 NVOO 010 NV ASSIGN SI 11 TO NVOO 011 NV ASSIGN SI 12 TO NVOO 012 NV ASSIGN SI 13 TO NVOO 013 NV ASSIGN SI 14 TO NVOO 014 NV ASSIGN SI 15 TO NVOO 015 NV ASSIGN SI 16 TO NVOO 016 NV ASSIGN SI 17 TO NVOO 017 NV ASSIGN SI 20 TO NVOO 020 NV ASSIGN SI 21 TO NVOO 021 NV ASSIGN SI 22 TO NVOO 022 NV ASSIGN 51 23 NVOO 023 NV ASSIGN 51 24 NVOO 024 NV ASSIGN SI 25 TO NVOO 025 NV ASSIGN SI 26 TO NVOO 026 NV ASSIGN SI 27 TO NVOO O27 END LOGIC END PROGRAM SM 6800M Rev 2 September 2010 E 5 Appendix E 77 AnsaldoSTS AV 77 AnsaldoSTS E 6 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Appendix F Appendix F Typical Genisys Il ARES Protocol Application SM 6800M Rev 2 September 2010 F 1
63. 1 NVIO 032 NVIO 033 NVIO 034 NVIO 035 NVIO 036 NVIO 037 COMM LINK LINK NAME ADJUSTABLE ENABLE 1 PROTOCOL MCS SLAVE ADJUSTABLE PORT 3 ADJUSTABLE STANDBY PORT 4 ADJUSTABLE BAUD 2400 ADJUSTABLE ALTERNATE BAUD 75 ADJUSTABLE STOPBITS 1 ADJUSTABLE PARITY EVEN ADJUSTABLE KEY ON DELAY 12 ADJUSTABLE KEY OFF DELAY 12 ADJUSTABLE STALE DATA TIMEOUT 300 SEC ADJUSTABLE POINT POINT T ADJUSTABLE INTERBYTE TIMEOUT 0 MSEC ADDRESS 1 SM 6800M Rev 2 September 2010 E 3 5 Appendix 77 AnsaldoSTS ADJUSTABLE ENABLE 1 NV OUTPUT 50 00 50 01 50 02 50 03 50 04 50 05 50 06 50 07 50 10 50 11 50 12 50 13 50 14 50 15 50 16 50 17 50 20 50 21 50 22 50 23 50 24 50 25 50 26 50 27 NV INPUT 51 00 51 01 51 02 51 03 51 04 51 05 51 06 51 07 oL KO SIIl 91 12 91 13 SI 14 SI 15 SI 16 SI 17 SI 20 SI 21 SI 22 SI 23 SI 24 SI 25 SI 26 SI 27 CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS ls ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC LOGIC BEGIN NV ASSIGN NVIO OOO TO 50 00 NV ASSIGN NVIO 001 TO 50 01 NV ASSIGN NVIO 002 TO 50 02 NV ASSIGN NVIO 003 TO 50 03 NV ASSIGN NVIO 004 TO 50 04 NV ASSIGN NVIO 005 TO 50 05 NV ASSIGN NVIO O06 TO 50 06 NV ASSIGN NVIO 007 TO 50 07 NV ASSIGN NVIO 010 TO 50 10 NV ASSIGN NVIO 011 TO SO 11 NV ASSIGN NVIO 012 TO 50 12 NV ASSIGN NVIO 013 TO 50 13 NV ASSIGN NVIO
64. 15 Hex Digits ARES Time Address OX 0076000204 8 to 15 Hex Digits Indication Broadcast Interval 60000 ms spins by factor of 1000 default 60 000 Stale Data Timeout 120 000 ms spins by factor of 1000 default 120 000 ACK Timeout 0 000 ms spins by factor of 100 default 10 000 Protocol Reset Timeout 89 ms spins by factor of 100 default 70 000 Time Request Timeout 2d ms spins by factor of 100 default 70 000 Wait For Clear Send 2000 zd ms spins by factor of 100 default 2 000 STATIONS FOR THIS LINK Highlight a station in the list below and press the Station Info button on the right to view change the station s data MP 88 0 at address 5076134707 is Enabled and Not Visited Station Info Figure 7 2 ARES WIU Protocol Link Configuration 7 9 2 ARES WIU Protocol Station Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate link button to modify or view the configuration elements Select the ARES protocol station to configure 7 8 SM 6800M Rev 2 September 2010 N 77 AnsaldoSTS ARES Protocol Figure 7 3 presents the ARES Protocol Station configuration ARES Protocol station configuration parameters are described in Section 7 7 of this manual See SM 6800C Section 6 2 17 for additional general inform
65. 2 23 2 13 38 42 RCV 03 B4 64 00 08 78 2 1 A1 1 A1 28 2 A1 1 1 00 02 02 12 01 03 000 13 38 42 0371 13 38 44 2371 13 38 44 RCV 23 B1 1E 2 13 38 45 2371 13 38 45 RCV 23 B1 1E 2 13 38 45 XMT 2371 13 38 45 RCV 23 B1 1E 2 13 38 46 XMT 2371 13 38 46 RCV 23 B1 1E A2 13 38 47 XMT 23 71 e 13 38 47 RCV 23 B1 2 Save 13 38 49 23 68 00 1A 00 EA 28 2 A1 A1 A1 78 2 A1 A1 A1 A1 00 1A 02 02 12 8 03 00 13 38 49 RCV 23 DI 18 C1 o 13 38 50 XMT 2371 13 38 50 RCV 23 DI 18 13 38 51 2371 13 38 51 RCV 23 D1 18 C1 13 38 51 XMT 2371 13 38 51 RCV 23 D1 18 C1 13 38 52 XMT 2371 13 38 52 RCV 23 D1 18 C1 13 38 53 XMT 2371 13 38 53 RCV 23 01 18 C1 13 38 55 2371 13 38 55 RCV 03 D6 8 00 00 1A 78 2 A1 A1 A1 1 A3 28 2 A1 A1 A1 1A 02 31 00 72 22 For Help press F1 08 31 05 01 47 PM Figure 8 6 ATCS WIU Protocol Link Protocol Monitor 8 10 SM 6800M Rev 2 September 2010 5 7 AnsaldoSTS GETS SLCP Protocol Link 9 GETS SERIAL LOCAL CONTROL PANEL SLCP PROTOCOL LINK 9 1 Introduction The Genisys CSIB Executive supports communication with the GETS Serial Local Control Panel 9 2 External Connections Connections for the various serial interface signals supported by the serial local control panel protocol are shown for each physical serial port in T
66. 28 Slave Protocol Link Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and protocol links Figure 5 2 To enter the Link Information view for a particular link simply click on the appropriate button An SCS 128 protocol link that is functioning properly generally has receiver error counts that are substantially lower than less than 5 of the Good message count Higher error counts indicated the need to test the integrity of the communication circuit Elevated error counts will usually cause an apparent slowdown of data flow on the circuit Loss of data may not be readily apparent until error counts become very high 30 or more of the Good message count The count of messages sent should roughly equal the count of messages received An SCS 128 slave protocol link that receives no messages can transmit no messages as a slave can only respond to received messages High error counts often indicate a higher than normal level of noise on the communication circuit A high receive timeout error count suggests possible momentary interruptions of the signal on the communication circuit LINK SCS128 slave status Good message count this unit 0 Good control messages received 0 Good control execute count 0 Good recall message count 0 Good change baud count 0 Acknowledge mess
67. 4 33 01 RCV 00 00 00 00 55 00 00 00 00 00 00 00 00 00 00 00 00 92 9A 14 33 01 XMT IND 00 00 00 00 C7 00 00 00 00 00 00 00 00 00 00 00 00 B5 81 14 33 01 RCV 02 8200 27 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 CF A6 14 33 01 XMT IND 02 02 00 CB 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 70 For Help press F1 10 31 05 02 47 PM Figure 10 4 52 Slave Protocol Link Protocol Monitor SM 6800M Rev 2 September 2010 10 7 x S2 Slave Protocol Link AnsaldoSTS 77 AnsaldoSTS 10 8 SM 6800M Rev 2 September 2010 7 AnsaldoSTS DT 8 Slave Protocol Link 11 DT 8 SLAVE PROTOCOL LINK 11 1 Introduction The GENISYS CSIB executive supports communication using the DATATRAIN DT 8 protocol It supports only the slave end of the DT 8 protocol It cannot be a DT 8 master The Genisys CSIB Executive supports the assignment of a STANDBY serial port to a DT8 communication link The STANDBY port is enabled and the NORMAL port is disabled when the DCD input to the STANDBY port is asserted The NORMAL port is enabled when the DCD input to the STANDBY port is de asserted or when no good messages addressed to a slave defined on the DT8 link have been received for five minutes Half duplex keyed carrier mode is disabled and CARRIER MODE defaults to CONSTANT any DT 8 Slave link that has a STANDBY port assigned 11 2 External Connections Connections for the
68. 59 000 4 EE 4 C26 C26 12V 5 RX SERIAL I F PANEL E20 E20 gt to N17004702 NOTES 1 SET ALL JUMPERS N17004702 TO THE OUT POSITION 2 GETS CLA P N 226659 000 IS INSERTED IN THE PORT A POSITION ON N17004702 GENISYS II LCP CPU P3 PORT3 4 16 KP 1 14 C22 GETS 2 CLA C18 LOM 226659 000 4 C26 c26 5 SERIAL I F PANEL E20 E20 gt 22 N17004701 E18 Em RXREF C18 COM NOTES 1 SETJUMPERS JP1 THROUGH JP6 TO THE OUT POSITION 2 SET JUMPERS JP7 THROUGH JP10 TO THE OUT POSITION IF PORT AND ARE TO BE POWERED SEPARATELY 3 GETS CLA P N 226659 000 MAY BE INSERTED IN PORT A OR PORT POSITION 4 CONNECT POWER TO EITHER PORT OR PORT B CONNECTOR IF JUMPERS JP7 THROUGH JP10 ARE SET TO THE POSITION Figure 9 1 Typical Connection to the GETS Local Control Panel Controller SM 6800M Rev 2 September 2010 9 3 3 GETS SLCP Protocol Link AnsaldoSTS 9 6 SLCP Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted Table 9 1 presents the Compiler declarations and functions Table 9 1 SLCP Protocol Link Compiler Commands and Their Functions Declares a new SLCP protocol serial link and defines the link name LINK The link name is a user selectable text string No default Not adjustable Spec
69. 6 50 37 NV INPUT 51 00 SI 01 51 02 SI O3 51 04 51 05 51 06 61 07 SI 10 SI 11 SI 12 61 13 SI 14 SI 15 SI 16 SI 17 51 20 51 21 SI 22 61 23 51 24 51 25 51 26 81 27 51 30 51 31 51 32 51 33 51 34 51 35 51 36 51 37 ADDRESS 1 ADJUSTABLE ENABLE 1 NV OUTPUT 50 40 50 41 50 42 50 43 50 44 50 45 50 46 850 47 50 50 50 51 50 52 50 53 50 54 50 55 50 56 50 57 50 60 50 61 50 62 50 63 1 4 SM 6800 Rev 2 September 2010 s uw AnsaldoSTS Appendix SO 64 SO 65 SO 66 SO 67 50 70 50 71 50 72 50 73 50 74 50 75 50 76 50 77 NV INPUT 51 40 51 41 SI 42 81 43 51 44 SI 45 51 46 81 47 SI 50 SI 51 SI 52 61 53 51 54 SI 55 51 56 51 57 51 60 51 61 51 62 61 63 51 64 51 65 51 66 51 67 51 70 81 71 51 72 81 73 51 74 51 75 81 76 81 77 CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS 1 ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC_TIMEOUT 500 MSEC LOGIC BEGIN NV ASSIGN NVIO 000 TO 50 00 NV ASSIGN NVIO 001 TO SO 01 NV ASSIGN NVIO 002 TO SO 02 NV ASSIGN NVIO 003 TO SO 03 NV ASSIGN NVIO 004 TO 50 04 NV ASSIGN NVIO 005 TO 50 05 NV ASSIGN NVIO 006 TO SO 06 NV ASSIGN NVIO 007 TO SO 07 NV ASSIGN NVIO 010 TO SO 10 NV ASSIGN NVIO 011 TO SO 11 NV ASSIGN NVIO 012 TO 50 12 NV ASSIGN NVIO 013 TO SO 13 NV ASSIGN NVIO 014 TO 50 14 NV ASSIGN NVIO 015 TO SO 15 NV ASSIGN NVIO 016 TO 50 16 NV ASSIGN NVIO 01
70. 6 06 06 06 06 06 C1 56 B4 93 13 14 13 RCV UNK 555555 55 55 55 AA STRUCTURE ERROR 13 14 17 IND 02 00 26 00 20 76 93 51 51 50 76 13 47 07 00 04 02 02 C7 83 D4 07 02 00 04 1E 00 00 10 0A 0A 0A 0A 0A 0A OA 06 06 0A 0A 0A 0A 0A 06 an 13 14 19 RCV RFA 01 00 26 00 10 50 76 13 47 07 00 07 BF 13 14 23 IND 02 00 26 00 08 10 20 76 93 51 51 50 76 13 47 08 00 02 02 in 02 C7 88 01 C7 88 AA 20 76 93 51 51 50 76 13 47 08 D4 07 02 OC 00 04 1A 00 00 10 06 06 06 06 06 06 06 06 06 06 06 06 06 06 06 06 C1 56 B4 93 13 14 25 RCV UNK 00 00 00 00 00 00 STRUCTURE ERROR 13 14 25 RCV RFA 01 00 26 00 12 50 76 13 47 08 00 84 BA 13 14 28 RCV UNK 555555555555 AA STRUCTURE ERROR 13 14 28 RCV UNK STRUCTURE ERROR 13 14 43 RCV CTL 01 00 26 00 14 50 76 13 47 08 20 76 93 51 51 00 02 02 02 7 09 01 7 09 50 76 13 47 08 20 76 93 51 51 04 07 02 OC 00 04 2 10 06 06 06 06 06 06 06 06 06 06 06 06 06 06 06 06 03 8 78 39 82 67 13 14 43 02 00 26 00 16 0 50 76 13 47 08 00 13 14 44 RCV UNK 55 55 55 55 55 55 55 STRUCTURE ERROR 13 14 57 XMT IND 02 00 26 00 OC 12 AA 20 76 93 51 51 50 76 13 47 07 00 06 02 02 C7 83 D4 07 02 0C 00 05 00 00 10 0A 0A 0A 0A 0A 0A NR Figure 7 7 ARES WIU Protocol Link Protocol Monitor SM 6800M Rev 2 September 2010 7 13 AV ARES Protocol 77 AnsaldoSTS 77 AnsaldoSTS 7 14 SM
71. 6800M Rev 2 September 2010 N 77 AnsaldoSTS ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE ADJUSTABLE Appendix C STOPBITS 1 PARITY NONE KEY ON DELAY 12 KEY OFF DELAY 12 GRANT DELAY 10 MSEC POINT POINT 1 ATCS NV ADDRESS 78A2AAAAAAAAA2 ADJUSTABLE ENABLE 1 STATION NAME 88 2 ADJUSTABLE ADJUSTABLE ADJ ADJ ADJUSTABLE ADJUSTABLE NV INPUT MII MII MII NVI2 MII NVI2 000 004 NV OUTPUT MII MII MII NVO2 MII NVO2 000 004 NV NUMERIC OUTPUT 8 MII NVNMO2 000 NV NUMERIC OUTPUT 16 MII NVNMO2 001 NV NUMERIC OUTPUT 32 MII NVNMO2 002 NV NUMERIC INPUT 8 MII NVNMI2 000 NV NUMERIC INPUT 16 MII NVNMI2 001 NV NUMERIC INPUT 32 MII NVNMI2 002 ACK TIMEOUT HEARTBEAT INTERVAL INDICATION UPDATE CYCLE STALE DATA TIMEOUT PEER ADDRESS TIME STAMP 1 NVI2 NVI2 NVO2 NVO2 001 005 001 005 1000 MSEC MII MII MII MII 7 2 1 5 SEC Lo 60 SEC NVI2 NVI2 NVO2 NVO2 002 006 002 006 MII NVI2 MII NVI2 MII NVO2 MII NVO2 003 007 003 007 SM 6800 Rev 2 September 2010 5 uw Appendix C AnsaldoSTS CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS HEC ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC APPLICATION VERSION 1 LOGIC BEGIN
72. 7 00 020 0 021 00 022 NVOO O23 00 024 00 025 NVOO O26 NVOO O27 00 030 0 031 NVOO O32 NVOO O33 NVO0 034 00 035 NVOO O36 NVOO 037 NV INPUT NVIO 000 NVIO OOl NVIO 002 NVIO 003 NVIO 004 NVIO 005 NVIO 006 NVIO 007 NVIO 010 NVIO 011 NVIO 012 NVIO 013 NVIO 014 NVIO 015 NVIO 016 NVIO 017 NVIO O20 NVIO 021 NVIO 022 NVIO 023 NVIO O24 NVIO 025 NVIO O26 NVIO 027 NVIO O30 NVIO O31 NVIO 032 NVIO 033 NVIO O34 NVIO 035 NVIO O36 NVIO 037 COMM LINK 52 SLAVE ADJUSTABLE ENABLE 1 0 1 PROTOCOL S2 SLAVE ADJUSTABLE PORT 4 41 28 34 4 ADJUSTABLE BAUD 1200 150 300 600 1200 1800 2400 3600 4800 7200 9600 19200 ADJUSTABLE KEY ON DELAY 12 0 to 280 BIT TIMES ADJUSTABLE KEY OFF DELAY 12 0 to 280 BIT TIMES SM 6800 Rev 2 September 2010 1 3 w Appendix I 7 AnsaldoSTS ADJUSTABLE STALE DATA TIMEOUT 300 SEC 1 to 600 SEC ADJUSTABLE POINT POINT 1 0 1 ADJUSTABLE TRANSMITTER INHIBIT 25 MSEC 5 to 50 MSEC ADJUSTABLE FRAME LENGTH 32 32 48 64 128 ud ADDRESS 2 ADJUSTABLE ENABLE 1 NV OUTPUT SO 00 SO 01 SO 02 SO 03 SO 04 SO 05 SO 06 SO 07 SO 10 SO 11 SO 12 SO 13 SO 14 SO 15 SO 16 SO 17 50 20 50 21 50 22 SO 23 50 24 50 25 50 26 50 27 50 30 50 31 50 32 50 33 50 34 50 35 50 3
73. 7 TO SO 17 NV ASSIGN NVIO 020 TO SO 20 NV ASSIGN NVIO 021 TO SO 21 NV ASSIGN NVIO 022 TO 50 22 NV ASSIGN NVIO 023 TO 50 23 NV ASSIGN NVIO 024 TO SO 24 SM 6800M Rev 2 September 2010 l 5 v Appendix I 7 AnsaldoSTS NV ASSIGN NVIO 025 TO 50 25 NV ASSIGN NVIO O26 TO 50 26 NV ASSIGN NVIO O27 TO 50 27 NV ASSIGN NVIO O30 TO 50 30 NV ASSIGN NVIO O31 TO 50 31 NV ASSIGN NVIO O32 TO 50 32 NV ASSIGN NVIO 033 TO 50 33 NV ASSIGN NVIO O34 TO 50 34 NV ASSIGN NVIO O35 TO 50 35 NV ASSIGN NVIO O36 TO 50 36 NV ASSIGN NVIO O37 TO S2 SLAVE DISABLE NV ASSIGN SI 00 TO NVOO 000 NV ASSIGN SI 01 TO NVOO 001 NV ASSIGN 51 02 0 002 NV ASSIGN 51 03 NVOO 003 NV ASSIGN SI 04 TO NVOO 004 NV ASSIGN SI 05 TO NVOO 005 NV ASSIGN 51 06 NVOO 006 NV ASSIGN 51 07 NVOO 007 NV ASSIGN SI 10 TO NVOO 010 NV ASSIGN SI 11 TO NVOO 011 NV ASSIGN 51 12 NVOO 012 NV ASSIGN SI 13 TO NVOO 013 NV ASSIGN 51 14 NVOO 014 NV ASSIGN 81415 NVOO 015 NV ASSIGN SI 16 TO NVOO 016 NV ASSIGN SI 17 TO NVOO 017 NV ASSIGN SI 20 TO NVOO 020 NV ASSIGN SI 21 TO NVOO 021 NV ASSIGN SI 22 TO NVOO 022 NV ASSIGN SI 23 TO NVOO 023 NV ASSIGN SI 24 TO NVOO 024 NV ASSIGN 51 25 0 025 NV ASSIGN 51 26 NVOO 026 NV ASSIGN SI 27 TO NVOO 027 NV ASSIGN SI 30 TO NVOO 030 NV ASSIGN SI 31 TO NVOO 031 NV ASSIGN 51 32 NVOO 032 NV ASSIGN SI 33 TO NVOO 033 NV AS
74. 800 7200 9600 and 19200 bits per second The default rate is 300 The number of stop bits 1 or 2 that will be attached to the end of each message byte as it is transmitted The default number is The type of parity calculation applied to each transmitted and received byte for the MCS 1 protocol The available selections are NONE EVEN ODD MARK and SPACE The default parity selection for the MCS 1 protocol is EVEN The time in bit times between the assertion of RTS and the leading edge of the start bit of the first byte of the transmitted MCS 1 message The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time in bit times between the end of the last stop bit of the last byte of a transmitted MCS 1 message and the de assertion of RTS The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time allowed between consecutive bytes of a received message If the inter byte timeout is exceeded end of message processing is initiated The default value 0 allows the Genisys II executive to automatically calculate the inter byte timeout value Otherwise values between 10 and 500 milliseconds may be selected The default value is recommended for most applications The elapsed time after which a slave is declared failed during which no valid messages addressed to the slave have been received The allowable range is 1 to 600 seconds The default value is 300 sec
75. 800C for additional information regarding the interpretation of Genisys protocol statistics GENISVS SLAVE2 Genisys slave status Total good messages received 362 Unit good messages received 362 Common controls received 0 Recalls received 91 Acknowledges received 93 Execute messages received 0 Unit good control messages received 2 Checkback failures 0 Indication messages sent 93 Unacknowledged indications 0 Suppressed responses 0 Receiver hardware errors 0 Message length errors 0 Received CRC errors 0 Invalid message format errors 0 Invalid message errors 0 Illegal header errors 0 Control byte address errors 0 Received byte error count 0 Double escape errors 0 Receive buffer overflow errors 0 Station 2 Station 2 enabled Figure 3 3 Genisys Slave Protocol Link Statistics SM 6800M Rev 2 September 2010 3 9 5 Enhanced Genisys Slave End Protocol Link AnsaldoSTS 3 9 3 Enhanced Genisys Slave Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 3 4 presents a typical display for the Genisys Slave Protocol Monitor The protocol monitor display for the Genisys Slave Protocol Link shows message time message direction transmitted or received and message type followed by the full transmitted or received message in hexadecimal bytes Please
76. ARES slave protocol Table 8 3 ATCS WIU Protocol Link Compiler Declarations Command Funcio ADDRESS Declares a slave on an ATCS link and assigns its address An ATCS link may include 1 to 6 slave declarations The ATCS slave address consists of 8 to 15 BCD digits formatted as defined in the ATCS protocol specification There is no default ENABLE Specifies whether or not an ATCS slave will be enabled on unit initialization 0 DISABLED 1 ENABLED There is no default no default HOST ADDRESS If specified this ATCS address will supercede the DEFAULT ATCS HOST ADDRESS for this slave The ATCS ground host address consists of 8 to 15 BCD digits formatted as defined in the ATCS protocol specification There is no default NV OUTPUT Defines a list of Boolean values logic bits to be sent serially by a slave The list may include 1 to 128 Boolean bits Each ATCS slave must have an NV OUTPUT declaration Not adjustable NV INPUT Defines a list of Boolean values logic bits to be received serially by a slave The list may include 1 to 128 Boolean bits The NV INPUT declaration is optional Not adjustable 8 8 ATCS WIU Protocol Link System Boolean Bits Table 8 4 presents the System Boolean Bits available with the ATCS protocol Table 8 4 ATCS WIU Protocol Link System Boolean Expressions Expression Funcio 2 2 link name ENABLED A read only Boolean bit that indicates to the application whether or not the ATCS link is
77. ASSIGN SI 33 TO NVOO 033 NV ASSIGN SI 34 TO NVOO 034 SM 6800M Rev 2 September 2010 B 5 uw Appendix B AnsaldoSTS NV ASSIGN SI 35 TO NVOO 035 NV ASSIGN 51 36 NVOO 036 NV ASSIGN SI 37 TO NVOO 037 END LOGIC END PROGRAM B 6 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Appendix Appendix Typical Genisys Il MicroLok Peer Protocol Application SM 6800M Rev 2 September 2010 C 1 Appendix C 77 AnsaldoSTS AV 77 AnsaldoSTS C 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Appendix MicroLok II MII PEER Protocol Verification Test Application A Genisys II PROGRAM 2LINKB SITE ID STRING PITTSBURGH DATE STAMP SEPTEMBER 11 2003 INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 NV IN32 0UT32 NV OUTPUT NVO0O 000 00 001 NVOO 002 00 003 00 004 NVOO 005 00 006 0 007 00 010 NVOO 011 00 012 0 013 00 014 00 015 00 016 NVOO 017 00 020 0 021 00 022 NVOO O23 00 024 00 025 NVOO O26 NVOO O27 0 030 NVOO O31 NVOO O32 00 033 00 034 00 035 NVOO O36 NVOO O37 NV INPUT NVIO OOO NVIO OOl NVIO 002 NVIO 003 NVIO 004 NVIO 005 NVIO 006 NVIO 007 NVIO 010 NVIO 011 NVIO 012 NVIO 013 NVIO 014 NVIO 015 NVIO 016 NVIO 017 NVIO O20 NVIO 021 NVIO 022 NVIO 023 NVIO O24 N
78. ATED IF MODEM COMMON IS PROPERLY ISOLATED FROM EARTH GROUND Figure 10 1 Typical Connection to an EDMI Modem SM 6800M Rev 2 September 2010 10 1 S2 Slave Protocol Link AnsaldoSTS 10 3 Genisys CSIB Jumper Positions The enhanced Genisys slave end protocol requires standard jumper settings as defined in Table 1 3 10 4 Front Panel Options Communication activity for active 52 Slave Protocol ports may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired S2 Slave Protocol port using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For S2 Slave Protocol ports the protocol identification is 2S Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front pane
79. Configuration commands can be declared adjustable unless otherwise noted Table 11 2 DT 8 Slave Protocol Station Compiler Declarations and Configuration Commands Command ADDRESS ENABLE NV OUTPUT Declares a slave station on a DT 8 slave protocol link and assigns its address An DT 8 slave link may include 1 to 32 slave station declarations The address of a DT 8 slave may be 1 to 251 64512 to 64767 16646144 to 16711679 or 4278190080 to 4294967295 There is no default Specifies whether or not an DT 8 slave station will be enabled on unit initialization 0 Disabled 1 Enabled There is no default Defines a list of Boolean values logic bits to be sent serially by a slave station The list may include 1 to 128 Booleans Each DT 8 slave must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially by a slave station The list may include 1 to 128 Booleans The NV INPUT NV INPUT declaration is optional Not adjustable SM 6800M Rev 2 September 2010 7 AnsaldoSTS DT 8 Slave Protocol Link 11 8 DT 8 Slave Protocol Link System Boolean Bits The System Boolean Bits available with the DT 8 Slave protocol are given Table 11 3 Table 11 3 DT 8 Slave Protocol Link and Slave Station System Boolean Bits A read only Boolean bit that indicates to the application whether or not the DT 8 slave protocol link is enabled in the link configura
80. EFT RIGHT menu switch until the desired NORMAL port is found Place the desired port in test mode by selecting DOWN once using the UP DOWN menu switch Scroll through the test modes using the LEFT RIGHT menu switch Available test modes include steady MARK steady SPACe and 50 duty at the configured data rate Select the desired test mode by selecting DOWN once using the UP DOWN menu switch When the SCS 128 slave link is placed in test mode the selected test signal will be transmitted over the selected currently active port NORMAL or STANDBY Return the port under test to normal operation by selecting NORMal using the LEFT RIGHT menu switch then selecting DOWN using the UP DOWN menu switch See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 6 5 Defining MCS 1 Slave Protocol Link a Genisys Application Program A typical Genisys II application program that defines an enhanced MCS I slave end link 15 shown in Appendix The basic structure of the MCS 1 slave link definition is similar to that of a Genisys slave link Up to 6 MCS I links may be defined in the same application program although only four may be enabled at the same time 6 6 MCS 1 Slave Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjus
81. EOUT 60 SEC 120 SEC 120 SEC ADJUSTABLE INDICATION BROADCAST INTERVAL ADJUSTABLE TRANSMITTER IDLE STATE MARK NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 0 0 0 0 003 007 013 017 023 027 033 037 003 007 013 01 7 023 027 033 037 60 SEC Appendix G SM 6800M Rev 2 September 2010 G 3 Appendix G uw AnsaldoSTS ADJUSTABLE MCP LINK ADDRESS 0 01 ADJUSTABLE GROUND LINK ADDRESS 0x23 ADJUSTABLE WIU LINK ADDRESS 0x03 ADJUSTABLE CHANNEL GROUP 0 68 ADJUSTABLE MCP ATCS ADDRESS 78A2A1A1A1A4A1 ADJUSTABLE DEFAULT ATCS HOST ADDRESS 28 2 1 1 1 ADJUSTABLE HEALTH ATCS ADDRESS 28A2AAAAAAAAAA ADDRESS 78A2A1A1A1A1A3 ADJUSTABLE ENABLE 1 STATION NAME ST 1 NV OUTPUT ATSO 000 ATSO 001 50 002 50 003 ATSO 004 ATSO 005 50 006 ATSO 007 ATSO 010 ATSO 011 ATSO 012 ATSO 013 ATSO 014 ATSO 015 ATSO 016 ATSO 017 NV INPUT ATSI 000 ATSI 001 ATSI OO2 ATSI 003 ATSI 004 ATSI 005 ATSI 006 ATSI 007 ATSI 010 ATSI O11 ATSI 012 ATSI 013 ATSI 014 ATSI 015 ATSI 016 ATSI 017 ADDRESS 78A2A1A1A1A4A3 ADJUSTABLE ENABLE 0 STATION NAME ST 2 NV OUTPUT ATSO 020 ATSO 021 ATSO 022 ATSO 023 ATSO 024 ATSO 025 ATSO 026 ATSO 027 NV INPUT ATSI 020 ATSI 021 ATSI 022 ATSI O23 ATSI 024 ATSI 025 ATSI 026 ATSI 027 CONFIGURATION SYSTEM G 4
82. ERR 1000 Technology Drive Pittsburgh PA 15219 AnsaldoSTS 645 Hassall Steak 29006 SM 6800M Genisys Code System Interface Board ASTS USA Part No N17061302 Installation Maintenance Copyright 2010 SM 6800M Rev 2 Ansaldo STS USA Inc September 2010 55 77 AnsaldoSTS Notices Proprietary Notice This document and its contents are the property of Ansaldo STS USA Inc formerly known as Union Switch amp Signal Inc and hereinafter referred to as ASTS USA This document is furnished to you on the following conditions 1 That no proprietary or intellectual property right or interest of ASTS USA is given or waived in supplying this document and its contents to you and 2 That this document and its contents are not to be used or treated in any manner inconsistent with the rights of ASTS USA or to its detriment and are not to be copied reproduced disclosed or transferred to others or improperly disposed of without the prior written consent of ASTS USA Important Notice ASTS USA constantly strives to improve our products and keep our customers apprised of changes in technology Following the recommendations contained in the attached service manual will provide our customers with optimum operational reliability The data contained herein purports solely to describe the product and does not create any warranties Within the scope of the attached manual it is impossible to t
83. Enhanced Genisys Slave End Protocol Link Command Function O The data rate at which the link will operate Available selections BAUD are 150 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 300 The number of stop bits 1 or 2 that will be attached to the end STOPBITS of each message byte as it is transmitted The default number is 4 The type of parity calculation applied to each transmitted and PARITY received byte for the Genisys slave protocol The available selections are NONE EVEN ODD MARK and SPACE The default parity selection for the Genisys slave protocol is NONE The time in bit times between the assertion of RTS and the leading edge of the start bit of the first byte of the transmitted KEY ON DELAY Genisys message The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time in bit times between the end of the last stop bit of the last byte of a transmitted Genisys message and the de assertion KEY OFF DELAY of RTS The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The elapsed time after which a slave is declared failed during which no valid messages addressed to the slave have been STALE DATA TIMEOUT received The allowable range is 10 to 600 seconds The default value is 300 seconds Specifies whether or not the master end of the link will have carrier keyed on continuously The CONSTANT carrier
84. Figure 4 6 MicroLok ll Peer Protocol Link Monitor 4 12 SM 6800M Rev 2 September 2010 5 AnsaldoSTS SCS 128 Protocol 5 ENHANCED SCS 128 SLAVE PROTOCOL LINK 5 1 Introduction The Genisys CSIB Executive supports communication using the SCS 128 protocol however it supports only the slave end of the SCS 128 protocol it cannot be an SCS 128 master The enhanced SCS 128 Slave End Protocol Link supports the assignment of NORMAL and STANDBY serial ports The STANDBY port is enabled and the NORMAL port is disabled when the DCD input to the STANDBY port is asserted The NORMAL port is enabled when the DCD input to the STANDBY port is de asserted or when no good messages addressed to a slave defined on the Genisys SLA VE have been received for five minutes The enhanced SCS 128 Slave End Protocol Link does not support operation on half duplex connunication links 5 2 External Connections Connections for the various serial interface signals supported by the SCS 128 slave end protocol are shown for each physical serial port in Table 1 2 Refer to Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices See Figure 3 1 for typical interconnections when a STANDB Y serial port is defined 5 3 Genisys ll CSIB Jumper Positions The enhanced Genisys slave end protocol requires standard jumper settings as defined Table 1 3 5 4 Front Panel Options
85. Figure 6 2 Figure 6 3 Figure 7 1 Figure 7 2 Figure 7 3 Figure 7 4 Figure 7 5 Figure 7 6 Figure 7 7 Figure 8 1 Figure 8 2 Figure 8 3 List of Figures Genisys Code System Interface 1 3 Genisys Master Link 2 6 Genisys Master Protocol Link 2 7 Genisys Master Protocol Station 2 8 Genisys Master Protocol 2 9 Typical Connections for Genisys Slave MCS 1 Slave and SCS 128 Slave Protocols with Normal and Standby 3 3 Genisys Slave 3 8 Genisys Slave Protocol Link 3 9 Genisys Slave Protocol Link 3 10 Typical Connections for MicroLok Peer Protocol 4 2 MicroLok II Peer Protocol Link Configuration 4 7 MicroLok II Peer Protocol Station 4 8 MicroLok Peer Protocol Link Statistics 4 10 MicroLok Peer Protocol Station 4 11 MicroLok Peer Protocol Link 1 4 12 SCS 128 Slave Protocol Link 5 5 SCS 128 Slave Protocol Link
86. I Peer protocol link can be declared adjustable unless otherwise noted and are presented in Table 4 1 Table 4 1 MicroLok Peer Protocol Link Compiler Commands and Their Functions Declares a new MicroLok II Peer protocol serial link and defines the LINK link name The link name is a user selectable text string No default Not adjustable Specifies whether or not the MicroLok Peer protocol link will be ENABLE enabled on unit initialization 0 DISABLED 1 ENABLED No default MII PEER declares that this link will support the MicroLok Il Peer protocol No default Not adjustable For physical ports 1 2 and 3 specifies whether or not the physical POINT POINT port hardware will operate in point to point 1 or multi drop 0 mode The default is point to point Physical port 4 is point to point only regardless of the value assigned to POINT POINT The physical port to which the MicroLok Il Peer protocol link will be attached Available ports are 1 2 3 and 4 There is no default The data rate at which the link will operate Available selections are BAUD 300 600 1200 2400 4800 9600 19200 and 38400 bits per second The default rate is 19200 The number of stop bits 1 or 2 that will be attached to the end of each message byte as it is transmitted The default number is 1 The type of parity calculation applied to each transmitted and PARITY received byte for the MicroLok II Peer protocol The availab
87. If a Genisys slave address is declared as 0 the configurable address is used for that slave Only address declaration on an Genisys master protocol link may use address 0 Not adjustable Specifies whether or not an Genisys slave will be enabled on unit initialization 0 Disabled 1 Enabled There is no default Defines a list of Boolean values logic bits to be sent serially to a NV OUTPUT slave The list may include 1 to 512 Booleans The NV OUTPUT declaration is optional Not adjustable Defines a list of Boolean values logic bits to be received from a NV INPUT slave The list may include 1 to 512 Booleans The NV INPUT declaration is optional Not adjustable 2 4 SM 6800M Rev 2 September 2010 A 7 AnsaldoSTS Genisys Master Protocol Link 2 8 Genisys Master Protocol Link System Boolean Bits Table 2 3 presents the System Boolean Bits available with the Genisys slave protocol Table 2 3 Genisys Master Protocol Link System Boolean Bits A read only Boolean bit that indicates to the application whether or not the Genisys master protocol link is enabled in the link configuration 0 DISABLED 1 ENABLED A read write Boolean bit that allows the application lt link_name gt DISABLE program to disable the Genisys master protocol link 0 ENABLED 1 DISABLED lt link_name gt STANDBY Pe ligo but not implemented for Genisys master protocol link name ENABLED A read only Boolean bit that
88. K Genisys SLAVE ADJUSTABLE ENABLE 1 PROTOCOL Genisys SLAVE ADJUSTABLE PORT 4 ADJUSTABLE STANDBY PORT 3 ADJUSTABLE BAUD 300 ADJUSTABLE STOPBITS 1 ADJUSTABLE PARITY NONE ADJUSTABLE KEY ON DELAY 12 ADJUSTABLE KEY OFF DELAY 12 ADJUSTABLE STALE DATA TIMEOUT 300 SEC ADJUSTABLE POINT POINT 1 ADDRESS 1 ADJUSTABLE ENABLE 1 SM 6800M Rev 2 September 2010 B 3 Appendix B 77 AnsaldoSTS NV OUTPUT 50 00 50 01 50 02 50 03 50 04 50 05 50 06 50 07 50 10 50 11 50 12 50 13 50 14 50 15 50 16 50 17 50 20 50 21 50 22 50 23 50 24 50 25 50 26 50 27 50 30 50 31 50 32 50 33 50 34 50 35 50 36 50 37 NV INPUT 51 00 51 01 51 02 51 03 51 04 51 05 51 06 51 07 SLL0 657411 252512 91 15 51 14 61 15 81 16 51 17 51 20 51 21 51 22 51 23 51 24 61 25 181 26 62 27 952 30 61 31 91 32 51233 51 34 51 35 51 36 51 37 CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS 12 ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC LOGIC BEGIN NV ASSIGN NVIO OOO TO 50 00 NV ASSIGN NVIO 001 TO 50 01 NV ASSIGN NVIO 002 TO 50 02 NV ASSIGN NVIO 003 TO 50 03 NV ASSIGN NVIO 004 TO 50 04 NV ASSIGN NVIO 005 TO 50 05 NV ASSIGN NVIO 006 TO 50 06 NV ASSIGN NVIO 007 TO 50 07 NV ASSIGN NVIO 010 TO 50 10 NV ASSIGN NVIO 011 TO 850 11 NV ASSIGN NVIO 012 TO 50 12 NV ASSIGN NVIO 013 TO 50 13 4 SM 6800 Rev 2 S
89. L 01 06 03 80 40 11 15 27 XMT 01 0603 80 40 CO 11 15 27 RCV EXE 01 07 11 15 27 XMT VER 01 07 11 15 28 RCV POL 01 04 11 15 28 01 04 11 15 28 RCV POL 02 08 11 15 28 02 08 11 15 28 RCV RCL 01 05 11 15 28 RCV POL 01 04 11 15 28 XMT IND 01 0503010203 11 15 28 RCV POL 02 08 11 15 28 02 08 11 15 28 RCV RCL 02 09 11 15 28 RCV POL 02 08 11 15 28 XMT IND 02 09 43 04 00 00 11 15 28 RCV POL 01 04 11 15 28 01 04 11 15 29 RCV POL 02 08 11 15 29 02 08 11 15 29 RCV POL 01 04 11 15 29 01 04 11 15 30 RCV POL 02 08 11 15 30 02 08 M Split Settings For Help press 1 08 31 05 11 2234M A Figure 6 3 MCS 1 Slave Protocol Link Protocol Monitor SM 6800M Rev 2 September 2010 6 7 Sy MCS 1 Protocol 77 AnsaldoSTS Ni 77 AnsaldoSTS 6 8 SM 6800M Rev 2 September 2010 5 AnsaldoSTS ARES Protocol 7 ARES WIU PROTOCOL LINK 7 1 Introduction The Genisys II CSIB Executive supports communication using the ARES WIU protocol Only one ARES protocol link may be defined in a Genisys II application program and it must be assigned to Serial Port 3 7 2 External Connections Connections for the various serial interface signals supported by the ARES protocol are shown for physical Port 3 in Table 7 1 Refer to Section 3 5 of SM 6800B for additional information regarding the intercon
90. M Rev 2 September 2010 1 1 Functional Description AnsaldoSTS Future releases of the Genisys CSIB will include support for additional code line protocols 1 1 Front Panel Operation The Genisys CSIB front panel controls and indications are physically identical to those found on the MicroLok II Controller Board The basic operation of these controls and indications is described in detail in SM 6800C Only menu items associated with non vital functions are available on the CSIB The two four character alphanumeric displays normally scroll the executive ID and application name When using the front panel menu controls the alphanumeric displays show the various menu options LEDs 1 through 8 may be controlled using application program commands just as they are MicroLok II The ON LINE LED indicates that the Genisys CPU is running The VPP ON LED is illuminated when programming executive or application flash memory The RESET LED is illuminated when the CPU is held in reset mode by the RESET button LEDs A through E display communication activity for the selected physical serial port The conditions indicated by LEDs A through E are described in Table 1 1 Protocol specific front panel control options are described in the protocol specific sections in this manual 1 2 SM 6800M Rev 2 September 2010 A 7 AnsaldoSTS Functional Description Figu
91. MSG NONVITALDATA SNDMSN 5D RCVMSN B9 10 31 05 16 25 31 F5 78 2 AA AA AA AA A1 78 A2 AA AA AA AA A2 5D B9 03 00 2C 05 10 31 16 25 31 08 07 93 00 00 00 00 00 00 00 87 5B CA 01 F6 MSG STATUS XMT DEST ADDR 78A2AAAAAAAAA2 SRC ADDR 78A2AAAAAAAAA1 MSG SERVICESIGNAL SNDMSN RCVMSN 5E 10 31 05 16 25 31 F5 78 2 AA AA AA A2 78 A2 AA AA AA AA A1 BA 5E 06 00 29 05 10 31 16 25 31 DD BE BB 36 F6 e MSG STATUS RCV DEST ADDR 78A2AAAAAAAAA1 SRC ADDR 78A2AAAAAAAAA2 MSG TYPE SERVICESIGNAL SNDMSN 5E 5 10 31 05 16 25 31 F5 78 2 AA AA 1 78 2 AA AA AA AA A2 5E BA 06 00 29 05 10 31 16 25 31 77 97 69 29 F6 MSG STATUS XMT DEST ADDR 78A2AAAAAAAAA2 SRC ADDR 78A2AAAAAAAAA1 MSG TYPE NONVITALDATA SNDMSN BA RCVMSN 5E 10 31 05 16 25 36 F5 EE 78 2 AA AA AA 2 78 A2 AA AA AA AA A1 BA 5E 03 00 2C 05 10 31 16 25 36 08 07 CB 00 00 00 00 00 00 00 3C 6 MSG STATUS RCV DEST ADDR 78A2AAAAAAAAA1 SRC ADDR 78A2AAAAAAAAA2 MSG TYPE NONVITALDATA SNDMSN 5E 5 10 31 05 16 25 36 5 78 2 AA AA 1 78 2 AA AA AA A2 5E BA 03 00 2 05 10 31 16 25 36 08 07 93 00 00 00 00 00 00 00 56 6 23 OB F6 MSG STATUS XMT DEST ADDR 78A2AAAAAAAAA2 SRC ADDR 78A2AAAAAAAAA1 MSG TYPE SERVICESIGNAL SNDMSN BB RCVMSN 5F 10 31 05 16 25 36 F5 EE 78 A2 AA AA AA AA A2 78 A2 AA AA AA AA A1 BB 5F 06 00 29 05 10 31 16 25 36 65 6E 68 20 F6
92. NVOO 0 0 0 0 0 0 0 0 003 007 013 017 023 027 033 037 003 007 013 01 7 023 027 033 037 SM 6800 Rev 2 September 2010 A 3 Appendix A 77 AnsaldoSTS ADJUSTABLE CRC SIZE 16 ADDRESS 1 ADJUSTABLE ENABLE 1 NV OUTPUT 50 00 50 01 50 02 50 03 50 04 50 05 50 06 50 07 50 10 50 11 50 12 50 13 50 14 50 15 50 16 50 17 NV INPUT 51 00 51 01 51 02 51 03 51 04 51 05 51 06 51 07 oL KTO 81520 91 12 9113 51 14 51 15 51 16 51 17 ADDRESS 2 ADJUSTABLE ENABLE 1 NV OUTPUT 50 80 50 81 50 82 50 83 50 84 50 85 50 86 50 87 50 90 50 91 50 92 50 93 50 94 50 95 50 96 50 97 NV INPUT 51 80 51 81 51 82 51 83 51 84 51 85 51 86 51 87 1 90 61491 91 92 512995 51 94 51 95 51 96 51 97 CONFIGURATION SYSTEM ADJUSTABLE DEBUG PORT ADDRESS Is ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC LOGIC BEGIN 4 SM 6800 Rev 2 September 2010 w AnsaldoSTS Appendix A NV ASSIGN 51 00 0 000 NV ASSIGN SI 01 TO NVOO 001 NV ASSIGN 51 02 NVOO 002 NV ASSIGN SI 03 TO NVOO 003 NV ASSIGN SI 04 TO NVOO 004 NV ASSIGN SI 05 TO NVOO 005 NV ASSIGN 51 06 NVOO 006 NV ASSIGN 51 07 NVOO 007 NV ASSIGN 51 10 NVOO 010 NV ASSIGN SI 11 TO NVOO 011 NV ASSIGN SI 12 TO NVOO 012 NV ASSIGN 51 13 NVOO
93. NVOO 026 NVOO 032 NVOO 036 NVOO 002 NVI 006 NVI 012 NVI 016 NVI 026 NVI 036 NVI 70 SEC 0 0 0 0 0 0 0 0 70 SEC 60 2076935151 0076000204 003 007 013 017 023 027 033 037 003 007 013 01 7 023 027 033 037 SEC Appendix F SM 6800M Rev 2 September 2010 F 3 Appendix AV 77 AnsaldoSTS ADJUSTABLE ADDRESS 5076134707 ADJUSTABLE ENABLE 1 STATION NAME MP 88 0 ADJUSTABLE SET CLOCK ENABLE NV OUTPUT 1 1 1 1 000 004 001 005 1 1 010 014 1 1 011 015 NV INPUT ARI1 ARI1 000 004 ARI1 ARI1 001 005 ARI1 ARI1 010 014 ARI1 ARI1 011 015 LINK ARES RADIO CONTROL ADJUSTABLE ENABLE 1 PROTOCOL ARES RADIO ADJUSTABLE ADJ ADJ ADJUSTABLE ADJUSTABLE PORT 4 BAUD 9600 RADIO FREQUENCY 161 INTERBYTE TIMEOUT 0 NO RESPONSE TIMEOUT CONFIGURATION SYSTEM ADJUSTABLE ADJUSTABLE DEBUG PORT ADDRESS DEBUG PORT BAUDRATE ADJUSTABLE LOGIC TIMEOUT APPLICATION VERSION LOGIC BEGIN NV NV NV NV NV NV NV ASSIGN ASSIGN ASSIGN ASSIGN ASSIGN ASSIGN ASSIGN NVIO NVIO NVIO NVIO NVIO O04 NVIO 005 NVIO 006 000 001 002 003 1 1 1 1 ARI1 ARI1 ARI1 ARI1
94. OL LINK 2 1 2 1 Petr nr II ITI UEM 2 1 2 2 External QONNECtlONS s peno uta eT Pe a dade 2 1 2 3 Genisys CSIB Jumper Positions 2 1 2 4 Front Panel 8 serpo eso A OA UA a a 2 1 2 5 Defining a Genisys Master Protocol Link in a Genisys Application Program 2 2 2 6 Genisys Master Protocol Link Compiler Declarations and Configuration Commands 2 2 2 7 Genisys Master Protocol Link Compiler 2 4 2 8 Genisys Master Protocol Link System Boolean Bits 2 5 2 9 Maintenance Tool 2 5 2 9 1 Genisys Master Protocol Link 2 6 2 9 2 Genisys Master Protocol Link 2 7 2 9 3 Genisys Master Protocol Slave 2 8 2 9 4 Genisys Master Protocol Link Protocol Monitor es 2 9 3 ENHANCED GENISYS SLAVE PROTOCOL LINK s so ss ennnnnnnnnnnnannnnnannnnnannnannnnnnan 3 1 331 Introduction tdt elena ea id ee 3 1 3 2 External 5 a tee arie deo cid ane I LIN Du 3 1 3 3 Genisys CSIB Jumper
95. OO 031 SM 6800M Rev 2 September 2010 D 5 uw Appendix D AnsaldoSTS NV ASSIGN SI 32 TO NVOO 032 NV ASSIGN SI 33 TO NVOO 033 NV ASSIGN SI 34 TO NVOO 034 NV ASSIGN SI 35 TO NVOO 035 NV ASSIGN SI 36 TO NVOO 036 NV ASSIGN SI 37 TO NVOO 037 END LOGIC END PROGRAM D 6 SM 6800M Rev 2 September 2010 AN 77 AnsaldoSTS Appendix E Appendix E Typical Genisys Il MCS 1 Slave Protocol Application SM 6800M Rev 2 September 2010 1 Appendix E 77 AnsaldoSTS AV 77 AnsaldoSTS E 2 SM 6800M Rev 2 September 2010 gt uw AnsaldoSTS Appendix E Typical Genisys II MCS 1 Slave Protocol Application X Genisys II PROGRAM MCS1 EXAMPLE INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 TYPE NV IN32 0UT32 NV OUTPUT NVOO 000 NVOO 001 NVOO OO2 NVOO 003 NVOO 004 NVOO 005 NVOO 006 NVOO 007 NVOO 010 NVOO 011 NVOO 012 NVOO 013 NVOO 014 NVOO 015 NVOO 016 NVOO 017 NVOO 020 NVOO 021 NVOO 022 NVOO 023 NVOO 024 NVOO 025 NVOO 026 0 027 NVOO 030 NVOO 031 NVOO 032 0 033 NVOO 034 NVOO 035 NVOO 036 NVOO 037 NV INPUT NVIO 000 NVIO 001 NVIO 002 NVIO 003 NVIO 004 NVIO 005 NVIO 006 NVIO 007 NVIO 010 NVIO 011 NVIO 012 NVIO 013 NVIO 014 NVIO 015 NVIO 016 NVIO 017 NVIO 020 NVIO 021 NVIO 022 NVIO 023 NVIO 024 NVIO 025 NVIO 026 NVIO 027 NVIO 030 NVIO 03
96. POL FB 02 F6 14 39 27 XMT ACK F1 02 F6 Figure 3 4 Genisys Slave Protocol Link Monitor 3 10 SM 6800M Rev 2 September 2010 AnsaldoSTS MICROLOK II Peer Protocol Link 4 MICROLOK PEER PROTOCOL LINK 4 1 Introduction The Genisys II CSIB Executive supports communication using the MicroLok II Peer protocol Only non vital Peer stations may be declared in the Genisys II CSIB application program A typical MicroLok II Peer protocol link test application is presented in Appendix C 4 2 External Connections Connections for the various serial interface signals supported by the MicroLok II Peer protocol are shown for each type of physical serial port in Table 1 2 For connections to the MicroLok II Peer Protocol hub or US amp S Network Interface Adapter NIA see Service Manual SM 6800K See Figure 4 1 for typical direct interconnection of two peer units 4 3 Genisys CSIB Jumper Positions The MicroLok II Peer protocol requires standard jumper settings as defined in Table 1 3 4 4 Front Panel Options Communication activity for active MicroLok II Peer Protocol ports may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired MicroLok II Peer Protocol port using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Sel
97. PZ 1WGS PZ 1EGC PZ 1EGS PZ 2WGC PZ 2WGS PZ 2EGC PZ 2EGS PZ SMZON PZ SMZOF PZ CONFIGURATION SYSTEM FIXED DEBUG PORT BAUDRATE 9600 LOGIC BEGIN LCP TO GEN NV ASSIGN TEST PZ TO 00 000 NV ASSIGN LOCAL PZ TO 00 006 NV ASSIGN REMOT PZ TO NVO0 007 NV ASSIGN CLCP DIP1 NVOO 010 NV ASSIGN CLCP DIP2 NVOO 011 NV ASSIGN CLCP DIP3 NVOO 012 NV ASSIGN CLCP DIP4 NVOO 013 NV ASSIGN CLCP DIP5 NVOO 014 NV ASSIGN CLCP DIP6 0 015 NV ASSIGN CLCP DIP7 NVOO 016 NV ASSIGN CLCP HEALTH TO 0 017 NV ASSIGN 1NWZ PZ TO 00 020 NV ASSIGN 1RWZ PZ TO 00 021 NV ASSIGN 2NWZ PZ TO 00 022 NV ASSIGN 2RWZ PZ TO NVO0 023 NV ASSIGN 1WGC PZ TO 00 024 NV ASSIGN 1WGS PZ TO 00 025 NV ASSIGN 1EGC PZ 00 026 NV ASSIGN 1EGS PZ 00 027 NV ASSIGN 2WGC PZ TO 00 030 NV ASSIGN 2WGS PZ 00 031 NV ASSIGN 2 PZ TO 00 032 NV ASSIGN 2EGS PZ 00 033 4 SM 6800 Rev 2 September 2010 Emm uw AnsaldoSTS Appendix H NV ASSIGN SMZON PZ 00 034 NV ASSIGN SMZOF PZ TO NVOO O35 GEN TO LCP NV ASSIGN NVIO OOO TO 1ANWK PK NV ASSIGN NVIO 001 TO 1RWK PK NV ASSIGN NVIO 002 TO 1BNWK PK NV ASSIGN NVIO 003 TO 2ANWK PK NV ASSIGN NVIO OO4 TO 2RWK PK NV ASSIGN NVIO OO5 TO 2BNWK PK NV ASSIGN NVIO OO6 TO 1WG PK NV ASSIGN NVIO 007 TO 1WR NV ASSIGN NVIO 010 1EG PK NV ASSIGN
98. Protocol Command POINT POINT PORT STANDBY PORT BAUD ALTERNATE BAUD PARITY KEY ON DELAY KEY OFF DELAY INTERBYTE TIMEOUT STALE DATA TIMEOUT INDICATION ACK For physical ports 1 2 and 3 specifies whether or not the physical port hardware will operate in point to point 1 or multi drop 0 mode The default is multi drop Physical port 4 is point to point only regardless of the value assigned to POINT POINT The NORMAL physical port to which the SCS 128 link will be attached Available ports are 1 2 3 and 4 There is no default The STANDBY physical port to which the SCS 128 link will be attached Available ports are 0 No STANDBY port 1 2 3 and 4 The default port is 0 The data rate at which the link will operate Available selections are 75 150 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 300 Specifies a data rate to which the SCS 128 serial port is set on Genisys initialization and after SCS 128 link communication failure has been detected The ALTERNATE BAUD data rate when specified is normally 75 bits per second although any data rate that is valid for the BAUD parameter may be set If ALTERNATE BAUD is not specified or it is set to 0 no alternate data rate will be available and the data rate for the SCS 128 serial port will always be set to the data rate specified by BAUD The number of stop bits 1 or 2 that will be
99. Protocol ports protocol identification pp is GM Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Place the desired port in test mode by SM 6800M Rev 2 September 2010 2 1 Genisys Master Protocol Link AnsaldoSTS selecting DOWN once using the UP DOWN menu switch Scroll through the test modes using the LEFT RIGHT menu switch Available test modes include steady MARK steady SPACe and 50 duty CYCLe at the configured data rate Select the desired test mode by selecting DOWN once using the UP DOWN menu switch When the Genisys master link is placed in test mode the selected test signal will be transmitted over the selected port Return the port under test to normal operation by selecting NORMal using the LEFT RIGHT menu switch then selecting DOWN using the UP DOWN menu switch See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 2 5 Defining a Genisys Master Protocol Link a Genisys Application Program A typical Genisys II application program that defines a Genisys master end link is shown in Appendix A 2 6 Genisys Master Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted and are presented in Table 2 1 T
100. S Scroll through the active ports using the LEFT RIGHT menu switch until the desired NORMAL port is found Place the desired port in test mode by selecting DOWN once using the UP DOWN menu switch Scroll through the test modes using the LEFT RIGHT menu switch Available test modes include steady MARK steady SPACe and 50 duty at the configured data rate Select the desired test mode by selecting 3 2 SM 6800M Rev 2 September 2010 7 AnsaldoSTS Enhanced Genisys Slave End Protocol Link MICROLOK BATTERY GENISYS II MORS NORMAL MODEM A14 RIS RTS KEY ON C20 TXD DATA OUT PoRT4 C22 RAD RXD DATA SIGNAL COMMON ISOLATOR N16401101 ISOLATOR N16401101 STANDBY MODEM C14 BIS 24 24 lt RTS KEY ON E16 lt 25 TXD DATA OUT PORT E14 lt lt 12 RXD DATA E10 PED 23 DCD SQ E18 SIGNAL COMMON B12 N12 MICROLOK BATTERY NOTES 1 SERIAL ISOLATORS N16401101 MAY BE ELIMINATED IF MODEMS PROVIDE 2KV OR GREATER ISOLATION FROM GROUND 2 MODEMS MAY BE POWERED BY MICROLOK II 12V POWER SUPPLY IF TOTAL MODEM LOAD DOES NOT EXCEED 50 mA AND MODEMS PROVIDE 2KV OR GREATER ISOLATION FROM GROUND Figure 3 1 Typical Connections for Genisys Slave MCS 1 Slave and SCS 128 Slave Protocols with Normal and Standby Ports DOWN once using the UP DOWN menu swi
101. S 128 Slave Protocol Link System Boolean 5 4 5 9 Maintenance Tool Support for the SCS 128 Protocol 5 4 5 9 1 SCS 128 Slave Protocol Link Configuration sees 5 5 5 9 2 SCS 128 Slave Protocol Link Statistics 0000 5 6 5 9 3 SCS 128 Slave Protocol Link Protocol Monitor sse 5 7 6 ENHANCED MCS 1 SLAVE PROTOCOL LINK esses eene 6 1 RJ Introd ctioris iate ab aeter ae p rn rm n a p 6 1 6 23 External Gorinectioris oun i i ae chere D e ede te eed 6 1 6 3 Genisys CSIB Jumper Positions 6 1 6 4 Front Options hee n aed SN NU 6 1 6 5 Defining an MCS 1 Slave Protocol Link in Genisys Application Program 6 2 6 6 MCS 1 Slave Protocol Link Compiler Declarations and Configuration Commands 6 2 6 7 MCS Slave Protocol Link Compiler Declarations s sse 6 4 6 8 MCS 1 Slave Protocol Link System Boolean 6 4 6 9 Maintenance Tool Support for the MCS 1 Slave Protocol 6 5 6 9 1 MCS 1 Slave Protocol Link Configuration sese 6 5 6 9 2 MCS 1 Slave Protocol Link 2 20400 eene 6 6 6 9 3 MCS 1 Slave
102. SABLED 1 ENABLED A read only Boolean bit that indicates the current lt link_name gt lt station_name gt STATUS communication status for a MicroLok Peer protocol station 0 FAILED 1 NORMAL 3 A special Boolean input bit that is used to trigger logic blocks when a station receives serial input data This bit cannot be directly accessed by the application program A read write Boolean bit used to dynamically link names station name DISABLE DISABLE ENABLE a MicroLok II Peer protocol station 0 ENABLED i DISABLED SM 6800M Rev 2 September 2010 4 5 3 MICROLOK II Peer Protocol Link AnsaldoSTS 4 10 Maintenance Tool Support This section describes the part of the Maintenance Tool that is applicable to MicroLok II Peer protocol links For a complete description of the maintenance tool please refer to Chapter 4 of Service Manual SM 6800C 4 10 1 MicroLok Peer Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine of modify the configuration database Select the appropriate button to modify or view the MicroLok II Peer Protocol Link configuration elements Figure 4 2 presents the MicroLok II Peer Protocol Link Configuration display MicroLok II Peer Protocol link configuration parameters are described in Section 4 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link conf
103. SIGN SI 34 TO NVOO 034 NV ASSIGN SI 35 TO NVOO 035 NV ASSIGN 61 36 TO NVOO 036 NV ASSIGN SI 37 TO NVOO O37 END LOGIC END PROGRAM SM 6800M Rev 2 September 2010 5 77 AnsaldoSTS Appendix J Appendix J Typical Genisys Il DT 8 Slave Protocol Application SM 6800M Rev 2 September 2010 9 1 E Appendix J 77 AnsaldoSTS SN 77 AnsaldoSTS J 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Genisys II DT 8 Slave Protocol Test Application x7 Genisys_II PROGRAM DT8TEST INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 NV IN32 0UT3Z2 NV OUTPUT 0 000 00 001 NVOO 002 00 003 NVO0O 004 0 005 NVOO 006 00 007 00 010 NVOO 011 00 012 NVOO 013 0 014 00 015 NVOO 016 00 017 00 020 0 021 00 022 NVOO O23 00 024 00 025 NVOO O26 NVOO O27 0 030 NVOO O31 NVOO O32 00 033 00 034 NVOO O35 NVOO O36 00 037 NV INPUT NVIO 000 NVIO OOl NVIO 002 NVIO 003 NVIO 004 NVIO 005 NVIO 006 NVIO 007 NVIO 010 NVIO 011 NVIO 012 NVIO 013 NVIO 014 NVIO 015 NVIO 016 NVIO 017 NVIO O20 NVIO 021 NVIO 022 NVIO 023 NVIO O24 NVIO 025 NVIO O26 NVIO 027 NVIO O30 NVIO O31 NVIO 032 NVIO 033 NVIO O34 NVIO 035 NVIO O36 NVIO 037 COMM LINK DT8 SLAVE ADJUSTABLE ENABLE 1 0 1 PROTOCOL DT8 SLAVE ADJUS
104. SLCP Protocol link button to modify or view the configuration elements Figure 9 2 presents the SLCP Protocol link configuration SLCP Protocol link configuration parameters are described in Section 9 6 of this SM 6800M Rev 2 September 2010 9 5 N GETS SLCP Protocol Link AnsaldoSTS manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Geni sys II Maintenance Tool Program LCPTST at address 1 on Configure Link CLCP_Link1 CLCP_Link1 SLCP Link Enable Point to Point default SET default SET Physical port number E default 4 Baud rate 1 200 default 1 200 Stop bits default 1 Parity JEven default Even Key On delay Key Off delay No Response Timeout Polling Interval Broadcast Interval Stale data Timeout Interbyte Timeout Gjo 3j default 0 default 0 v ron 4 ms spins by factor of 10 default 1 000 000 ms spins by factor of 100 default 15 000 60 000 Ims spins by factor of 100 default 60 000 40000 ms spins by factor of 1000 default 40 000 0 ms default 10 Station 0 Enable Qv default SET Figure 9 2 SLCP Protocol Link Configuration 9 6 SM 6800M Rev 2 September 2010 AnsaldoSTS GETS SLCP Protocol Link 9 9 2 SLCP Protocol Link Statistics In the main launch
105. SM 6800M Rev 2 September 2010 7 AnsaldoSTS Appendix G FIXED DEBUG PORT ADDRESS 422 ADJUSTABLE DEBUG PORT BAUDRATE 9600 LOGIC TIMEOUT 500 MSEC APPLICATION VERSION 2 LOGIC BEGIN NV ASSIGN ATSI 000 TO 00 000 NV ASSIGN ATSI 001 TO NVO0 001 NV ASSIGN ATSI 002 TO NVO0 002 NV ASSIGN ATSI 003 TO NVO0 003 NV ASSIGN ATSI 004 TO 00 004 NV ASSIGN ATSI 005 TO 0 005 NV ASSIGN ATSI 006 TO 00 006 NV ASSIGN ATSI 007 TO 00 007 NV ASSIGN ATSI 010 TO 00 010 NV ASSIGN ATSI 011 TO NVO0 011 NV ASSIGN ATSI 012 TO 00 012 NV ASSIGN ATSI 013 TO NVO0 013 NV ASSIGN ATSI 014 TO 00 014 NV ASSIGN ATSI 015 TO NVO0 015 NV ASSIGN ATSI 016 TO 00 016 NV ASSIGN ATSI 017 TO 00 017 NV ASSIGN ATSI O20 TO 00 020 NV ASSIGN ATSI 021 TO 00 021 NV ASSIGN ATSI 022 TO 00 022 NV ASSIGN 51 023 00 023 NV ASSIGN ATSI 024 TO 00 024 NV ASSIGN ATSI 025 TO 00 025 NV ASSIGN ATSI 026 TO 00 026 NV ASSIGN ATSI 027 TO 00 027 NV ASSIGN NVIO OOO TO 50 000 NV ASSIGN NVIO 001 TO ATSO 001 NV ASSIGN NVIO 002 TO ATSO 002 NV ASSIGN 0 003 5 0 003 NV ASSIGN NVIO O04 TO 50 004 NV ASSIGN NVIO 005 TO ATSO 005 NV ASSIGN NVIO 006 TO ATSO 006 NV ASSIGN NVIO 007 TO ATSO 007 NV ASSIGN NVIO 010 TO ATSO 010 NV ASSIGN NVIO 011 TO ATSO 011 NV ASSIGN NVIO 012 TO ATSO 012 NV ASSIGN NVIO 013 TO ATSO 013 NV ASSIGN NVIO 014 TO A
106. TABLE PORT 3 1 2 3 4 ADJUSTABLE STANDBY PORT 2 1 2 28224 ADJUSTABLE BAUD 9600 150 300 600 1200 1800 2400 3600 4800 7200 9600 19200 ADJUSTABLE STOPBITS 1 1 2 ADJUSTABLE PARITY NONE EVENT ODD NONE ADJUSTABLE KEY ON DELAY 12 0 to 280 BIT TIMES ADJUSTABLE KEY OFF DELAY 12 0 to 280 BIT TIMES ADJUSTABLE CARRIER MODE CONSTANT 0 1 ADJUSTABLE SET CLOCK ENABLE 1 0 1 ADJUSTABLE STALE DATA TIMEOUT 300 SEC 1 to 600 SEC ADJUSTABLE POINT POINT d 0 1 SM 6800M Rev 2 September 2010 9 3 Appendix J 5 77 AnsaldoSTS ADDRESS 15 ADJUSTABLE ENABLE NV OUTPUT DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT80 NV INPUT DT8I DT8I DT8I DT8I 8 DT8I DT8I DT8I ADDRESS 18 ADJUSTABLE ENABLE 00 04 10 14 20 24 30 34 00 04 10 14 20 24 30 34 NV OUTPUT DT8O DT80 DT80 DT80 DT80 DT80 DT80 DT80 NV INPUT DT8I 8 40 44 50 54 60 64 70 74 40 44 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT8I DT8I DT8I DT8I DT8I DT8I DT8I 8 DT80 DT80 DT80 DT80 DT80 DT80 DT80 DT80 8 DT8I 01 05 11 15 21 25 31 35 01 05 1 l5 245 225 sle 135 41 45 51 55
107. TSO 014 NV ASSIGN NVIO 015 TO ATSO 015 NV ASSIGN NVIO 016 TO ATSO 016 NV ASSIGN NVIO 017 TO ATSO 017 NV ASSIGN NVIO 020 TO ATSO 020 SM 6800M Rev 2 September 2010 G 5 m uw Appendix G AnsaldoSTS NV ASSIGN NVIO O21 TO 50 021 NV ASSIGN NVIO O22 TO 50 022 NV ASSIGN NVIO 023 TO ATSO 023 NV ASSIGN NVIO 024 TO ATSO 024 NV ASSIGN NVIO 025 TO ATSO 025 NV ASSIGN NVIO O26 TO ATSO O26 NV ASSIGN NVIO O27 TO 50 027 NV ASSIGN NVIO O36 TO 5 SLAVE ST 1 Disable NV ASSIGN NVIO O37 TO ATCS SLAVE ST 2 Disable END LOGIC END PROGRAM G 6 SM 6800M Rev 2 September 2010 AN 77 AnsaldoSTS Appendix H Appendix H Typical Genisys Il SLCP Example SM 6800M Rev 2 September 2010 H 1 Appendix H 77 AnsaldoSTS AV 77 AnsaldoSTS H 2 SM 6800M Rev 2 September 2010 Emm uw AnsaldoSTS Appendix H Genisys II PROGRAM SLCP Example INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 TYPE NV IN32 OUT32 NV OUTPUT NVO0 000 00 001 00 002 NVOO OO3 NVO0 004 00 005 00 006 NVOO OO7 00 010 NVOO 011 NVOO O12 0 013 NVO0 014 NVOO 015 NVOO O16 00 017 NVO0 020 NVOO 021 NVOO O22 NVOO O23 NVO0 024 0 025 NVOO O26 NVOO O27 NVO0 030 NVOO 031 NVOO O32 NVOO O33 NVO0 034 NVOO 035 00 036 NVOO O37 NV INPUT NVIO 000 NVIO 001 NVIO 002 NVIO 003 N
108. The link name is a user selectable text string No default Not adjustable Specifies whether or not the DT 8 slave protocol link will be ENABLE enabled on unit initialization 0 DISABLED 1 ENABLED No default 078 51 declares that this link will support the DT 8 slave protocol No default Not adjustable For physical ports 1 2 and 3 specifies whether or not the physical port hardware will operate in point to point 1 or multi POINT POINT drop 0 mode The default is multi drop Physical port 4 is point to point only regardless of the value assigned to POINT POINT The NORMAL physical port to which the DT 8 slave link will be attached Available ports are 1 2 3 and 4 There is no default The STANDBY physical port to which the DT 8 slave link will be STANDBY PORT attached Available ports are 0 No STANDBY port 1 2 3 and 4 The default port is 0 The data rate at which the link will operate Available selections BAUD are 150 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 300 The number of stop bits 1 or 2 that will be attached to the end STOPBITS of each message byte as it is transmitted The default number is p The type of parity calculation applied to each transmitted and PARITY received byte for the DT 8 slave protocol The available selections are NONE EVEN ODD MARK and SPACE The default parity selection for the DT 8 slave protocol is NONE
109. Their 2 2 Table 2 2 Genisys Master Protocol Compiler Declarations 2 2 4 Table 2 3 Genisys Master Protocol Link System Boolean 2 5 Table 3 1 Genisys Slave Protocol Link Compiler Commands and Their Functions 3 4 Table 3 2 Genisys Slave Protocol Link Compiler 3 6 Table 3 3 Genisys Slave Protocol Link System Boolean 3 7 Table 4 1 MicroLok Peer Protocol Link Compiler Commands and Their Functions 4 3 Table 4 2 MicroLok Peer Protocol Station Compiler Declaration and Configuration Commands and Their 4 4 Table 4 3 MicroLok Peer Protocol Fixed Compiler Declarations 4 5 Table 4 4 MicroLok Peer Protocol Link System Boolean 5 4 5 Table 5 1 SCS 128 Slave Protocol Link Compiler Commands and Their Functions 5 2 Table 5 2 SCS 128 Slave Protocol Link Compiler Declarations seen 5 4 Table 5 3 SCS 128 Slave Protocol Link System Boolean 5 4 Table 6 1 MCS 1 Slave Protocol Li
110. VIO 004 NVIO 005 NVIO 006 NVIO 007 NVIO 010 NVIO 011 NVIO 012 NVIO 013 NVIO 014 NVIO 015 NVIO 016 NVIO 017 NVIO 020 NVIO 021 NVIO O22 NVIO 023 NVI0 024 NVIO 025 NVIO O26 NVIO O27 NVIO 030 NVIO 031 NVIO O32 NVIO 033 NVIO 034 NVIO 035 NVIO 036 NVIO 037 COMM LINK CLCP Link ADJUSTABLE ENABLE 1 PROTOCOL SLCP ADJUSTABLE PORT 3 ADJUSTABLE BAUD 1200 ADJUSTABLE PARITY EVEN ADJUSTABLE STOPBITS 1 ADJUSTABLE POINT POINT 1 ADJUSTABLE KEY ON DELAY 0 ADJUSTABLE KEY OFF DELAY 0 ADJUSTABLE STALE DATA TIMEOUT 80 SEC ADJUSTABLE NORESPONSE TIMEOUT 2 SEC ADJUSTABLE POLLING INTERVAL 30 SEC ADJUSTABLE BROADCAST INTERVAL 60 SEC ADJUSTABLE INTERBYTE TIMEOUT 10 MSEC ADDRESS O0 ADJUSTABLE ENABLE 1 NV OUTPUT SM 6800M Rev 2 September 2010 H 3 Ex uw Appendix H AnsaldoSTS SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE SPARE 1 PK 1RWK 1BNWK PK 2ANWK PK 2RWK PK 2BNWK PK 1WG PK 1WR PK PK 1 2WG 2WR 2EG 2 1 PK 2TK PK 1WBK PK 1EBK PK 2WBK PK 2EBK PK PK TK2LK 1 PK 2 PK SMK LOK PK NV INPUT TEST PZ SPARE SPARE SPARE SPARE SPARE LOCAL PZ REMOT PZ CLCP DIP1 CLCP DIP2 CLCP DIP3 CLCP DIP4 CLCP DIP5 CLCP DIP6 CLCP DIP7 CLCP HEALTH 1NWZ PZ 1 7 PZ 2NWZ PZ 2RWZ PZ 1WGC
111. VIO O25 NVIO 026 NVIO 027 NVIO O30 NVIO 031 NVIO O32 NVIO 033 NVIO O34 NVIO 035 NVIO 036 NVIO 037 COMM LINK MII PEER ADJUSTABLE ENABLE 1 PROTOCOL MII PEER ADJUSTABLE PORT 1 ADJUSTABLE BAUD 38400 ADJUSTABLE STOPBITS 1 ADJUSTABLE PARITY NONE ADJUSTABLE KEY ON DELAY 12 ADJUSTABLE KEY OFF DELAY 12 ADJUSTABLE GRANT DELAY 10 MSEC ADJUSTABLE POINT POINT 1 SM 6800M Rev 2 September 2010 C 3 5 Appendix 77 AnsaldoSTS ADJUSTABLE ATCS NV ADDRESS 78 2 1 ADJUSTABLE ENABLE 1 STATION NAME MP 88 0 ADJUSTABLE PEER ADDRESS 78A2AAAAAAAAA2 ADJUSTABLE TIME STAMP 1 ADJUSTABLE ACK TIMEOUT 1000 MSEC ADJUSTABLE HEARTBEAT INTERVAL 5 SEC ADJUSTABLE INDICATION UPDATE CYCLE 1 ADJUSTABLE STALE DATA TIMEOUT 60 SEC NV OUTPUT MII NVO1 000 MII NVO1 001 MII NVO1 002 MII NVO1 003 MII NVO1 004 MII NVO1 005 MII NVO1 006 MII NVO1 007 NV INPUT MII NVI1 000 MII NVI1 001 MII NVI1 002 MII NVI1 003 MII NVI1 004 MII NVI1 005 MII NVI1 006 MII NVI1 007 NV NUMERIC OUTPUT 8 MII NVNMO1 000 NV NUMERIC OUTPUT 16 MII NVNMO1 001 NV NUMERIC OUTPUT 32 MII NVNMO1 002 NV NUMERIC INPUT 8 MII NVNMI1 000 NV NUMERIC INPUT 16 MII NVNMI1 001 NV NUMERIC INPUT 32 MII NVNMI1 002 LINK MII PEER 2 ADJUSTABLE ENABLE 1 PROTOCOL MII PEER ADJUSTABLE PORT 2 ADJUSTABLE BAUD 38400 C 4 SM
112. able 1 2 Refer to Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices An example of a Genisys SLCP program is presented in Appendix H It is intended that connection to the GETS serial local control panel driver be implemented using the GETS isolator current loop adapter P N 226859 000 mounted the US amp S serial interface panel Use serial interface panel P N N17004701 when Port 3 or 4 is attached to the SLCP link or P N N17004702 when Port 1 or 2 is attached to the SLCP link See Figure 9 1 for typical interconnections 9 3 Genisys CSIB Jumper Positions The SLCP protocol requires the standard CPU board jumper settings defined in Table 1 3 9 4 Front Panel Options Communication activity for active Local Control Panel Protocol ports may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired Local Control Panel Protocol port using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and is the physical port number 1 to 4 For Local Control Panel Protocol ports the protocol identification pp is LC
113. able 2 1 Genisys Master Link Compiler Commands and Their Functions Declares a new Genisys master protocol serial link and defines the LINK link name The link name is a user selectable text string No default Not adjustable Specifies whether or not the Genisys master protocol link will be ENABLE enabled on unit initialization 0 DISABLED 1 ENABLED No default Genisys MASTER declares that this link will support the Genisys PROTOCOL master protocol No default Not adjustable For physical ports 1 2 and 3 specifies whether or not the physical port hardware will operate in point to point 1 or multi drop 0 POINT POINT mode The default is point to point Physical port 4 is point to point only regardless of the value assigned to POINT POINT The physical port to which the Genisys master link will be attached Available ports 1 2 and 4 There is no default The data rate at which the link will operate Available selections are BAUD 150 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 300 The number of stop bits 1 or 2 that will be attached to the end of each message byte as it is transmitted The default number is 1 The type of parity calculation applied to each transmitted and PARITY received byte for the Genisys master protocol The available selections are NONE EVEN ODD MARK and SPACE The default parity selection for the Genisys master protocol is
114. ach SLCP link must have an NV INPUT declaration Not adjustable 9 8 SLCP Protocol Link System Boolean Bits The SLCP System Boolean bits are listed Table 9 3 Table 9 3 SLCP Protocol Link System Boolean Bits Expression Funcion A read only logic bit that indicates to the application whether or link name ENABLED not the SLCP link is enabled in the link configuration 0 DISABLED 1 ENABLED A read write logic bit that allows the application program to nnne DISABLE disable the SLCP link 0 ENABLED 1 DISABLED A read only logic bit that indicates whether or not a slave is link name 0 ENABLED enabled 0 DISABLED 1 ENABLED A read only logic bit that indicates the current status of slave sink names 0O STATUS communication 0 FAILED 1 NORMAL A special logic bit that is used to trigger logic blocks when a slave link name 0 INPUTS RECEIVED receives serial input data This bit cannot be directly accessed by the application 9 9 Maintenance Tool Support for the SLCP Protocol Link This section describes the part of the Maintenance Tool that is applicable to the Genisys SLCP Protocol For a complete description of the maintenance tool please refer to SM 6800C 9 9 1 SLCP Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate
115. ages received 0 Indications sent 0 Recall responses sent 0 Execute verification messages sent 0 Unacknowledged indications 0 Failed checkback sequence count 0 Invalid message received count 0 Illegal message type count 0 Message format error count 0 Message length error count 0 Received bytes containing hardware detected errors 0 Received messages containing hardware detected errors 0 Received checksum error count 0 Receive buffer overflow error cnt 0 Receive timeout error count 0 Maximum bytes removed from FIFO 0 1 stations defined Station 1 Station 81 enabled Figure 5 2 SCS 128 Slave Protocol Link Statistics 5 6 SM 6800M Rev 2 September 2010 a AnsaldoSTS SCS 128 Protocol 5 9 3 SCS 128 Slave Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 5 3 presents a typical display for the SCS 128 Slave Protocol Monitor The protocol monitor display for the SCS 128 Slave Protocol Link shows message time message direction transmitted or received and message type followed by the full text of the transmitted or received message hexadecimal bytes Please refer to the SCS 128 Protocol description in SM 6408N Section IV or other appropriate SCS 128 Protocol document for additional information on the SCS 128 Protocol GENISYS Development
116. ake into account every eventuality that may arise with technical equipment in service Please consult an ASTS USA local sales representative in the event of any irregularities with our product ASTS USA expressly disclaims liability resulting from any improper handling or use of our equipment even if these instructions contain no specific indication in this respect We strongly recommend that only approved ASTS USA spare parts are used as replacements SM 6800M Rev 2 September 2010 Revision History AnsaldoSTS Revision History DATE NATURE OF REVISION January 2006 Initial Issue September 2010 Added Section 11 and Appendix J E 4 Copyright 2010 Ansaldo STS USA Inc 1000 Technology Drive Pittsburgh PA USA 15219 3120 645 Russell Street Batesburg SC 29006 www ansaldo sts com All rights reserved ii SM 6800M Rev 2 September 2010 AnsaldoSTS Table of Contents Table of Contents 1 FUNCTIONAL DESCRIPTION 3 2 ooi bo 1 1 1 1 Front Panel Operation 1 2 1 2 External Connections to the Genisys II 1 4 1 3 Genisys CSIB Board 1 4 1 4 Genisys Development System 1 7 1 4 1 Genisys 1 7 1 4 2 Genisys Maintenance 1 7 2 GENISYS MASTER PROTOC
117. al Not adjustable 10 8 S2 Slave Protocol Link System Boolean Bits Table 10 3 presents the System Boolean Bits available with the 52 protocol Table 10 3 52 Slave Protocol Link System Boolean Bits link name ENABLED A read only Boolean bit that indicates to the application whether or not the S2 link is enabled in the link configuration 0 DISABLED 1 ENABLED A read write Boolean bit that allows the application link name DISABLE program to disable the S2 link 0 ENABLED 1 DISABLED A read only Boolean bit that indicates whether or not a link names nn ENABLED slave is enabled nn is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current status of link names nn STATUS slave communication nn is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic blocks link name nn INPUTS RECEIVED when a slave receives serial input data This bit cannot be directly accessed by the application 10 9 Maintenance Tool Support for the 52 Slave Protocol Link This section describes the part of the Maintenance Tool that is applicable to the Genisys 52 Protocol For a complete description of the maintenance tool please refer to Service Manual SM 6800C SM 6800M Rev 2 September 2010 7 AnsaldoSTS 52 Slave Protocol Link 10 9 1 52 Slave Protocol Link Configuration the main launch menu click on
118. ation regarding link configuration using the Genisys II Maintenance Tool Program ARESTST2 at address 1 on COM1 Configure Link Station MP 880 88 0 ARES Station Station Address OX 50761 34707 8 to 15 Hex Digits Set Clock Enable v default SET Figure 7 3 ARES WIU Protocol Station Configuration 7 9 SM 6800M Rev 2 September 2010 ARES Protocol 77 AnsaldoSTS 7 9 3 ARES WIU Protocol Link Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and protocol links To enter the Link Information view for a particular link simply click on the appropriate button Figure 7 4 presents the ARES Protocol Link Statistics Display ss1onC ARES SLAVE ARES slave link status Received CRC error count 31 Received overrun error count 0 Received abort error count 0 Receive buffer overflow error 0 Unknown received error count 0 Source address error count 0 Invalid message format count 0 Invalid message label count 0 Invalid message size count 0 Foreign message count 0 Total messages received 28 Received protocol reset count 0 Received protocol reset ACK count 4 Received control message count 4 Received recall message count 4 Received RF acknowledge count 14 Received RF loopback count 0 Received time update count 2 Received repeated message count
119. attached to the end of each message byte as it is transmitted The default number is T The type of parity calculation applied to each transmitted and received byte for the SCS 128 protocol The available selections are NONE EVEN ODD MARK and SPACE The default parity selection for the SCS 128 protocol is EVEN The time in bit times between the assertion of RTS and the leading edge of the start bit of the first byte of the transmitted SCS 128 message The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time in bit times between the end of the last stop bit of the last byte of a transmitted SCS 128 message and the de assertion of RTS The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time allowed between consecutive bytes of a received message If the inter byte timeout is exceeded end of message processing is initiated The default value of 0 allows the Genisys II executive to automatically calculate the inter byte timeout value Otherwise values between 10 and 500 milliseconds may be selected The default value is recommended most applications The elapsed time after which a slave is declared failed during which no valid messages addressed to the slave have been received The allowable range is 1 to 600 seconds The default value is 300 seconds Indicates whether or not indication acknowledge will be supported by this SCS 128 link 0 disables i
120. by selecting NORMal using the LEFT RIGHT menu switch then selecting DOWN using the UP DOWN menu switch See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 5 5 Defining an SCS 128 Slave Protocol Link in a Genisys Application Program A typical Genisys II application program that defines an enhanced SCS 128 slave end link is shown in Appendix D The basic structure of the SCS 128 slave link definition is similar to that of a Genisys slave link Up to six SCS 128 links may be defined in the same application program although only four may be enabled at the same time 5 6 SCS 128 Slave Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted and are presented in Table 5 1 Table 5 1 SCS 128 Slave Protocol Link Compiler Commands and Their Functions Command Function Declares a new SCS 128 protocol serial link and defines the link LINK name The link name is a user selectable text string No default Not adjustable Specifies whether or not the SCS 128 protocol link will be ENABLE enabled on unit initialization 0 DISABLED 1 ENABLED No default PROTOCOL SCS SLAVE declares that this link will support the SCS 128 slave protocol No default Not adjustable 5 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS SCS 128
121. cation program is displayed on LEDs A through E by default See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 8 5 Defining an ATCS WIU Protocol Link in a Genisys Application Program A typical Genisys II application program that defines an ATCS Protocol link is shown in Appendix G The basic structure of the ATCS slave link definition is similar to that of a Genisys slave link 8 6 ATCS WIU Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted in Table 8 2 Table 8 2 ATCS WIU Protocol Link Compiler Commands and Their Functions Feci i Declares ATCS protocol serial link and defines the link name The link name is a user selectable text string No default Not adjustable femme Specifies whether or not the ATCS protocol link will be enabled on unit ENABLE initialization 0 DISABLED 1 ENABLED No default ATCS SLAVE declares that this link will support the ATCS slave protocol No default Not adjustable The physical port to which the ATCS link will be attached The ATCS link must be attached to port 3 There is no default The data rate at which the link will operate Available selections are 150 BAUD 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 9600 The HDLC layer address f
122. d 3 specifies whether or not the physical port hardware will operate in point to point 1 or multi drop 0 mode The POINT POINT default is multi drop Physical port 4 is point to point only regardless of the value assigned to POINT POINT 1 2 and 4 There is no default The data rate at which the link will operate Available selections are 150 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 1200 The time in bit times between the assertion of RTS and the leading edge of the opening flag of the transmitted S2 frame The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The time in bit times between the end of the closing flag of a transmitted S2 frame and the de assertion of RTS The allowable values are 0 and 8 to 272 bit times The default value is 12 bit times STALEDATATMEOUT The elapsed time after which a slave is declared failed during which no STALE DATA TIMEOUT valid messages addressed to the S2 slave have been received The allowable range is 1 to 600 seconds The default value is 300 seconds The valid transmitted and received frame length for all stations defined on the S2 link This parameter overrides the bit count defined in the NV INPUT and NV OUTPUT sections of the S2 link definition Valid values are 32 48 64 and 128 The default value is 32 If the NV OUTPUT section defines fewer bits than FRAME LENGTH requires FRAME LENGTH the
123. d port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port Communication activity on the currently active port NORMAL or STANDBY is displayed The serial communication display LED functions are described in Table 1 1 LED D Received Carrier Detected is not supported for the MCS 1 Slave Protocol Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default The MCS 1 Slave Protocol Link may be placed in link test mode by selecting the desired MCS 1 slave port identified as the NORMAL port Using the UP DOWN menu switch select DOWN once Select SERL TEST on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch until SERL TEST is displayed on the alphanumeric display Select DOWN once to enter the serial port test menu PORT pp n is displayed where is the serial port protocol and is the physical port number 1 to 4 For SM 6800M Rev 2 September 2010 6 1 5 MCS 1 Protocol 77 AnsaldoSTS MCS I Slave Protocol ports the protocol identification pp is HS Scroll through the active ports using the L
124. e 4 3 presents the MicroLok II Peer protocol link fixed Compiler declarations Table 4 3 MicroLok Peer Protocol Fixed Compiler Declarations Command NV OUTPUT Defines a list of Boolean values logic bits to be sent serially by slave The list may include 1 to 128 Booleans The NV OUTPUT declaration is optional Not adjustable NV NUMERIC OUTPUT 8 Defines a list of 8 bit numeric outputs Optional NV NUMERIC OUTPUT 16 Defines a list of 16 bit numeric outputs Optional NV NUMERIC OUTPUT 24 Defines a list of 24 bit numeric outputs Optional i bi i Optional NV NUMERIC OUTPUT 32 Defines a list of 32 bit numeric outputs Optional NV INPUT Defines a list of Boolean values logic bits to be received serially by a slave The list may include 1 to 128 Booleans The NV INPUT declaration is optional Not adjustable 4 9 MicroLok Peer Protocol Link System Boolean Bits Table 4 4 presents the System Boolean Bits available with MicroLok Peer protocol stations Table 4 4 MicroLok ll Peer Protocol Link System Boolean Bits A read only Boolean bit that indicates to the application whether or not the MicroLok II Peer protocol link is enabled in the link configuration 0 DISABLED 1 ENABLED A read only Boolean bit that indicates whether or not a MicroLok Peer protocol station is enabled in the link configuration lt link_name gt ENABLED lt link_name gt lt station_name gt ENABLED 0 DI
125. e default time is 300 seconds The time the link waits before sending a recall message when the link NORESPONSE TIMEOUT is down The allowable range is 50 to 25000 ms The default is 1000 ms The time the link waits before sending a recall message when the link is up The allowable range is 0 1 to 60 seconds value 0 means POLLING INTERVAL that the link does not send recall messages based on this timer The default is 15 seconds The time the link waits before sending a data message allowable range is 0 1 to 60 seconds A value of 0 means that the link BROADCAST INTERVAL does not send data messages based on this timer The default is 60 seconds 9 4 SM 6800M Rev 2 September 2010 N 7 AnsaldoSTS GETS SLCP Protocol Link 9 7 SLCP Protocol Link Compiler Declarations The SLCP Compiler Declaration are listed in Table 9 2 Table 9 2 SLCP Protocol Link Compiler Declarations ADDRESS This address must be 0 No other addresses are valid Not adjustable Specifies whether or not an SLCP slave will be enabled on unit ENABLE initialization 0 Disabled 1 Enabled There is no default Defines a list of Boolean values logic bits to be sent serially by NV OUTPUT a slave The list may include 1 to 128 Booleans Each SLCP link must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially NV INPUT by a slave The list may include 1 to 128 Booleans E
126. ect DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For MicroLok II Peer Protocol ports the protocol identification pp is PR Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 4 5 Defining a MicroLok ll Peer Protocol Link in a Genisys Application Program A typical Genisys II application program that defines a MicroLok II Peer Protocol link is shown in Appendix C SM 6800M Rev 2 September 2010 4 1 uw MICROLOK II Peer Protocol Link 7 AnsaldoSTS GENISYS GENISYS MICROLOK C20 TXD RXD C22 PORT4 C22 5 XD TXD 020 PORT 4 A32 COMMON Aid SoS ISOLATOR 16401101
127. ection 4 7 of this manual See SM 6800C Section 6 2 17 for additional general information on link configuration using the Genisys II Maintenance Tool SM 6800M Rev 2 September 2010 4 7 N MICROLOK II Peer Protocol Link AnsaldoSTS Q 78a2aaaaaaaaal default clear e 78a2aaaaaaaaa2 default clear Figure 4 3 MicroLok Peer Protocol Station Configuration 4 8 SM 6800M Rev 2 September 2010 AnsaldoSTS MICROLOK II Peer Protocol Link 4 10 3 MicroLok ll Peer Protocol Link Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Figure 4 4 presents a typical MicroLok II Peer Protocol Link Statistics display This display presents a summary of communication statistics for all stations defined on the selected MicroLok II Peer Protocol Link A MicroLok II Peer Protocol link that is functioning properly generally has a low count for transmitted and received initialization messages A count of 1 or 2 is desirable Total receive error counts are generally a small percentage of the count of properly framed messages generally 1 to 5 The rate of accumulation of transmitted and received message counts may vary significantly depending on the conf
128. eived RF acknowledge count 9 Received loopback count 0 Received time update count 1 Received repeated message count 0 Total NEW messages transmitted 13 Transmitted protocol reset count 2 mitted protocol reset ACK count 0 Transmitted RF ACK count 0 Transmitted RF loopback count 0 Transmitted time request count 1 Transmitted L3 reset count 1 Repeated transmission count 0 Indication message count 9 Messages acknowledged count 12 Discarded RF acknowledge count 0 Source address error count 0 Message sequence error count 0 Data field CRC32 error count 0 Data field consistency error count 0 Invalid message format count 0 Invalid message label count 0 Invalid message size count 0 RSSI for last msg for this slave 253 Figure 7 5 ARES WIU Protocol Station Statistics SM 6800M Rev 2 September 2010 7 11 ARES Protocol 77 AnsaldoSTS 7 9 5 ARES WIU Radio Control Protocol Statistics the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Figure 7 6 presents the ARES Radio Control Protocol Link Statistics Display ARES RADIO CONTROL ARES Radio link status Received byte error count 0 Received hardware error count 0 Receiver overrun error count 0 Receive buff
129. enance Tool ATCS_SLAVE 5 slave Link Enable default SET Physical Port Number default 3 Baud Rate 9500 default 9 600 Idle State Mark default Mark WIL Link Address 2 Digits default 0x3 MCP Link Address 2 Hex Digits default 0 1 Ground Link Address p3 2 Hex Digits default 0523 Channel Group OX 58 2 Hex Digits default 0x68 Polling Timeout 500 ms default 500 Polling Interval amp 1 000 default 1 000 Transmit ACK Timeout 120 000 ms default 120 000 HDLC Fail Timeout 60 000 ms default 60 000 Broadcast Interval amp 60 000 aj ms default 60 000 Stale Data Timeout 120 000 ms default 120 000 ATCS MCP alaladal B to 15 Hex Digits ATCS Health OK 28a2aaaaaaaaaa 8 to 15 Hex Digits ATCS Default Host 0 28321 alal 8 to 15 Hex Digits STATIONS FOR THIS LINK Highlight a station in the list below and press the Station Info button on the right to view change the station s data Station Info ST 1 at address 7842A1A1A1A1A3 is Enabled and Not Visited DE 5 2 at address 78424141414443 is Disabled Figure 8 2 ATCS WIU Protocol Link Configuration 8 6 SM 6800M Rev 2 September 2010 5 7 AnsaldoSTS ATCS WIU Protocol Link 8 9 2 ATCS WIU Protocol Station Configuration the main launch menu cl
130. end of the transmitted frame will be padded with O s If the NV OUTPUT section defines more bits than frame length allows outbound messages will be truncated to the bit count specified in FRAME LENGTH Only received messages containing the number of bits specified in FRAME LENGTH will be accepted SM 6800M Rev 2 September 2010 10 3 62 Slave Protocol Link AM 77 AnsaldoSTS 10 7 S2 Slave Protocol Link Compiler Declarations Table 10 2 presents the S2 Slave Compiler declarations Table 10 2 S2 Slave Protocol Link Compiler Declarations Command S O Declares a slave on an S2 protocol link and assigns its address 52 link may include 1 to 32 slave declarations The address of an S2 slave may be 1 to 63 There is no default If an S2 slave address is declared as 0 the configurable address is used for that slave Only one address declaration on an S2 link may use address 0 Not adjustable ADDRESS ENABLE NV OUTPUT Specifies whether or not an S2 slave will be enabled on unit initialization 0 Disabled 1 Enabled There is no default Defines a list of Boolean values logic bits to be sent serially by aslave The list may include 1 to 128 Booleans Each S2 slave must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially by aslave The list may include 1 to 128 Booleans The NV INPUT NV INPUT declaration is option
131. eptember 2010 w AnsaldoSTS Appendix B NV ASSIGN NVIO O14 TO 50 14 NV ASSIGN NVIO O15 TO 50 15 NV ASSIGN NVIO 016 TO SO 16 NV ASSIGN NVIO 017 TO SO 17 NV ASSIGN NVIO 020 TO 50 20 NV ASSIGN NVIO O21 TO 50 21 NV ASSIGN NVIO O22 TO 50 22 NV ASSIGN NVIO 023 TO 50 23 NV ASSIGN NVIO O24 TO 50 24 NV ASSIGN NVIO 025 TO 50 25 NV ASSIGN NVIO O26 TO 50 26 NV ASSIGN NVIO O27 TO 50 27 NV ASSIGN NVIO O30 TO 50 30 NV ASSIGN NVIO O31 TO 50 31 NV ASSIGN NVIO O32 TO 50 32 NV ASSIGN NVIO 033 TO 50 33 NV ASSIGN NVIO O34 TO 50 34 NV ASSIGN NVIO 035 TO 50 35 NV ASSIGN NVIO O36 TO 50 36 NV ASSIGN NVIO O37 TO 50 37 NV ASSIGN SI 00 TO NVOO 000 NV ASSIGN SI 01 TO NVOO 001 NV ASSIGN SI 02 TO NVOO 002 NV ASSIGN 51 03 NVOO 003 NV ASSIGN 51 04 NVOO 004 NV ASSIGN SI 05 TO NVOO 005 NV ASSIGN 51 06 NVOO 006 NV ASSIGN SI 07 TO NVOO 007 NV ASSIGN SI 10 TO NVOO 010 NV ASSIGN SI 11 TO 0 011 NV ASSIGN SI 12 TO NVOO 012 NV ASSIGN SI 13 TO NVOO 013 NV ASSIGN SI 14 TO NVOO 014 NV ASSIGN 61 15 NVOO 015 NV ASSIGN SI 16 TO NVOO 016 NV ASSIGN SI 17 TO NVOO 017 NV ASSIGN SI 20 TO NVOO 020 NV ASSIGN SI 21 TO NVOO 021 NV ASSIGN SI 22 TO NVOO 022 NV ASSIGN SI 23 TO NVOO 023 NV ASSIGN SI 24 TO NVOO 024 NV ASSIGN SI 25 TO NVOO 025 NV ASSIGN SI 26 TO NVOO 026 NV ASSIGN SI 27 TO NVOO 027 NV ASSIGN SI 30 TO NVOO 030 NV ASSIGN SI 31 TO NVOO 031 NV ASSIGN 51 32 NVOO 032 NV
132. er 2010 a AnsaldoSTS SCS 128 Protocol 5 9 1 SCS 128 Slave Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate link button to modify or view the configuration elements Figure 5 1 presents the SCS 128 Slave Protocol Link Configuration SCS 128 Slave Protocol configuration parameters are described in Section 5 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool LINK NAME SCS slave Link Enable M i default SET Koseteseeseseesesesseseeeseseesevec Pointto Point V default SET Physical port number default 4 Standby physical port a 0 means none default 3 Baud rate 9 20 default 300 Alt Baud rate default 75 Stop bits default 1 Parity Even default Even Key On delay 12 Key Off delay 12 default 12 Interbyte timeout 0 ms default 0 Stale data TO 9 m0 seconds default 300 Configuration address o ES default 0 Indication ACK default SET 4 default 12 4 4 Station 1 Enable default SET Figure 5 1 SCS 128 Slave Protocol Link Configuration SM 6800M Rev 2 September 2010 5 5 SCS 128 Protocol AnsaldoSTS 5 9 2 SCS 1
133. er overflow count 0 Receiver byte timeout count 0 Received signal strength messages 161 Maximum btres removed from FIFO 1 Spare byte 0 0 stations defined Figure 7 6 ARES WIU Radio Control Link Statistics 7 12 SM 6800M Rev 2 September 2010 A 77 AnsaldoSTS ARES Protocol 7 9 6 ARES WIU Protocol Link Protocol Monitor the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 7 7 presents a typical display for the ARES Protocol Monitor The protocol monitor display for the ARES Protocol Link shows message time message direction transmitted or received and message type followed by the full text of the transmitted or received message in hexadecimal bytes Please refer to an appropriate ARES Protocol document for additional information on the ARES Protocol ge Monitor 1 ARES SLAVE ENABLEC 13 14 09 RCV UNK 55 55 55 F5 STRUCTURE ERROR 2 ARES RADIO CONTROL ENABLECO 13 14 10 RCV RFA 01 00 26 00 OC 50 76 13 47 07 00 OD 1D 13 14 13 RCV UNK 8D 2E STRUCTURE ERROR 13 14 13 RCV RCL 01 00 26 00 OE 0A AA 50 76 13 47 08 20 76 93 51 51 00 00 02 02 C7 08 01 C7 08 AA 50 76 13 47 08 20 76 93 51 51 B8 94 53 C8 11 13 14 13 XMT IND 02 00 26 00 08 10 AA 20 76 93 51 51 50 76 13 47 08 00 02 02 02 C7 88 01 C7 88 AA 20 76 93 51 51 50 76 13 47 08 D4 07 02 OC 00 04 1A 00 00 10 06 06 06 06 06 06 06 06 06 06 0
134. fault value should always be used The elapsed time after which a slave is declared failed during which no STALE DATA TIMEOUT valid messages addressed to the slave have been received The allowable range is 10 to 600 seconds The default time is 300 seconds XMIT ACK TIMEOUT The elapsed time after transmission of an HDLC frame after which the POLLING TIMEOUT ATCS link retries the transmission The allowable range is 30 to 5000 ms The default time is 1000 ms The interval at which HDLC polling requests are sent to the MCP when POLLING INTERVAL no data is being passed The allowable range is 0 to 2000 ms The default ineterval is 1000 ms The time interval after which the communication link to the MCP is declared failed if the MCP does not respond to an HDLC poll from the ATCS link handler The allowable range is 10 to 60 seconds The default time is 60 seconds The interval at which an indication message is sent to the ground host INDICATION BROADCAS f for each ATCS slave The allowable range is 30 to 1800 seconds The INTERVAL default interval is 60 seconds The state of the ATCS transmitter when it is idle The valid selections TRANSMITTER IDLE STATE are MARK and FLAG The default is MARK HDLC FAIL TIMEOUT 8 4 SM 6800M Rev 2 September 2010 N 7 AnsaldoSTS ATCS WIU Protocol Link 8 7 ATCS WIU Protocol Station Compiler Declarations Table 8 3 presents the ATCS Station Compiler declarations for the
135. fication pp is GS Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port Communication activity on the currently active port NORMAL or STANDBY is displayed The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default SM 6800M Rev 2 September 2010 3 1 Enhanced Genisys Slave End Protocol Link AnsaldoSTS The Genisys Slave Protocol Link may be placed in link test mode by selecting the desired Genisys slave port identified as the NORMAL port Using the UP DOWN menu switch select DOWN once Select SERL TEST on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch until SERL TEST is displayed on the alphanumeric display Select DOWN once to enter the serial port test menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For Genisys Slave Protocol ports the protocol identification pp is G
136. ick on the button labeled System Configuration Click on the desired ATCS WIU protocol link Click on the desired station and then click on the Station Info button The user may either examine or modify the selected station configuration data Figure 8 3 presents the ATCS WIU Protocol Station Configuration ATCS WIU Protocol station configuration parameters are described in Section 8 7 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool ST 1 ares Station Station Address 69 OX 78 2 1 1 1 1 3 Host Address 6 ax DES Set Clock Enable 9 default SET Figure 8 3 ATCS WIU Protocol Station Configuration SM 6800M Rev 2 September 2010 8 7 ATCS WIU Protocol Link 8 9 3 ATCS WIU Protocol Link Statistics 77 AnsaldoSTS the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical information for both boards and protocol links To enter the Link Information view for a particular link simply click on the appropriate button Both general link and station specific statistics can be viewed Figure 8 4 and Figure 8 5 ATCS SLAVE slave status Unknown receive error 0 Received CRC error count 1 Received overrun error count 0 Received abort error count 0 U
137. ifies whether or not the SLCP protocol link will be enabled on unit ENABLE initialization 0 DISABLED 1 ENABLED No default PROTOCOL SLCP declares that this link will support the SLCP protocol No default Not adjustable Not applicable for the SLCP protocol ports 1 2 3 4 There is no default The data rate at which the link will operate Available selections are BAUD 150 300 600 1200 1800 2400 3600 4800 7200 9600 and 19200 bits per second The default rate is 1200 The number of stop bits 1 or 2 that will be attached to the end of each message byte as it is transmitted The default value is 1 The type of parity calculation applied to each transmitted and received PARITY byte for the SLCP protocol The available selections are NONE EVEN ODD MARK and SPACE The default parity selection for the SLCP protocol is EVEN The time allowed between consecutive bytes of a received message If the inter byte timeout is exceeded end of message processing is INTERBYTE TIMEOUT initiated The default value of O allows the Genisys II executive to automatically calculate the inter byte timeout value Otherwise values between 10 and 50 milliseconds may be selected The default value is recommended most applications The elapsed time after which the link is declared failed during which no STALE DATA TIMEOUT valid data messages have been received The allowable range is 1 to 600 seconds Th
138. iguration parmeters for stations on the link SM 6800M Rev 2 September 2010 4 9 ERR MICROLOK II Peer Protocol Link AnsaldoSTS MI PEER Microlok Peer link status Total properly framed messages received 18 Good received message count this unit 18 Received init message count 2 Received data message count 7 Received status message count 0 Received service signal count 9 Total missed message count 0 Total messages transmitted 18 Transmitted init message count 2 Transmitted data message count 7 Transmitted status message count 0 Transmitted service signal count 9 Total messages acknowledged 9 Stale invalid ACK count 0 Total messages NAK ed 0 Stale invalid count 0 Acknowledge timeout count 0 Consecutive ACK timeouts 0 consecutive ACK timeouts 0 Grant timeout count 0 Max consecutive GRANT retries 0 Illegal message type Otherwise valid message that the addressed station cannot process 0 Bad init message count 0 Invalid message format count 0 Invalid message error count A good message but received out of context 0 Unrecognized header error count 0 Received message sequence error 0 Hardware detected receive errors within a properly framed message 0 Received byte error count Byte errors preceding message header 0 Received CRC error count 0 Incomplete message count 0 Double escape error count 0 Receive buffer overflow error count 0 Receive FIFO overflow count
139. iguration using the Genisys II Maintenance Tool 4 6 SM 6800M Rev 2 September 2010 AnsaldoSTS MICROLOK Peer Protocol Link PEER MICROLOK Peer Link Enable default SETE Point to Point default SET Physical port number 1 2 default 1 Baud rate 38 400 default 38 400 Stop bits e i 2 default 1 Parity None default None Key On delay e 12 default 12 Key Dff delay e 12 2 default 12 Grant delay 0 ms spins by factor of 10 default 10 No debug port address defined STATIONS FOR THIS LINK Highlight a station in the list below and press the Station Info button on the right to view change the station s data MP 88 0 at address 78A2A4AAAAAAAAJ is Enabled and Not Visited Station Info Figure 4 2 MicroLok Peer Protocol Link Configuration 4 10 2 MicroLok Peer Protocol Station Configuration In the main launch menu click on the button labeled System Configuration The user may either examine of modify the configuration database Select the appropriate button to modify or view the MicroLok II Peer Protocol Link configuration elements Select the desired station and click on Station Info to modify or view the configuration for the desiresd station Figure 4 3 presents the MicroLok II Peer Protocol Station Configuration display MicroLok II Peer Protocol station configuration parameters are described in S
140. ive program space FLASH PROM Programming Enable 0x300000 Ox3FFFFF High application program space Boot Program Block Boot space SM 6800M Rev 2 September 2010 1 5 2WS 3WS 4WS 0 5 1 WS 1 5 2 WS WS 4 5 OW 1WS Enabled Disabled Enabled Disabled Disabled Enabled Input Output N Not Installed Not installed 5 5 ID ejN sl 5 Input Output Output Input 9 8304 MHz Off 9 8304 MHz External 9 8304 MHz Off 9 8304 MHz External 2 3 2 3 t 2 3 2 3 2 3 t 2 3 2 3 2 3 2 3 2 3 2 3 2 3 2 3 2 3 2 3 2 3 2 3 1 2 2 3 Locked Position 1 2 2 Position 2 3 Locked Position 1 2 2 Position 2 3 Locked Position 1 2 2 Position 2 3 Locked Position 1 2 2 Position 2 3 Locked Position 1 2 2 Program Position 2 3 5 Functional Description AnsaldoSTS Soft Position 2 3 JMP25 Speaker Volume Loud Position 1 2 Off Not Installed P F Enable Power Fail Non Maskable Interrupt NMI Enable 13 Enable P F NMI 2 4 Disable JMP27 CPU Output Drivers sus Disable Locked Position 1 2 Top PCMCIA Slot Programming Voltage Position 2 3 Bottom PCMCIA Slot Programming Locked Position 1 2 Voltage Program Position 2 3 JMP30 Off Position 1 2 FLASH Memory Programming Voltage 5V Position 2 3 2 12V Positio
141. ived 51770 Good message count this unit 651770 Hardware detected receive errors within a properly framed message 0 Message length error count 0 Received 1 error count 0 Invalid message address count 0 Invalid message error count A good message but received out of context 0 Illegal header error count Otherwise valid message addressed to this unit with a header that this unit cannot process 0 Received byte error count Byte errors preceeding message header 0 Double escape error count 0 Receive buffer overflow error cnt 0 Message format error count 0 Unacknowledged indications 0 Received time synchronization message count 1462 Received acknowledge message count 262 Received poll message count 649782 Received changed message count 0 Received bitmap request message count 262 Received bitmap message count 2 Received text message count 0 Transmitted acknowledge message count 651508 Transmitted change message count 0 Transmitted bitmap message count 262 Transmitted timestamp request messsage count 0 Transmitted text message count 0 1 stations defined DT8 Station at address 00000016 Station 1 enabled Figure 11 2 Typical DT 8 Slave Protocol Link Statistics Display A DT 8 protocol link that is functioning properly generally has receiver error counts that are substantially lower than the Good message count 5 or less Higher error counts indicate the need to test the integrit
142. ix G Typical MicroLok Il ATCS Link Test Application SM 6800M Rev 2 September 2010 G 1 Appendix G 77 AnsaldoSTS AV 77 AnsaldoSTS G 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS MicroLok II ATCS Link Test Application Genisys PROGRAM 5 Example INTERFACE LOCAL BOARD NV IN32 OUT32 ADJUSTABLE ENABLE 1 TYPE NV IN32 0UT32 NV OUTPUT 00 000 00 004 00 010 00 014 00 020 00 024 NVOO 030 00 034 NV INPUT NVIO OOO NVIO 004 NVIO 010 NVIO 014 NVIO 020 NVIO 024 NVIO O30 NVIO O34 COMM LINK ATCS SLAVE NVI NVI NVI NVI NVI NVI NVI ADJUSTABLE ENABLE 1 PROTOCOL ATCS SLAVE ADJUSTABLE PORT ADJUSTABLE BAUD 3 9600 NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 0 0 NVIO 001 005 OIL 015 021 025 031 035 001 005 011 015 025 031 035 ADJUSTABLE POLLING TIMEOUT ADJUSTABLE POLLING INTERVAL ADJUSTABLE HDLC FAIL TIMEOUT NVI NVI NVI NVI NVI NVI NVI 500 MSEC NVOO NVOO NVOO NVOO NVOO NVOO NVOO NVOO 0 0 0 0 022 0 032 NVIO 0 002 006 012 016 022 026 032 036 002 006 012 016 026 036 1000 MSEC ADJUSTABLE STALE DATA TIMEOUT ADJUSTABLE XMIT ACK TIM
143. k have been received for five minutes Half duplex keyed carrier mode is disabled and CARRIER MODE defaults to CONSTANT on any Genisys SLAVE link that has a STANDBY port assigned 3 2 External Connections Connections for the various serial interface signals supported by the enhanced Genisys slave end protocol are shown for each physical serial port in Table 1 2 See Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices See Figure 3 1 for typical interconnections when a STANDBY serial port is defined 3 3 Genisys CSIB Jumper Positions The enhanced Genisys slave end protocol requires standard jumper settings as defined in Table 1 3 3 4 Front Panel Options Communication activity for active Genisys slave ports NORMAL or STANDBY may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired Genisys slave port identified as the NORMAL port for a link using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL 5 the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where is the serial port protocol and is the physical port number 1 to 4 For Genisys Slave Protocol ports the protocol identi
144. l The Genisys II CSIB supports only the slave end of the MCS I protocol It cannot be an MCS 1 master 6 2 External Connections Connections for the various serial interface signals supported by the MCS I slave end protocol are shown for each physical serial port in Table 1 2 Refer to Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices See Figure 3 1 for typical interconnections when a STANDB Y serial port is defined 6 3 Genisys CSIB Jumper Positions The MCS I protocol requires the standard CPU board jumper settings shown in Table 1 3 6 4 Front Panel Options Communication activity for active MCS 1 slave ports NORMAL or STANDBY may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired MCS I slave port identified as the NORMAL port for a link using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For MCS 1 Slave Protocol ports the protocol identification pp is HS Scroll through the active ports using the LEFT RIGHT menu switch until the desire
145. l display Note that activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 10 5 Defining an 52 Slave Protocol Link in a Genisys Application Program A typical Genisys II application program that defines an S2 Slave Protocol link is shown in Appendix I The basic structure of the 52 slave link definition is similar to that of a Genisys slave link Up to six 52 links may be defined in the same application program although only four may be enabled at the same time 10 2 SM 6800M Rev 2 September 2010 N 7 AnsaldoSTS S2 Slave Protocol Link 10 6 S2 Slave Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted and are presented in Table 10 1 Table 10 1 S2 Slave Protocol Link Compiler Commands and Their Functions Command Function Declares new 52 protocol serial link and defines the link name The link name is a user selectable text string No default Not adjustable Specifies whether or not the S2 protocol link will be enabled on unit 0 DISABLED 1 ENABLED No default S2 SLAVE declares that this link will support the S2 slave protocol No default Not adjustable For physical ports 1 2 an
146. lave Protocol Link Configuration DT 8 Protocol link configuration parameters are described in Section 10 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool SM 6800M Rev 2 September 2010 11 5 ER ET DT 8 Slave Protocol Link 7 AnsaldoSTS DT8_ SLAVE DTS Slave Link Enable Paint to Point Physical port number Standby physical port Baud rate aso Stop bits Parity None v delay 0 Key Off delay 0 1 Set Clock Enable Stale data TO 10 EE STATIONS FOR THIS LINK Highlight a station in the list below and press the Station Info button on the right to view change the station s data at address 00000016 is Enabled and Not Visited Station Info Figure 11 1 DT 8 Slave Protocol Link Configuration 11 10 1 DT 8 Slave Protocol Link Statistics In the main launch menu click on the button labeled Board Information This brings up a menu that displays statistical information for both boards and protocol links To enter the Link Information view for a particular link click on the appropriate button Figure 11 2 shows a typical DT 8 Slave Protocol link statistics display 11 6 SM 6800M Rev 2 September 2010 ay AnsaldoSTS DT 8 Slave Protocol Link DT8 SLAVE DataTrain VIII status Total properly framed messages rece
147. le selections are NONE EVEN ODD MARK and SPACE The default parity selection for the MicroLok Il Peer protocol is NONE The time in bit times between the assertion of the GRANT DCD signal and the leading edge of the start bit of the first byte of the KEY ON DELAY transmitted MicroLok Il Peer protocol message The allowable values are 0 and 8 to 280 bit times The default value is 0 bit times The time in bit times between the end of the last stop bit of the last byte of a transmitted MicroLok Peer protocol message and the de KEY OFF DELAY assertion of RTS The allowable values are 0 and 8 to 280 bit times The default value is 12 bit times The maximum time in milliseconds that the MicroLok Peer protocol link will wait for the GRANT DCD signal after the Request To Send GRANTDELAY signal has been asserted The allowable values are 10 to 10000 milliseconds The default value is 1000 milliseconds 4 7 MicroLok Peer Protocol Station Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted and are presented in Table 4 2 SM 6800M Rev 2 September 2010 4 3 3 MICROLOK II Peer Protocol Link AnsaldoSTS Table 4 2 MicroLok Peer Protocol Station Compiler Declaration and Configuration Commands and Their Functions Command Function Sets the address for MicroLok 11 Peer protocol station in
148. n 3 4 Normal 1 2 JMP 33 Serial Port 4 Rx Pin Select C22 id e JMP 34 5V Powers Real Time Clock Disable Enable JMP 35 On Board Coin Battery Powers Real Disable Time Clock Enable JMP 36 Backplane SYS CLK Fnable Disable Notes Factory default jumper positions are shown in bold type 1 If header posts are not installed in these locations no jumper is required 2 Settings shown in bold type are the normal jumper positions which lock the FLASH devices and prevent their contents from being modified Jumpers JMP 20 JMP 21 JMP 22 JMP 23 and JMP 30 must be moved to the 2 3 position to re program the MicroLok II executive or to program the user supplied application Jumper JMP 30 MUST NEVER be placed in the 3 4 position Use of the 3 4 position while programming on board FLASH memory may damage the CPU board Refer to the FLASH Programming Instructions for further information 3 Jumpers JMP and JMP 2 must NEVER be installed at the same time Install JMP 1 or JMP 2 as required 4 Jumpers JMP 4 and JMP 5 must NEVER be installed at the same time Install JMP 4 or JMP 5 as required 1 6 SM 6800M Rev 2 September 2010 7 AnsaldoSTS Functional Description 5 Jumpers JMP 11 and JMP 12 must always be installed in the same position 6 Jumpers JMP 1 through JMP 31 are available on main CPU boards N170013XX and N170034XX Jumpers JMP 32 through JMP 36 are available only on main CPU board 170034 7
149. ndicates to the application whether or not the MCS 1 link is enabled in the link configuration 0 DISABLED 1 ENABLED A read write Boolean bit that allows the application link name DISABLE program to disable the MCS 1 link 0 ENABLED 1 DISABLED A read only Boolean bit that indicates whether or not the link names STANDBY MCS 1 STANDBY port is active 0 INACTIVE 1 ACTIVE A read only Boolean bit that indicates whether or not a link names nn ENABLED slave is enabled nn is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current status of link names nn STATUS slave communication nn is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic blocks link names nn INPUTS RECEIVED when a slave receives serial input data This bit cannot be directly accessed by the application 6 4 SM 6800 Rev 2 September 2010 2 77 AnsaldoSTS MCS 1 Protocol 6 9 Maintenance Tool Support for the MCS 1 Slave Protocol Link This section describes the part of the Maintenance Tool that is applicable to the Genisys MCS 1 Protocol For a complete description of the maintenance tool please refer to SM 6800C 6 9 1 MCS 1 Slave Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate link
150. ndication acknowledge support 1 enables support Indication acknowledge is a non standard extension of the SCS 128 protocol and if enabled it must be supported by the connected SCS 128 master SM 6800M Rev 2 September 2010 SCS 128 Protocol 77 AnsaldoSTS 5 7 SCS 128 Slave Protocol Link Compiler Declarations Table 5 2 presents the SCS 128 Slave Compiler declarations Table 5 2 SCS 128 Slave Protocol Link Compiler Declarations ___ Function ADDRESS ENABLE NV OUTPUT NV INPUT Declares a slave on an SCS 128 protocol link and assigns its address An SCS 128 link may include 1 to 32 slave declarations The address of an SCS 128 slave may be 1 to 63 There is no default If an SCS 128 slave address is declared as 0 the configurable address is used for that slave Only one address declaration on an SCS 128 link may use address 0 Not adjustable Specifies whether or not an SCS 128 slave will be enabled on unit initialization 0 Disabled 1 Enabled There is no default Defines a list of Boolean values logic bits to be sent serially by a slave The list may include 1 to 128 Booleans Each SCS 128 slave must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially by a slave The list may include 1 to 128 Booleans The NV INPUT declaration is optional Not adjustable 5 8 SCS 128 Slave Protocol Link System Boolean
151. nection of Genisys II and other serial devices Table 7 2 presents the connections for the radio control protocol for Port 4 A serial isolator is required between the Genisys II serial port and the ARES radio modem It is intended that connection to the ARES radio be implemented using two GETS serial isolators P N 226650 000 mounted 05425 serial interface panel P N 17004701 See Figure 7 1 for typical interconnections Table 7 1 Interface Connections for ARES WIU Protocol Name Name Designation Request to Send Output Clear to Send Input Receiver Reference RXREF 18 Signal Common cis Table 7 2 Interface Connections for ARES WIU Radio Control Protocol Signal Signal Name Designation Serial Data Output Serial Data Input SM 6800M Rev 2 September 2010 7 1 ARES Protocol GENISYS 48 PIN HARTING CONNECTOR D DB25P DB25S TX C20 gt SERIAL PORT 4 C22 gt RXD E16 gt lt 2 E14 gt C14 gt RIS lt 3 lt 4 SERIAL 12 PORT 3 ak lt 5 C18 gt e E10 gt lt 7 lt 8 A6 A8 lt 15 lt 17 24 lt 20 21 C26 18 gt gt E18 gt 2 E20 gt NOTES 1 SETALL JUMPERS ON N17004701 TO THE IN 24 J2 2 GETS 226650 000 3 RS 232 ISOLATOR 7 20 GETS 226650 000 RS 232 7 ISOLATOR 8 SERIAL I F PANEL N17004701
152. nformation for both boards and protocol links To enter the Link Information view for a particular link simply click on the appropriate button Figure 10 3 presents a typical S2 Slave Protocol link statistics display 52 SLAVE 03 52 slave status Good message count 7963 Good foreign message count 0 Good control messages received 7958 Good message recall count 5 Indications sent 7963 Message format error count 0 Message length error count 0 Message buffer overflow count 0 Received messages containing hardware detected errors 0 Received checksum error count 5 Transmit inhibit timer expired count 0 Spare 1 0 Spare 2 0 Spare 3 0 Spare 4 0 Maximum bytes removed from FIFO 1 4 stations defined Station 2 Station 81 enabled Station 3 Station 2 enabled Station 4 Station 83 enabled Station 63 Station 4 enabled Figure 10 3 52 Slave Protocol Link Statistics An S2 protocol link that is functioning properly generally has receiver error counts that are substantially lower than less than 5 of the Good message count Higher error counts indicated the need to test the integrity of the communication circuit Elevated error counts will usually cause an apparent slowdown of data flow on the circuit Loss of data may not be readily apparent until error counts become very high 30 or more of the Good message count The count of messages sent should roughly equal the count of messages received
153. nk Compiler Commands and Their Functions 6 2 Table 6 2 MCS 1 Slave Protocol Link Compiler Declarations seen 6 4 Table 6 3 MCS 1 Slave Protocol Link System Boolean Bits sse 6 4 Table 7 1 Interface Connections for ARES WIU Protocol 7 1 Table 7 2 Interface Connections for ARES WIU Radio Control 7 1 Table 7 3 Exceptions to the Standard Jumper Configuration for the ARES WIU Protoc l Fable 1 3 ie cir iot rine e iet 7 3 Table 7 4 ARES WIU Protocol Link Compiler Commands and Their 7 4 Table 7 5 ARES WIU Protocol Link Compiler 7 5 Table 7 6 ARES WIU Protocol Link System Boolean 7 6 Table 8 1 Port Connections for the ATOS WIU 2 8 1 Table 8 2 ATCS WIU Protocol Link Compiler Commands and Their 8 3 Table 8 3 ATCS WIU Protocol Link Compiler 8 8 5 Table 8 4 ATCS WIU Protocol Link System Boolean 8 5 Table 9 1 SLCP Protocol Link Compiler Commands and Their 9 4 Table 9 2
154. nknown address error count 0 Send link response time out count 892 Receive link total received frames 31 Receive link received SABM count 0 Receive link received XID count 2 Receive link received DISC count 0 Receive link received count 2 Receive link received count 26 Receive link rejected count 0 Receive link received count 0 Receive link received count 0 Receive link total mt frames 31 Receive link FRMR transmit count 0 Receive link REJ transmit count 0 Receive link DM transmit count 1 Receive link UA transmit count 3 Receive link RR transmit count 25 Receive link RNA transmit count 0 Send link total received frames 801 Send link received RR count 797 Send link received RNR count 0 Send link received REJ count 0 Send link received UA count 2 Send link received FRMR count 0 Send link received DM count 1 Send link received XID count 1 Send link received invalid XID response count 0 Send link received unknown count 0 Send link total transmitted frms 1694 Send link transmitted SABM count 2 Send link transmitted XID count 1 Send link transmitted DISC count 751 Send link transmitted Ul count 0 Send link transmitted RR count 872 Send link transmitted RNR count 0 Send link transmitted I count 20 Figure 8 4 ATCS WIU Protocol Link Statistics Error counts for the ATCS WIU Protocol Link LAPB layer should be very low as these error counts represent only errors that occur on
155. ol Link AnsaldoSTS Select DOWN to display activity on the selected port Communication activity on the currently active port NORMAL or STANDBY is displayed The serial communication display LED functions are described in Table 1 1 To return to the default front panel display select UP until the executive ID scrolls on the top alphanumeric display NOTE Activity for the physical port assigned to the first serial link defined in the application program is displayed on LEDs A through E by default The DT 8 Slave Protocol Link may be placed in link test mode by selecting the desired DT 8 slave port that is identified as the NORMAL port Proceed as follows 1 2 Use UP DOWN menu switch and select DOWN once Use the LEFT RIGHT menu switch and select LEFT until SERL TEST is displayed on the alphanumeric display Select DOWN once to enter the serial port test menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For DT 8 Slave Protocol ports the protocol identification pp 1s DS Scroll through the active ports using the LEFT RIGHT menu switch until the desired NORMAL port is displayed Select DOWN to place the desired port in test mode Scroll through the test modes using the LEFT RIGHT menu switch Available test modes include steady MARK
156. onds SM 6800M Rev 2 September 2010 MCS 1 Protocol 77 AnsaldoSTS 6 7 MCS 1 Slave Protocol Link Compiler Declarations Table 6 2 presents the MCS 1 Compiler declarations for the MCS 1 protocol Table 6 2 MCS 1 Slave Protocol Link Compiler Declarations Declaration Function ADDRESS ENABLE NV OUTPUT NV INPUT Declares a slave on an MCS 1 protocol link and assigns its address An MCS 1 link may include 1 to 32 slave declarations The address of an MCS 1 slave may be 1 to 63 There is no default If an MCS 1 slave address is declared as 0 the configurable address is used for that slave Only one address declaration on an MCS 1 link may use address 0 Not adjustable Specifies whether or not an 5 1 slave will be enabled on unit initialization 0 DISABLED 1 ENABLED There is no default Defines a list of Boolean values logic bits to be sent serially by a slave The list may include 1 to 120 Booleans Each MCS 1 slave must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially by a slave The list may include 1 to 120 Booleans The NV INPUT declaration is optional Not adjustable 6 8 MCS 1 Slave Protocol Link System Boolean Bits Table 6 3 presents the System Boolean Bits available with the MCS I protocol Table 6 3 5 1 Slave Protocol Link System Boolean Bits link name ENABLED A read only Boolean bit that i
157. or messages addressed to ATCS MCP Valid MCP LINK ADDRESS addresses are 0 to OxFF The default value is 0x01 The default should always be used The HDLC layer address for messages addressed to ATCS WIU s Valid WIU LINK ADDRESS addresses are 0 to OxFF The default value is 0x03 The default should always be used The HDLC layer address for messages addressed to the ATCS ground GROUND LINK ADDRESS network Valid addresses are 0 to OxFF The default value is 0x23 The default should always be used The HDLC layer channel group for indication messages Valid CHANNEL GROUP selections 0 to OXFF The default value is 0x68 The default should always be used The ATCS address for the ground host to which all indication messages DEFAULT ATCS HOST are addressed and from which all control messages are received The ADDRESS ATCS ground host address consists of 8 to 15 BCD digits formatted as defined in the ATCS protocol specification There is no default SM 6800M Rev 2 September 2010 8 3 WIU Protocol Link AnsaldoSTS command rt The ATCS address for the MCP The ATCS MCP address consists of 8 MCP ATCS ADDRESS to 15 BCD digits formatted as defined in the ATCS protocol specification There is no default The time that the ATCS link will wait for the acknowledgement of a transmitted message that requires acknowledgement before initiating a retry Valid times are 5 to 120 seconds The default time is 70 seconds The de
158. ow the user to view statistical information for both boards and communication links To enter the Link Information view for a particular link simply click on the appropriate button Figure 2 3 presents a typical Genisys Master Protocol Link Statistics display Scroll down to the communication statistics for the slave that is of interest This display presents the communication statistics for a selected slave defined on the selected Genisys Master Protocol Link 2 8 Station 2 Station 81 enabled Messages addressed to this station 396 Controls addressed to this station 1 Recalls addressed to this station 67 Indication acknowledges sent Execute messages sent 1 Errors on control messages 0 Control delivery failures 0 Good responses from this station 395 Good indications from this station 67 Checkback messages received 1 Acknowledge messages received 0 Unsolicited checkbacks received 0 Checkback failures 0 No response errors 1 Bad response errors 0 Illegal response errors 0 Hardware receive errors 0 Message length errors 0 Received CRC errors 0 Invalid message format errors 0 Invalid message errors 0 Illegal header errors 0 Receive address errors 0 Indication byte address errors 0 Received byte count errors 0 Double escape errors 0 Receive buffer overflow errors 0 Figure 2 3 Genisys Master Protocol Station Statistics SM 6800M Rev 2 September 2010 RN 77 AnsaldoSTS Genisys Master Protocol Link
159. port is active If no STANDBY port is assigned link name nn STANDBY has a constant value of 0 3 6 Genisys Slave Protocol Link Compiler Declarations and Configuration Commands Compiler declarations and configuration commands can be declared adjustable unless otherwise noted and are presented in Table 3 1 Table 3 1 Genisys Slave Protocol Link Compiler Commands and Their Functions Declares a new Genisys slave protocol serial link and defines the LINK link name The link name is a user selectable text string No default Not adjustable Specifies whether or not the Genisys slave protocol link will be ENABLE enabled on unit initialization 0 DISABLED 1 ENABLED No default Genisys SLAVE declares that this link will support the Genisys PROTOCOL slave protocol No default Not adjustable For physical ports 1 2 and 3 specifies whether or not the physical port hardware will operate in point to point 1 or multi POINT POINT drop 0 mode The default is multi drop Physical port 4 is point to point only regardless of the value assigned to POINT POINT The NORMAL physical port to which the Genisys slave link will PORT be attached Available ports are 1 2 3 and 4 There is no default The STANDBY physical port to which the Genisys slave link will STANDBY PORT be attached Available ports are 0 No STANDBY port 1 2 3 and 4 The default port is O 3 4 SM 6800M Rev 2 September 2010 5 AnsaldoSTS
160. r 2010 iii Table of Contents 77 AnsaldoSTS 4 7 MicroLok II Peer Protocol Station Compiler Declarations and Configuration Commands 4 3 4 8 MicroLok II Peer Protocol Link Fixed Compiler Declarations 4 5 4 9 MicroLok II Peer Protocol Link System Boolean 4 5 4 10 Maintenance Tool Support 4 6 4 10 1 MicroLok Il Peer Protocol Link Configuration eee 4 6 4 10 2 MicroLok Il Peer Protocol Station 4 7 4 10 3 MicroLok Il Peer Protocol Link 4 9 4 10 4 MicroLok Il Peer Protocol Station Statistics 4 10 4 10 5 MicroLok Peer Protocol Link Protocol 2 4 12 5 ENHANCED SCS 128 SLAVE PROTOCOL LINK 5 1 Introgd ctiori uen tea t eie t d 5 1 5 25 External 5 1 5 3 Genisys CSIB Jumper 5 1 5 4 Front Panel ete eee tend beate 5 1 5 5 Defining SCS 128 Slave Protocol Link in Genisys Application Program 5 2 5 6 SCS 128 Slave Protocol Link Compiler Declarations and Configuration Commands 5 2 5 7 SCS 128 Slave Protocol Link Compiler Declarations 2 5 4 5 8 SC
161. r the ARES WIU Protocol Link This section describes the part of the Maintenance Tool that is applicable to the Genisys II ARES Protocol For a complete description of the maintenance tool please refer to Service Manual SM 6800 7 6 SM 6800 Rev 2 September 2010 N AnsaldoSTS ARES Protocol 7 9 1 ARES WIU Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate link button to modify or view the configuration elements Figure 7 2 presents the configuration of the ARES Protocol Link ARES Protocol link configuration parameters are described in Section 7 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool SM 6800M Rev 2 September 2010 7 7 SY ARES Protocol 77 AnsaldoSTS Program ARESTST2 at address 1 on COMI Configure Link ARES_SLAVE ARES_ SLAVE ARES slave Link Enable Physical port number 3 21 default 3 Baud rate 2400 default 2 400 Idle State default Flag Key On delay o E default 0 Key Dff delay 50 default 50 XMIT Retry Limit 3 default 3 WIU Link Address OX li 2 Digits default 0x1 Ground Link Address 0x 2 2 Hex Digits default 0 2 ARES Host Address IX 2076935151 8 to
162. re 1 1 Genisys Code System Interface Board SM 6800M Rev 2 September 2010 1 3 5 Functional Description 7 AnsaldoSTS Table 1 1 Communication LED Functions Transmitter Active B_ Good Message Received C Message Addressed to this Unit D Received Carrier Detected E Error Detected in Received Message 1 2 External Connections to the Genisys Il CSIB Because the Genisys II Controller Board is physically identical to the MicroLok II Controller Board external connections to the Genisys II CSIB are defined in Section 2 4 of Service Manual SM 6800B The 250 HZ output of the MicroLok II Controller Board is disabled by the Genisys II Executive software and is not available on the Genisys II CSIB Normal external connections for serial communication links supported by the Genisys II CSIB are presented in Table 1 2 Table 1 2 Serial Interface Signal Connections Supported by Genisys II Signal Serial Data Output TXD A2 A16 E16 C20 TXD A4 A18 Serial Data Input RXD C6 A24 E14 C22 RXD C8 A26 Request to Send Output RTS E2 A20 Required for multi drop modem RTS E4 A22 connections only Clear to Send Input Required CTS A10 Not ial only for multi drop modem CTS 12 Available Available connections where the modem supports CTS Standby Port Active DCD ES A28 Standby Port Only Required DCD ES A30 only if a standby port is defined ee Available Available Available
163. refer to Genisys Protocol descriptions in SM 6300A Section VII or SM 6408F Section V for additional information on the Genisys Protocol Please refer to Section 7 3 4 of Service Manual SM 6800C for additional information on the Serial Message Monitor ID Serial Link stat Stop BENISYS_SLAVEZ 1 GEN SLAVE 14 39 26 RCV RCL 01 81 50 F6 GEN_MASTER ENABLEC 14 39 26 XMT IND F201 00 00 01 00 02 00 03 00 0 01 FO 06 50 F6 14 39 26 RCV ACK 01 83 60 F6 GENISYS_SLAVE2 ENABLED 14 39 26 XMT ACK F1 01 F6 GENISYS MASTER2 ENABLEC 14 39 26 POL 01 F6 14 39 26 ACK 101 F6 14 39 26 RCV POL FB 02 F6 14 39 26 XMT ACK F1 02 F6 14 39 26 RCV RCL FD 02 C1 51 F6 14 39 26 XMT IND F2 02 00 00 01 00 02 00 03 00 EO 01 FO 09 14 F6 14 39 26 RCV ACK FA 02 61 F6 14 39 26 1 02 6 14 39 26 RCV POL FB 01 F6 DU 14 39 26 XMT ACK F1 01 F6 14 39 27 RCV POL FB 02 F6 14 39 27 XMT ACK F102 14 39 27 RCV RCL FD 01 81 50 F6 14 39 27 XMT IND 2 01 00 00 01 00 02 00 03 00 E0 01 06 50 F6 14 39 27 RCV ACK 01 83 60 6 14 39 27 XMT ACK F101 F6 14 39 27 RCV POL FB 01 F6 14 39 27 XMT ACK F101 F6 14 39 27 RCV POL FB 02 F6 14 39 27 XMT ACK F102 14 39 27 RCV RCL FD 02 C1 51 F6 14 39 27 XMT IND F2 02 00 00 01 00 02 00 03 00 EO 01 FO 09 14 F6 14 39 27 RCV ACK 02 C3 61 F6 14 39 27 XMT ACK F1 02 F6 14 39 27 RCV POL FB 01 F6 14 39 27 XMT ACK F1 01 F6 14 39 27 RCV
164. resents a summary of communication statistics for all slaves defined on the selected Genisys Master Protocol Link Please refer to Section 7 3 3 of Service Manual SM 6800C for additional information regarding the interpretation of Genisys protocol statistics GENISYS MASTER 03 Genisys master status Total messages sent 43 Control messages sent 4 Common controls sent 0 Recalls sent 11 Indication acknowledges sent 10 Execute messages sent 4 Good responses received 47 Indication messages received 10 Checkback messages received 4 Acknowledges received 0 Unsolicited checkbacks received 0 Checkback failures 0 Control delivery errors 0 Control delivery failures 0 No response errors 1 Bad response errors 0 Illegal response errors 0 Receiver overrun errors 0 Interrupt hardware errors 0 Hardware detected receive errors 0 Message length errors 0 Received errors 0 Invalid message format errors 0 Invalid message errors 0 Illegal header errors 0 Receive address errors 0 Indication byte address errors 0 Byte count errors 0 Double escape errors 0 Receive buffer overflow errors 0 Figure 2 2 Genisys Master Protocol Link Statistics SM 6800M Rev 2 September 2010 2 7 Genisys Master Protocol Link 77 AnsaldoSTS 2 9 3 Genisys Master Protocol Slave Statistics the main launch menu click on the button labeled Board Information This will bring up a menu that will all
165. ror count 0 Invalid message format count 0 Invalid message error count A good message but received out of context 0 Illegal message type Otherwise valid message that the addressed station cannot process 0 Bad init message count 0 Received message sequence error 0 Spare 1 0 Spare 2 0 Figure 4 5 MicroLok Peer Protocol Station Statistics SM 6800M Rev 2 September 2010 4 11 AV II Peer Protocol Link AnsaldoSTS 4 10 5 MicroLok ll Peer Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 4 6 presents a typical display for the MicroLok II Peer Protocol Monitor The protocol monitor display for the MicroLok II Peer Protocol Link shows a descriptive message summary followed by the full transmitted or received message in hexadecimal bytes Please refer to the MicroLok II Peer Protocol Users Guide for a detailed description of the MicroLok II Peer Protocol Sin Sue 1 MILPEER ENABLED MSG STATUS XMT DEST ADDR 78A2AAAAAAAAA2 SRC ADDR 78A2AAAAAAAAAT 2 IMILPEER 2 MSG TYPE NONVITALDATA SNDMSN B9 RCVMSN 5D 10 31 05 16 25 31 F5 EE 78 A2 AA AA AA AA A2 78 A2 AA AA AA AA A1 B9 5D 03 00 2C 05 10 31 16 25 31 08 07 CB 00 00 00 00 00 00 00 ED OE 54 F6 MSG STATUS RCV DESTADDR 78A2AAAAAAAAAT SRC ADDR 78A2AAAAAAAAA2
166. se 7 13 8 WIU PROTOCOL 8 1 8 1 1 Introg Cctiori 25 ra ed et RE 8 1 8 2 External GOnnecliors secte etur 8 1 8 3 Genisys CSIB Jumper Positions 8 2 8 4 Front Panel saisie 8 2 8 5 Defining ATCS WIU Protocol Link Genisys Application Program 8 3 8 6 ATCS WIU Protocol Link Compiler Declarations and Configuration Commands 8 3 8 7 ATCS WIU Protocol Station Compiler 8 5 8 8 ATCS WIU Protocol Link System Boolean 8 5 8 9 Maintenance Tool Support for the ATCS WIU Protocol Link 8 5 8 9 1 ATCS WIU Protocol Link Configuration 8 6 8 9 2 ATCS WIU Protocol Station 8 7 8 9 3 ATCS WIU Protocol Link Statistics 2 2 244 4 8 8 8 9 4 ATCS WIU Protocol Link Protocol Monitor 8 10 9 GETS SERIAL LOCAL CONTROL PANEL SLCP PROTOCOL 9 1 CINUOJUCUON EE 9 1 9 2 External Pe ERSTER RE Eae Raus ie bea 9 1 9 3 Genisys CSIB Jumper Positions 2
167. software is non vital but very similar to the MicroLok II vital executive When it is the only controller in the cardfile it supports all of the non vital MicroLok II physical I O boards It does not support vital MicroLok II physical I O boards The Genisys II CSIB is supported by the Genisys II Development System N800202 0001 for complete development system including the maintenance tool or N800203 0001 for maintenance tool only NOTE The Genisys II CSIB is NOT a direct replacement for the Genisys 2000 based MicroLok II CSIB N17061401 cardfile connector that mates with the top connector on the Genisys II CSIB must be rewired to accommodate the Genisys II CSIB if it is used to replace N17061401 The Genisys CSIB currently supports the following non vital code line protocols Genisys Master end Genisys Slave end e MicroLok II Peer SCS 128 Slave end 5 Slave end e ARES Wayside Interface Unit ATCS Wayside Interface Unit e GETS Serial Local Control Panel e 52 Slave end MCS 1 and SCS 128 slave end protocol handlers and the enhanced Genisys slave end protocol handler support optional NORMAL and STANDBY physical ports selectable by asserting the data carrier direct DCD input on the CSIB serial port that is designated as the STANDBY port Genisys is a registered trademark of Ansaldo STS USA Inc 2 MicroLok is a registered trademark of Ansaldo STS USA Inc SM 6800
168. st on the left to monitor Figure 9 4 presents a typical SLCP Protocol monitor display The display shows time and a message summary followed by the full transmitted or received message in hexadecimal bytes See the appropriate SLCP protocol description for an explanation of message contents Start Stop TIENS CLCP_Linkt Link1 1 GEN SLAVE ditahled 11 23 11 RCV BIT E2 948A 2 GENISYS MASTER disabled 211 Bos ES He ENABLEC 14 23 13 RCV E2 1509 4 CLCP Link2 disabled 11 23 14 RCV BIT E2 948A 11 23 14 RCV E2 140A 11 23 15 RCV BIT E2 9589 11 23 15 RCV E2 1509 11 23 16 XMT RCL 80 11 23 16 RCV DAT 29 40 E5 00 00 00 00 00 00 B2 11 23 28 XMT DAT 31 OE 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 C1 i 11 23 31 XMT DAT 31 OC 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 C3 11 23 31 XMT RCL 80 11 23 32 RCV DAT 29 40 E5 00 00 00 00 00 00 B2 DU 11 23 33 XMT DAT 31 08 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 C7 11 23 35 XMT DAT 31 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 CF 11 23 45 RCV BIT E2 98 86 11 23 46 RCV BIT E2 1806 11 23 47 XMT RCL 80 11 23 47 RCV DAT 29 40 E5 00 00 00 00 00 00 B2 11 23 47 RCV BIT E2 9985 11 23 48 RCV BIT E2 1905 11 23 48 RCV BIT E2 98 86 11 23 48 RCV BIT E2 1806 11 23 49 RCV BIT E2 9985 11 23 50 RCV BIT E2 1905 11 23 53 XMT DAT 31 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 CE 11 23 57 DAT 31 03 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 11 23 58
169. t 0 Message length error count 0 Received bytes containing hardware detected errors 0 Received messages containing hardware detected errors 0 Receive buffer overflow error count 0 Receive timeout error count 0 Maximum bytes removed from FIFO 1 2 stations defined Station 1 Station 81 enabled Station 2 Station 2 enabled Figure 6 2 MCS 1 Slave Protocol Link Statistics 6 6 SM 6800M Rev 2 September 2010 A 77 AnsaldoSTS MCS 1 Protocol 6 9 3 MCS 1 Slave Protocol Link Protocol Monitor In the main launch menu click on the button labeled Serial Message Monitor Select the appropriate link to monitor from the list on the left to monitor Figure 6 3 presents a typical display for the MCS 1 Slave Protocol Monitor The protocol monitor display for the MCS 1 Slave Protocol Link shows message time message direction transmitted or received and message type followed by the full text of the transmitted or received message in hexadecimal bytes Please refer to the MCS 1 Protocol description in SM 6408M Section IV or other appropriate MCS 1 Protocol document for additional information on the MCS 1 Protocol XY GENISYS Development System Revision 7 00 N451232 1881 Pm x e ki 2 Unit Toole Print Save Le Help Program MCSTEST at address 1 on Serial ge Monitor CPS Down D 771 1 MCS SLAVE 1 15 26 RCV POL 02 08 11524 02 08 11 15 27 RCV CT
170. t an Genisys slave will be enabled on unit initialization 0 Disabled 1 Enabled There is no default Defines a list of Boolean values logic bits to be sent serially by NV OUTPUT aslave The list may include 1 to 128 Booleans Each Genisys slave must have an NV OUTPUT declaration Not adjustable Defines a list of Boolean values logic bits to be received serially NV INPUT by a slave The list may include 1 to 128 Booleans The NV INPUT declaration is optional Not adjustable 3 6 SM 6800M Rev 2 September 2010 77 AnsaldoSTS Enhanced Genisys Slave End Protocol Link 3 8 Genisys Slave Protocol Link System Boolean Bits Table 3 3 presents the System Boolean Bits available with the Genisys slave protocol Table 3 3 Genisys Slave Protocol Link System Boolean Bits lt link_name gt ENABLED lt link_name gt DISABLE lt link_name gt STANDBY lt link_name gt nn ENABLED lt link_name gt nn STATUS lt link_name gt nn INPUTS RECEIVED 3 9 Maintenance Tool Support A read only Boolean bit that indicates to the application whether or not the Genisys slave protocol link is enabled in the link configuration 0 DISABLED 1 ENABLED A read write Boolean bit that allows the application program to disable the Genisys slave protocol link 0 ENABLED 1 DISABLED A read only Boolean bit that indicates whether or not the Genisys slave link STANDBY port is active 0 INACTIVE 1 ACTIVE A read only Boolean
171. table unless otherwise noted Table 6 1 presents MCS 1 compiler commands and their functions Table 6 1 MCS 1 Slave Protocol Link Compiler Commands and Their Functions Commad Function Declares a new MCS 1 protocol serial link and defines the link LINK name The link name is a user selectable text string No default Not adjustable Specifies whether or not the MCS 1 protocol link will be enabled 0 DISABLED 1 ENABLED No default MCS SLAVE declares that this link will support the MCS 1 slave protocol No default Not adjustable For physical ports 1 2 and 3 specifies whether or not the physical port hardware will operate in point to point 1 or multi POINT POINT drop 0 mode The default is multi drop Physical port 4 is point to point only regardless of the value assigned to POINT POINT PORT The NORMAL physical port to which the MCS 1 link will be attached Available ports are 1 2 3 and 4 There is no default 6 2 SM 6800M Rev 2 September 2010 77 AnsaldoSTS MCS 1 Protocol Command Fnction O STANDBY PORT BAUD STOPBITS PARITY KEY ON DELAY KEY OFF DELAY INTERBYTE TIMEOUT STALE DATA TIMEOUT The STANDBY physical port to which the MCS 1 link will be attached Available ports are 0 No STANDBY port 1 2 3 and 4 The default port is 0 The data rate at which the link will operate Available selections are 75 150 300 600 1200 1800 2400 3600 4
172. tch When the Genisys slave link is placed in test mode the selected test signal will be transmitted over the selected currently active port NORMAL or STANDBY Return the port under test to normal operation by selecting NORMal using the LEFT RIGHT menu switch then selecting DOWN using the UP DOWN menu switch SM 6800M Rev 2 September 2010 3 3 Enhanced Genisys Slave End Protocol Link AnsaldoSTS See Section 3 4 of Service Manual SM 6800C for a complete explanation of the Genisys II CPU front panel menus 3 5 Defining an Enhanced Genisys Slave Protocol Link in a Genisys ll Application Program A typical Genisys II application program that defines an enhanced Genisys slave end link is shown in Appendix B The definition of enhanced Genisys protocol slave end link is identical to that of the conventional Genisys SLAVE link described in Service Manual SM 6800D except that an additional configuration parameter STANDBY PORT is available If a STANDBY port is defined the link operates as described in Section 3 1 above If no STANDBY port is defined the Genisys SLAVE link supports all of the Genisys SLAVE link features available in MicroLok II The enhanced Genisys slave end link supports the system Boolean bit lt link_name gt nn STANDBY code When a STANDBY port is assigned this bit indicates the status of the STANDBY port The bit is 1 when the STANDBY port is active and 0 when the NORMAL
173. the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate link button to modify or view the configuration elements Figure 10 2 presents the S2 Slave Protocol Link Configuration 52 Protocol link configuration parameters are described in Section 10 6 of this manual See SM 6800C Section 6 2 17 for additional general information regarding link configuration using the Genisys II Maintenance Tool 2_SLAVE_03 2 Slave Link Enable v 7 default SET 7 Point to Point I default SET Physical port number default 3 Baud rate 1200 default 1 200 Key On delay 0 default 0 delay 0 default 0 Transmitter Inhibit je ms default 25 Stale data TO jo 24 seconds default 10 Frame Length default 128 Configuration address p default 0 4 4 Station 2 Enable default SET Station Enable default SET Station 4 Enable default SET Station Enable 7 default SET Figure 10 2 52 Slave Protocol Link Configuration SM 6800M Rev 2 September 2010 10 5 S2 Slave Protocol Link AnsaldoSTS 10 9 2 S2 Slave Protocol Link Statistics In the main launch menu click on the button labeled Board Information This will bring up a menu that will allow the user to view statistical i
174. tion 0 DISABLED 1 ENABLED A read write Boolean bit that allows the application lt link_name gt DISABLE program to disable the DT 8 slave protocol link 0 ENABLED 1 DISABLED A read only Boolean bit that indicates whether or not the lt link_name gt STANDBY DT 8 slave link STANDBY port is active 0 INACTIVE 1 ACTIVE lt link_name gt ENABLED A read only Boolean bit that indicates whether or not a lt link_name gt nn ENABLED slave is enabled is the slave address 0 DISABLED 1 ENABLED A read only Boolean bit that indicates the current status of lt link_name gt nn STATUS slave communication nn is the slave address 0 FAILED 1 NORMAL A special Boolean bit that is used to trigger logic blocks lt link_name gt nn INPUTS RECEIVED when a slave receives serial input data This bit cannot be directly accessed by the application 11 9 Maintenance Tool Support for the DT 8 Slave Protocol Link This section describes the part of the Maintenance Tool that is applicable to the Genisys II DT 8 Slave Protocol For a complete description of the maintenance tool refer to Service Manual SM 6800C 11 10 DT 8 Slave Protocol Link Configuration In the main launch menu click on the button labeled System Configuration The user may either examine or modify the configuration database Select the appropriate link button to modify or view the configuration elements Figure 11 1 shows the DT 8 S
175. tion for Connector and Pinouts 8 3 Genisys CSIB Jumper Positions The ATCS protocol requires the standard CPU board jumper settings defined in Table 1 3 8 4 Front Panel Options Communication activity for active ATCS Protocol ports may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired ATCS Protocol port using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the LEFT RIGHT menu switch Select DOWN once to enter the serial port display menu PORT pp n is displayed where pp is the serial port protocol and n is the physical port number 1 to 4 For ATCS Protocol ports the protocol identification pp is AS Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is found Select DOWN using the UP DOWN menu switch to display activity on the selected port The serial communication display LED functions are described in Table 1 1 Select UP using the UP DOWN menu switch until the executive ID is again scrolled on the top 8 2 SM 6800M Rev 2 September 2010 N AnsaldoSTS ATCS WIU Protocol Link alphanumeric display to return to the default front panel display Note that activity for the physical port assigned to the first defined serial link defined in the appli
176. tive Also note that the Genisys II Maintenance Tool cannot be used with the MicroLok II CPU and the MicroLok II Maintenance Tool cannot be used with the Genisys II CPU SM 6800M Rev 2 September 2010 1 7 A Functional Description AnsaldoSTS MN 77 AnsaldoSTS 1 8 SM 6800M Rev 2 September 2010 7 AnsaldoSTS Genisys Master Protocol Link 2 GENISYS MASTER PROTOCOL LINK 2 1 Introduction The Genisys CSIB Executive supports the Genisys master end protocol to permit direct communication with all devices that support the slave end of the Genisys protocol 2 2 External Connections Connections for the various serial interface signals supported by the Genisys master end protocol are shown for each physical serial port in Table 1 2 See Section 3 5 and 3 6 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices 2 3 Genisys CSIB Jumper Positions The enhanced Genisys master end protocol requires standard jumper settings as defined in Table 1 3 2 4 Front Panel Options Communication activity for active Genisys master ports may be monitored using the communication status LEDs on the front panel of the CISB by selecting the desired Genisys master port using the front panel menu switches Using the UP DOWN menu switch select DOWN once Select SERL PRTS on the front panel alphanumeric display by selecting LEFT using the
177. ult value is 1 The default should always be used The HDLC layer address for messages addressed to the ARES GROUND LINK ADDRESS ground network Valid addresses are 0 to OxFF The default value is 2 The default should always be used The ARES address for the ground host to which all indication messages are addressed and from which all control messages ARES HOST ADDRESS are received The ARES ground host address consists of 8 to 15 BCD digits formatted as defined in the ARES protocol specification There is no default The address of the ARES time server The ARES time server ARES TIME ADDRESS address consists of 8 to 15 BCD digits formatted as defined in the ARES protocol specification There is no default The time that the ARES link will wait for CTS after RTS has been CTS WAIT asserted If CTS is not asserted in the specified time a retry is initiated Valid times are 100 to 10000 milliseconds The default value is 2000 milliseconds The time that the ARES link will wait for the acknowledgement of a transmitted message that requires acknowledgement before ACK TIMEOUT initiating a retry Valid times are 1 to 60 seconds The default time is 10 seconds The time that the ARES link will wait for acknowledgement of a PROTOCOL RESET TIMEOUT protocol reset request before retrying the request Valid times are 10 to 120 seconds The default time is 70 seconds The time that the ARES link will wait for completion of a time TIME REQUEST TIMEOUT
178. upport the Genisys protocol using a 24 bit CRC checksum The default CRC size is 16 bits Specifies whether or not the Genisys protocol master should send secure polling messages Setting secure mode to OFF slightly improves the efficiency of a Genisys protocol communication link on a clean communication circuit where few message errors are encountered Setting secure mode to ON significantly improves data link security The default setting is ON Use of the default setting is recommended SM 6800M Rev 2 September 2010 mA Genisys Master Protocol Link AnsaldoSTS comme Specifies whether or not the Genisys master should send data to slaves using CHECKBACK mode Setting checkback mode to forces the Genisys master to send data to slaves using MASTER CHECKBACK CHECKBACK mode Setting checkback mode to OFF causes the Genisys master to send data to slaves without using CHECKBACK mode The default setting for checkback mode is ON The default setting is usually adequate 2 7 Genisys Master Protocol Link Compiler Declarations Table 2 2 presents the Genisys Master Compiler declarations Table 2 2 Genisys Master Protocol Compiler Declarations ommend neon Declares a slave on an Genisys master protocol link and assigns its address An Genisys master link may include 1 to 32 slave declarations The address of an Genisys slave may be 1 to 255 ADDRESS There is no default
179. various serial interface signals supported by the DT 8 slave protocol are shown for each physical serial port in Table 1 2 Refer to Section 3 5 of Service Manual SM 6800B for additional information regarding the interconnection of Genisys II and other serial devices See Figure 3 1 for typical interconnections when a STANDB Y serial port is defined 11 3 Genisys CSIB Jumper Positions The enhanced DT 8 slave end protocol requires standard jumper settings as defined in Table 1 3 11 4 Front Panel Options Communication activity for active DT 8 slave ports NORMAL or STANDBY may be monitored using the communication status LEDs on the front panel of the CISB This is done by using the front panel menu switches to select the desired DT 8 slave port that is identified as the NORMAL port for a link Proceed as follows 1 Use the UP DOWN menu switch and select DOWN once 2 Use the LEFT RIGHT menu switch and select LEFT SERL PRTS will appear on the front panel alphanumeric display 3 Select DOWN once to enter the serial port display menu PORT pp n will display 16 the serial port protocol and n is the physical port number 1 to 4 The protocol identification for DT 8 Slave Protocol ports pp 1s DS 4 Scroll through the active ports using the LEFT RIGHT menu switch until the desired port is displayed SM 6800M Rev 2 September 2010 11 1 5 DT 8 Slave Protoc
180. y of the communication circuit Elevated error counts will usually cause an apparent slowdown of data flow on the circuit Loss of data may not be readily apparent until error counts become very high 30 or more of the Good message count The messages sent count should roughly equal the messages received count A DT 8 Slave protocol link that doesn t receive any messages cannot transmit any messages a slave can only respond to received messages High error counts often indicate a higher than normal level of noise on the communication circuit 11 10 2 DT 8 Slave Protocol Link Protocol Monitor Proceed as follows to display the protocol monitor screen 1 In the main launch menu click on the button labeled Serial Message Monitor 2 Select the appropriate link to monitor from the list on the left to monitor SM 6800M Rev 2 September 2010 11 7 55 3 DT 8 Slave Protocol Link AnsaldoSTS 3 Figure 11 3 shows a typical protocol monitor display for the DT 8 Protocol The display shows time followed by a descriptive summary for each message transmitted or received The actual text of the message excluding opening and closing flag bytes follows in hexadecimal bytes See the GRS Reference Guide CenTraCode II s and II v Communication Systems Emulation Manual for an explanation of the DT 8 Slave protocol messages 57 GENISYS Development System Version 7 4 Prototype N800202 0001 LA i tel e
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