WIENER Mpod Manual
Contents
1. 4 2 1 MPOD Low Voltage Module Version ccsccsscssscssccssccsscsecsccssecssccseesscssscsoees 5 2 2 Sense Control Connector Pin 551 lt lt 4 6 2 3 Power Connector Pin 5510 lt 4 44 44 7 3 HV Modules5 ee RE OE RO EE EE OE AE EG 8 4 Mpod Controller eye ei FD n fesse YC ete e E AG Ye dyi 10 gt Remote Control Software ES GES reto tene FIL FYN EY E ACOSTA Rai 12 5 1 Software Setup for Microsoft 1 00 5 444 44 12 5 2 Web Browser P M 14 83 NECSNMP TERRE RF I RY EE EE ORE 15 5 4 ISEG High voltage module special 0 5 44 19 5 5 A BASH Simple Script for SNMP 222222222222002220200222220000202000000000000002000000000000200000 21 5 6 Mpod SNMP Parameter List most COMmmon 2222222202222200022220000000000220020000022000002 23 5 7 Lab View Control Program 7 444 24 5 8 C programming 4452. 716 u716 uuu A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A A IIS Ed dior se n i ee i i i gt _ gt gt I Ga A p ae ae pe A U268 U276 u284 u292 u300 U308 U316 324 U332 U340 U348 u356 u364 372 u380 U388 U396 u404 u412 u420 u428 u436 U444 U452 U460 U468 U476 U484 U492 U500 U508 u516 U524 U532 U540 U548 u556 u564 u572 U580 U588 U596 U604 u612 U620 U628 U636 U644 U652 u660 u668 269 277 285 293 301 309 317 325 333 341 349 357 365 373 381 389 397 405 413 421 429 437 445 453 461 469 477 485 493 501 509 517 525 533 541 549 557 565 573 581 589 597 605 613 621 629 637 645 653 661 669 677 685 693 701 709 717 725 733 741 749 757 765 773 U692 U724 U732 U740 U748 u756 u764 u772 y cda hr Ed EN Tn rn I TN i pi GU di me I I ER SF dd rig NG dd EN Wd i Rat Version 1 02 u773 u781 u789 u797 u805 u813 u821 u829 u837 u845 u853 u861 u869 u877 u885 u893 u901 u909 u917 u925 u933 u941 u949 u957 u965 u973 774 782 790 798 806 814 822 830 838 846 854
3. 213 291 289 297 305 313 321 329 337 345 353 361 369 377 385 393 401 409 417 425 433 441 449 457 465 473 481 489 497 505 513 521 529 537 545 553 561 569 577 900 993 601 609 617 629 633 641 649 657 665 673 691 689 697 105 713 721 729 737 145 753 761 769 u525 526 u533 534 u541 542 u549 550 u557 558 u565 566 u573 574 u581 582 u589 590 u597 598 u605 606 u613 614 u621 622 u629 630 u637 638 u645 646 u653 654 u661 662 u669 670 u677 678 u685 686 u693 694 u701 702 u709 710 u717 718 u725 726 u733 734 u741 742 u749 750 u757 758 u765 766 LL EE EE TR EU EE LE RE EE TR EP LE TR EE TR EE LE eee oe lt ee PD iu iu JA Le DS rd ord Co LAP ma id i ed i a i np DDD A A A A A A A A ZA A A A A A A AA A A A AA DD reo a ele en i i ek i i a yr TN poe ema i TN i Pad AA De pe Erp le es ed LL IL O O cz A 2 O LL lt lt lt lt lt lt lt lt o A o ca E E A ed Cd o A pulp I E S o o A i c MD ee Pr mie IN DI fa Sm eg ag dr DDD A A A A A A A A A A A AA AA A A AU 34 u569 676 u676 604 u684 700 u700 708 u708
4. 24 6 Mpod Crate Ee leali bp a ae IIb ves 25 7 Primary Power Supply ei 25 7 1 Power Box Data Sheet eee eee ee eese eese eene tentes setenta tense tensa tense tense eeeeeeeeeeeneene 25 8 Mpod Low Voltage module data sheet Da ED Ea DE ED DE DE D DD a REED DE a DE Ea a ee cae ae DDs 26 9 SNMP examples for MPOD and high voltage EHS EDS module 27 10 WIENER SNMP Parameter Structure ea DE E E aa E ED D DD eene eene nennen enne 30 20 November 2009 V Figures Tables 20 November 2009 Vi 1 General Information alli 29000008 mg EDE 98858998 q 8 TUEDD 3 TA a i 19 iB FETTE Wr VE Es 98858998 El s 3 1818181 1818 2 8 p Igigigisisigigia IP Igigiaisisigiais IP RENA 1918181918181918 1918191218101918 IP D 7 i S df i U YN Je a 0 LV Postng 8 x BV s C EEO DD ashy em 51 AO UY ag Ex Me 8 BH M EE EE Lv Floanng 8 x 8V 1A 50W LV Foaitg E x 8V 10A 50N lew Mpod LX crate with mixed low and high voltage modules 1 1 Mpod Features Mpod is a mainframe for multi channel high voltage HV and low voltage LV power supply modules A unique flexibility is given by outfitting the MPOD crate with either the LV or HV backplane only or with both
5. MPOD HV amp LV Power Supply System Technical Manual 20 November 2009 1 Version 1 02 General Remarks The only purpose of this manual is a description of the product It must not be interpreted as a declaration of conformity for this product including the product and software W Ie Ne R revises this product and manual without notice Differences of the description in manual and product are possible W Ie Ne R excludes completely any liability for loss of profits loss of business loss of use or data interrupt of business or for indirect special incidental or conseguential damages of any kind even if W Ie Ne R has been advises of the possibility of such damages arising from any defect or error in this manual or product Any use of the product which may influence health of human beings reguires the express written permission of W Ie Ne R Products mentioned in this manual are mentioned for identification purposes only Product names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies No part of this product including the product and the software may be reproduced transmitted transcribed stored in a retrieval system or translated into any language in any form by any means with the express written permission of W Ie Ne R Control Cabinet In the context of this user manual the control cabinet must fulfill the reguirements on fire protective enclosures
6. u V lt u u u u u u u u u u u u u pro dae o dp parappa a mc a c ro P IZ eee dii i ee ee a ea FA u1977 20 November 2009 37 Version 1 02 u1982 1983 u1983 1984 u1984 1985 u1985 1986 u1986 1987 u1987 1988 u1988 1989 u1989 1990 u1990 1991 u1991 1992 u1992 1993 u1993 1994 u1994 1995 u1995 1996 u1996 1997 u1997 1998 u1998 1999 u1999 2000 R String outputName 2 Textual Convention DisplayString Size 1 4 RW Integer32 outputGroup 3 Range 0 1999 R BitString outputStatus 4 Values outputOn 0 outputinhibit 1 outputFailureMinSenseVoltage 2 outputFailureMaxSenseVoltage 3 outputFailureMaxTerminalVoltage 4 outputFailureMaxCurrent 5 outputFailureMaxTemperature 6 outputFailureMaxPower 7 outputFailureTimeout 9 outputCurrentLimited 10 outputRampUp 11 outputRampDown 12 outputEnableKill 13 outputEmergencyOff 14 R Opaque outputMeasurementSenseVoltage 5 Textual Convention Float Size 7 R Opaque outputMeasurementTerminalVoltage 6 Textual Convention Float Size 7 R Opaque outputMeasurementCurrent 7 Textual Convention Float Size 7 R EnumVal outputMeasurement
7. U1649 1650 u1655 1656 u1661 1662 u1667 1668 u1673 1674 u1679 1680 u1685 1686 u1691 1692 u1697 1698 u1703 1704 u1709 1710 u1715 1716 u1721 1722 u1727 1728 u1733 1734 u1739 1740 1745 1746 u1751 1752 u1757 1758 u1763 1764 u1769 1770 u1775 1776 u1781 1782 u1787 1788 u1602 1603 u1793 1794 u1608 1609 u1614 1615 u1620 1621 u1626 1627 u1632 1633 u1638 1639 u1644 1645 u1650 1651 u1656 1657 u1662 1663 u1668 1669 u1674 1675 u1680 1681 u1686 1687 u1692 1693 u1698 1699 u1704 1705 u1710 1711 u1716 1717 u1722 1723 u1728 1729 u1734 1735 u1740 1741 u1746 1747 u1752 1753 u1758 1759 u1764 1765 u1770 1771 u1776 1777 u1782 1783 u1788 1789 u1603 u1794 1795 u1609 u1615 u1621 u1627 u1633 u1639 u1645 u1651 u1657 u1663 u1669 u1675 u1681 u1687 u1693 u1699 u1705 u1711 41717 u1723 u1729 u1735 u1741 u1747 u1753 u1759 u1765 u1771 u1777 u1783 u1789 u1795 u1801 u1807 u1813 u1819 u1825 u1831 u1837 u1843 u1
8. Recovery Time 40m wire 5V at load side Unrop lt 2 V 20 November 2009 MVP 2 8V 30 60V Other lt 15mV 100 load full mains range lt 0 05 100 load full mains range Dynamic deviation depends on current slope resp filter capacitors at load side only 30m cable to load 0 3mF capacitance at load side 1V drop at nominal load 10 90 load change with 3ms slope 50A output 13 33A ms leads to less than 10 temporary output voltage deviation MVP 2 7V 2 8V Other 10 15 ms 50 75 load change 1 lt 25 ms 10 lt 15 ms 50 75 load change 1 lt 33 ms 29 Version 1 02 9 SNMP examples for MPOD and high voltage EHS EDS module ii EEES NN tal eon en O DN ce f I SNMP example for control of iseg Multi Channel High Voltage Power Supply Modules in El a W IE NE R MPOD crate F snmpget Ogv v 2c M path m WIENER CRATE MIB c public 192 168 16 222 outputVoltage u100 This command will request the value from datapoint set voltage A snmpget starts a SNMP request FF v 2c This parameters specifies which version of the SNMP to use WIENER devices use SNMP 20 M path This parameter should be replaced with the path to the WIENERCRATE MIB txt file F It is not needed in case the default path is used m WIENER CRATE MIB This parameter tells the command to look at the WIENER CRATE MIB P to resolve
9. u u u u u u u u u u u u lt lt i O a DI o DA el A A EA i dy i Pei N le oc od Doc A A AA A E bed I mo email o u u u u u u u u u u u u u u u dio ONERE ra ed o MER nr M ror UB er aan lt a ed i oe oe i i lt Pe end DR ee a and LEE re u1593 20 November 2009 36 Version 1 02 u1598 u1604 u1610 u1616 u1622 u1628 u1634 u1640 u1646 u1652 u1658 u1664 u1670 u1676 u1682 u1688 u1694 u1700 u1706 u1712 u1718 u1724 u1730 u1736 u1742 u1748 u1754 u1760 u1766 u1772 u1778 u1784 u1790 u1796 u1802 u1808 u1814 u1820 u1826 u1832 u1838 u1844 u1850 u1856 u1862 u1868 u1874 u1880 u1886 u1892 u1898 u1904 u1910 u1916 u1922 u1928 u1934 u1940 u1946 u1952 u1958 u1964 u1970 u1976 1599 1605 1611 u1611 1617 u1617 1623 u1623 1629 u1629 1635 u1635 1641 u1641 1647 u1647 1653 u1653 1659 u1659 1665 u1665 1671 u1671 1677 u1677 1693 u1683 1699 u1689 1695 u1695 1701 u1701 1707 u1707 1713 u1713 1719 u1719 1725 u1725 1731 u1731 1737 u1737 1743 u1743 1749 u1749 1755 u1755 1761 u1761 1767
10. u1913 1914 u1919 1920 u1925 1926 u1931 1932 u1937 1938 u1943 1944 u1949 1950 u1955 1956 u1961 1962 u1967 1968 u1973 1974 u1979 1980 u1800 1801 u1806 1807 u1812 1813 u1818 1819 u1824 1825 u1830 1831 u1836 1837 u1842 1843 u1848 1849 u1854 1855 u1860 1861 u1866 1867 u1872 1873 u1878 1879 u1884 1885 u1890 1891 u1896 1897 u1902 1903 u1908 1909 u1914 1915 u1920 1921 u1926 1927 u1932 1933 u1938 1939 u1944 1945 u1950 1951 u1956 1957 u1962 1963 u1968 1969 u1974 1975 u1980 1981 1802 1808 1814 1820 1826 1832 1838 1844 1850 1856 1862 1868 1874 1880 1886 1892 1898 1904 1910 1916 1922 1928 1934 1940 1946 1952 1958 1964 1970 1976 1982 u1875 U1881 U1887 1893 u1893 1899 u1899 1905 u1905 1911 u1911 1917 u1917 1923 u1923 1929 1935 1941 u1929 u1935 U1941 1947 u1947 1953 u1953 1959 u1959 1965 u1965 1971 u1971 1977 lt EE EE EES EL EE EE BEE i i ud LE a dd ll y ea eg MER c gt lt lt lt lt Bed ee APP DE ci e AGAR AA dT seat pd a Ge LED od LR O oe ek ee i P ed a nto inni DD DD E EE ee V u u u u u u u u
11. u121 129 u129 137 u137 138 145 u145 146 153 u153 154 161 u161 162 169 u169 170 u170 171 177 u177 178 u178 179 u102 106 u113 114 u114 u121 122 u122 u129 130 u130 u137 138 u138 u145 146 u146 u153 154 u154 u161 162 u162 u169 170 u170 u177 178 u178 185 u185 186 u186 187 u193 194 u194 u201 202 u202 u209 210 u210 u217 218 u218 u225 226 u226 u233 234 234 u241 242 u242 u249 250 u250 u257 258 u258 3 u110 u118 u126 u134 U142 u150 u158 u166 u174 u182 u190 u198 u206 u214 u222 u230 u238 o ED u108 109 u116 117 u124 125 u132 133 u140 141 u148 149 u156 157 u164 165 u171 172 u172 173 u179 180 u180 181 189 197 205 213 221 229 237 245 253 107008 116 124 192 140 148 156 164 172 180 u187 188 u188 189 196 204 212 220 228 236 244 252 260 u115 116 u123 124 u131 132 u139 140 u147 148 u155 156 u163 164 A a 1 3 3 3 3 3 3 3 3 3 102 110 118 121 2 126 30 u149 150 u157 158 u165 166 u173 174 u181 182 u189 190 u197 198 u205 206 u213 214 u221 222 u229 230 u237 238 191 u191 192 u192 199 u199 200 u200 207 u207 208 u208 215 u215 216 u216 223 u223 224
12. 969 972 977 980 985 988 U776 777 U778 u786 u794 u802 u810 u818 u826 u834 u842 u850 u858 u866 888 u888 889 u889 890 u890 891 u891 892 u892 u898 u906 u914 u922 u930 u938 u946 u954 u962 u970 u978 u986 u994 u777 778 u778 779 u779 780 u780 781 789 797 805 813 821 829 837 845 853 861 869 877 885 893 901 909 917 925 933 941 949 957 965 973 981 895 u895 903 u903 911 u911 919 u919 927 u927 935 u935 943 u943 951 u951 959 u959 967 u967 975 u975 896 u896 897 u897 898 u898 899 u899 900 u900 904 u904 905 u905 906 u906 907 u907 908 u908 912 u912 913 u913 914 u914 915 u915 916 u916 920 u920 921 u921 922 u922 923 u923 924 u924 928 u928 929 u929 930 u931 932 u932 936 u936 937 u937 938 u939 940 u940 944 u944 945 u945 946 u947 948 u948 952 u952 953 u953 954 u955 956 u956 960 u960 961 u961 962 u963 964 u964 968 u968 969 u971 972 u972 976 u976 977 u977 978 u978 979 u979 980 u980 u981 982 u982 983 u983 984 u984 985 u985 986 u986 987 u987 988 u988 989 u989 990 u990 991 u991 992 u992 993 u993 994 u994 995 u995 996 u996 997 u997 998 u998 999
13. index iLimit snmpget OgvU v 2c M path m WIENER CRATE MIB c guru ip outputCurrent index sense snmpget OqvU v 2c M path m WIENER CRATE MIB c guru ip outputMeasurementSenseVoltage index current snmpget OgvU v 2c M path m WIENER CRATE MIB c guru ip outputMeasurementCurrent index rampspeed snmpget OgvU v 2c M path m WIENER CRATE MIB c guru ip outputVoltageRiseRate index status snmpget OqvU v 2c M path m WIENER CRATE MIB c guru ip outputSwitch index echo voltage iLimit sense current rampspeed status let COUNTER COUNTER 1 done 20 November 2009 25 Version 1 02 5 7 Mpod SNMP Parameter List most common Parameter Access Type sysMainSwiteh RT sysStatus RT sysVmeSysReset 1 RW i R i groupsNumber outputName outputGroup outputStatus 320 outputMeasurementSenseVoltage 320 R r outputMeasurementTerminalVoltage 320 R r outputMeasurementCurent 320 R r outputMeasurementTemperatue 320 R i outputSwitch 320 RW i outputVoltage 320 RW F outputCurrent 30 RW F outputVoltageRiseRate 320 RW F outputVoltageFallRte 320 RW F outputSupervisionBehavior 320 RW i outputSupervisionMinSenseVoltage 320 RW F outputSupervisionMaxSense
14. u1560 u1566 u1572 u1578 u1584 u1590 u1596 1219 1225 1231 1237 1243 1249 1255 1261 1267 1273 1279 1285 1291 1297 1303 1309 1315 1321 1327 1333 1339 1345 1351 1357 1363 1369 1375 1381 1387 1393 1399 1405 1411 1417 1423 1429 1435 1441 1447 1453 1459 1465 1471 1477 1483 1489 1495 1501 1507 1513 1519 1525 1531 1537 1543 1549 1555 1561 1567 1973 1979 1585 1591 1597 u1219 u1225 u1231 u1237 u1243 u1249 u1255 u1261 u1267 u1273 u1279 u1285 u1291 u1297 u1303 u1309 u1315 u1321 u1327 u1333 u1339 u1345 u1351 u1357 u1363 u1369 u1375 u1381 u1387 u1393 u1399 u1405 U1411 U1417 u1423 u1429 u1435 U1441 U1447 u1453 u1459 u1465 u1471 u1477 u1483 u1489 u1495 u1501 u1507 u1513 u1519 u1525 u1531 u1537 u1543 u1549 u1555 u1561 u1567 u1573 u1579 u1585 u1591 u1597 1220 1226 1232 1238 1244 1250 1256 1262 1268 1274 1280 1286 1292 1298 1304 1310 1316 1322 1328 1334 1340 1346 1352 1358 1364 1370 1376 1382 1388 1394 1400 1406 1407 u1407 1412 1413 u1413 1419 u1419 1425 u1425 1431 u1431 1437 u1437 1443 u1443 1449 u1449 1455 u1455 1461 u1461 1467 u1467 1473 u1473
15. u224 231 u231 232 u232 239 u239 240 u240 193 u193 194 u194 195 201 u201 202 u202 203 209 u209 210 u210 211 217 u217 218 u218 219 225 u226 227 233 u233 234 u234 235 241 u241 242 u242 243 u245 246 u246 247 u247 248 u248 249 u250 251 u253 254 u254 255 u255 256 u256 257 u258 259 20 November 2009 3 u195 196 u196 197 u203 204 u204 205 u211 212 u212 213 u219 220 u220 221 u227 228 u228 229 u235 236 u236 237 u243 244 u244 245 u251 252 u252 253 u259 260 u260 261 Version 1 02 u225 226 u249 250 u257 258 lt a en ee es ee o a E LE diee A RE SE SR a SAR o M cio o cR if df erg i a A A le A lt S u509 20 November 2009 u261 262 u269 270 u277 278 u285 286 u293 294 u301 302 u309 310 u317 318 u325 326 u333 334 u341 342 u349 350 u357 358 u365 366 u373 374 u381 382 u389 390 u397 398 u405 406 u413 414 u421 422 u429 430 u437 438 u445 446 u453 454 u461 462 u469 470 u477 478 u485 486 u493 494 u501 502 910 265 u517 518
16. 1479 u1479 1485 u1485 1491 1497 1408 u1408 1414 u1414 1420 u1420 1426 u1426 1432 u1432 1438 u1438 1444 u1444 1450 u1450 1456 u1456 1462 u1462 1468 u1468 1474 1480 1486 1492 1498 1504 1510 1516 1522 1528 1534 1540 1546 1592 1558 1564 1570 1576 1582 1588 1594 1418 1424 1430 1436 1442 1448 1454 1460 1466 1472 1478 1484 1490 1496 1502 1508 1514 1520 1526 1532 1538 1544 1550 1556 1562 1568 1574 1580 1586 1592 1598 U1474 U1480 U1486 U1492 U1498 U1504 u1510 u1516 u1522 U1528 U1534 U1540 U1546 u1552 u1558 U1564 u1570 u1576 u1582 u1588 U1594 U1491 U1497 1503 u1503 1509 u1509 1515 1521 u1515 u1521 1527 u1527 1533 u1533 1539 u1539 1545 u1545 1551 u1551 1557 u1557 1563 u1563 1569 u1569 1575 u1575 1581 u1581 1587 u1587 1593 da EED ER ER lt en RS en ld i WW A LL i lt lt lt poi a eg i ek i a se nni a a em ea a o o ee ede Ta V u u u u u u u u u u lt ATA A AA A AS RD A e pen peo A o Dak A o cA Mr aa ia EE V V
17. 862 870 878 886 894 902 910 918 926 934 942 950 958 966 974 982 990 u774 u782 u790 u798 u806 u814 u822 u830 u838 u846 u854 u862 u870 u878 u886 u894 u902 u910 u918 u926 u934 u942 u950 u958 u966 u974 775 783 u783 791 u791 799 u799 807 u807 815 u815 823 u823 831 u831 839 u839 847 u847 855 u855 863 u863 871 u871 879 u879 u775 887 u887 776 777 780 784 u784 785 u785 786 u786 787 u787 788 u788 792 u792 793 u793 794 u794 795 u795 796 u796 800 u800 801 u801 802 u802 803 u803 804 u804 808 u808 809 u809 810 u810 811 u811 812 u812 816 u816 817 u817 818 u818 819 u819 820 u820 824 u824 825 u825 826 u826 827 u827 828 u828 832 u832 833 u833 834 u834 835 u835 836 u836 840 u840 841 u841 842 u842 843 u843 844 u844 848 u848 849 u849 850 u850 851 u851 852 u852 856 u856 857 u857 858 u858 859 u859 860 u860 864 u864 865 u865 866 u866 867 u867 868 u868 872 u872 873 u873 874 u874 875 u875 876 u876 880 u880 881 u881 882 u882 883 u883 884 u884 889 892 897 900 905 908 913 916 921 924 929 932 937 940 945 948 953 956 961 964
18. Convention DisplayString Size 0 255 R Integer32 psOperatingTime 3 RW String psDirectAccess 1024 Size 1 14 fantray 7 RW String fanSerialNumber 2 Textual Convention DisplayString Size 0 14 R Integer32 fanOperatingTime 3 R Integer32 fanAirTemperature 4 RW Integer32 fanSwitchOffDelay 5 Range 0 900 RW Integer32 fanNominalSpeed 6 Range 0 3600 RW Integer32 fanNumberOfFans 7 Range 0 12 fanSpeedTable 8 fanSpeedEntry 1 Index fanNumber Integer32 fanNumber 1 Range 1 12 R Integer32 fanSpeed 2 rack 8 signal 9 R Integer32 numberOfAnaloginputs 1 Range 0 8 analoginputTable 2 analogInputEntry 1 Index analoglnputlndex Integer32 analoglnputlndex 1 Range 1 8 R Opaque analogMeasurementVoltage 2 Textual Convention Float Size 7 E ee EE SS ic R BitString digitallnput 5 Values d0 0 d1 1 d2 2 d3 3 EnumVal snmpAccessRight 1 20 November 2009 40 Version 1 02
19. MPV 4008 MPV 4008L MPV 4015 MPV 4015L MPV 4030 MPV 4030L MPV 4060 MPV 4060L LV Type MPV 8008 MPV 8008L MPV 8015 MPV 8015L MPV 8030 MPV 8030L MPV 8060 MPV 8060L Channels 4 4 Channels 8 8 20 November 2009 Voltage range OV OV OV OV OV OV OV OV 8V 8V 16V 16V 30V 30V 60V 60V Voltage range OV OV OV OV OV OV OV OV 8V 8V 16V 16V 30V 30V 60V 60V MPOD Low Voltage Module Versions Max 10A 5A 5A 5A 2 5A 25A IA IA Max Current per channel 10A 5A 5A 5A 2 5A 2 5A IA IA MPOD Low Voltage Series 4 channels with floating ground Peak power Resolution Current per channel 50W 40W 50W 40W 50W 50W 50W 50W MPOD Low Voltage Series 8 channels with floating ground Peak power Resolution 50W 40W 50W 40W 50W 50W 50W 50W V I 12bit 12bit 12bit 12bit 12bit 12bit 12bit 12bit V I 12bit 12bit 12bit 12bit 12bit 12bit 12bit 12bit Ripple 50mV lt 3W lt 30mV gt 3W lt 30mV pp lt 3W lt 10mV gt 3W 50mV lt 3W lt 30mV gt 3W lt 30mV pp lt 3W lt 10mV gt 3W 50mV lt 3W lt 30mV gt 3W lt 30mV lt 3W lt 10mV gt 3W 50mV lt 3W lt 30mV gt 3W lt 30mV p lt 3W lt 10mV
20. Opaque outputCurrentFallRate 26 Textual Convention Float Size 7 RW INTEGER outputTripTimeMaxCurrent 27 Range 0 4000 fi lt lt a o R Integer32 groupsNumber 3 Range 1 1999 groupsTable 4 groupsEntry 1 Index groupsindex Integer32 groupsindex 1 Range 0 1999 RW EnumVal groupsSwitch 9 Values undefined 1 Off 0 On 1 resetEmergencyOff 2 setEmergencyOff 3 disableKill 4 enableKill 5 clearEvents 10 sensor 4 R Integer32 sensorNumber 1 Range 0 8 sensorTable 2 sensorEntry 1 Index sensorlndex EnumVal sensorlndex 1 Values temp1 1 temp2 2 temp3 3 temp4 4 temp5 5 temp6 6 temp7 7 temp8 8 R Integer32 sensorTemperature 2 Range 128 127 RW Integer32 sensor VarningThreshold 3 Range 0 127 RW Integer32 sensorFailure Threshold 4 Range 0 127 communication 5 snmp 1 snmpCommunityTable 1 snmpCommunityEntry 1 Index snmpAccessRight EnumVal snmpAccessRight 1 Values public 1 private 2 admin 3 guru 4 RW String snmpCommunityName 2 Size 0 14 RW Integer32 snmpPort 2 can 2 RW Integer32 canBitRate 1 R String canReceive 2 Size 14 RW String canTransmit 3 20 November 2009 39 Version 1 02 Size 14 powersupply 6 R String psSerialNumber 2 Textual
21. according to EN 60950 IEC 60950 UL 60950 All devices are intended for operation in control cabinets or in closed areas The LAN connection and all wire connections between the different system parts must be done via shielded cable with conductive connector shells which are fixed with screws Furthermore an additional fire protective enclosure is reguired which must not affect proper air circulation 20 November 2009 i Mains Voltage and Connection The Power supplies are eguipped with a World mains input rated voltage range 100 240 VAC freguency 50 60 Hz rated current 16 A Before connecting to the mains please double check correspondence Mains input connection at the power supply side is done with a 3 pin HIRSCHMANN connector or power terminals There is no main fuse inside A circuit breaker for overcurrent protection 16A type B or C EN IEC 60898 VDE 0641 has to be installed externally Before disconnection the HIRSCHMANN connector the power supply should be switched into standby state Use the ON OFF Switch of the front pannel of the MPOD system Signal Description Color of the Wire L Phase black or brown PE Protective Earth green yellow Connection to Earth Safety After connecting the Power box to the mains the mains input module is powered permanently Filter and storage capacitors of the power factor correction module are charged with about 400VDC Any DC On Signal as well
22. and ripple lt SmVpp to lt 10mVpp All DC outputs floating or common ground depending on module type Voltage and current settings monitoring for each channel 16 to 21 bit resolution Current monitoring and limiting for each channel 16 to 21 bit resolution Programmable channel parameters group features output connectors 8 channel modules SHV or REDEL lt 4kV multi pin Kings for 8kV and 10kV 4 channels only 16 channel modules SHV or REDEL lt 4kV multi pin 32 channel modules REDEL multi pin 7 EHO 20025n EHO 8030n Ba YA 16 32 and 8 channel ISEG high voltage modules from left to right with Redel multipin connectors and SHV 20 November 2009 8 Version 1 02 EHS Series 8 16 channels with common ground Type EHS 80010x 504 EHS 8080x 105 EHS 8060x 105 EHS 8040x 205 EHS 8030x 305 EHS 8020x 405 EHS 8010x 805 EHS 8005x 156 EHS F060x 105 EHS F040x 205 EHS F030x 305 EHS F020x 405 EHS F010x 805 EHS F005x 156 Channels V max 4 10kV 8 8kV 8 6kV 8 4kV 8 3kV 8 2kV 8 1kV 8 500V 16 6kV 16 4kV 16 3kV 16 2kV 16 1kV 16 500V I max 0 5mA ImA ImA 2mA 3mA 4mA 8mA 15mA V res 10 10 V 10 10 V 10 10 V IG Ne 10 10 Vmax NOP O Waves 10 10 V ORRON AA 102 102 Vmax NOS MOF Vs 10 10 V LOS 10 View 10 10 Vmax 10 10 V EHS Series 8 16 channels with floating ground Type EHS 8660x 105 F EHS 8640x 205 F EHS 8630x 305 F EHS 8620
23. as a power switch at control board if any installed operates as a low voltage DC on off switch only and not as a mains breaker Therefore it becomes dangerous if the box cover is open In this case a lot of components on high voltage potential get touchable Before starting any kind of work inside the power box remove the unit from mains and wait a couple of minutes with your activities Discharge the primary DC Filter capacitors by use of a well isolated 22 ohm 10W resistor We recommend in case of any malfunction to send the power box to Wiener or to one of our representative for service The backplane is connected to 385 V DC voltage So never touch the backplane or its connectors The HV Modules produce very high voltage which may be mortal danger if handled improperly Please read the separate manuals of the HV modules for detailed information 20 November 2009 il 20 November 2009 iii Declaration of Conformity Low Voltage Directive 73 23 EEC and EMC Directive Art 10 1 of 89 336 EEC W IC N R Plein amp Baus GmbH declare under our own responsibility that the product MPOD Power Supply System Items OMPV xxxx 0BP0 9003 0316 0070 0R00 0002 is in accordance with the following standards or standardized documents EN 60 950 1 2001 Corr 2004 09 EN 61 000 6 3 2001 EN 55 022 1998 EN 55 022 1998 de EN 61 000 3 2 2001 EN 61 000 3 3 1995 EN 61 000 6 2 2001 EN 61 000 4 6 1996 EN 61 000 4 3 1
24. configurations and mixed system with part of the crate outfitted with PCI or VME backplanes are available on reguest Type Slots Remote control Local control Backplane HV Output interface display power Position Mpod EC 10 Ethernet CAN USB HV LV 600W front Mpod EC R 10 Ethernet CAN USB HV LV 600W rear Mpod LX 10 Ethernet CAN USB Yes LCD HV LV 600W front Mpod LX R 10 Ethernet CAN USB Yes LCD HV LV 600W rear Mpod EC LV 10 Ethernet CAN USB LV front Mpod EC LV R 10 Ethernet CAN USB LV rear Mpod EC HV 10 Ethernet CAN USB HV 600W front Mpod EC HV R 10 Ethernet CAN USB HV 600W rear Mpod 2H 10 Ethernet CAN USB HV 1200W front Mpod 2H R 10 Ethernet CAN USB HV 1200W rear Mpod 2H LX 10 Ethernet CAN USB Yes LCD HV 1200W front Mpod 2H LX R 10 Ethernet CAN USB Yes LCD HV 1200W rear CAN bus for HV modules only disabling Ethernet communication may be necessary for ISEG CAN HV control software Mpod LC LV crate for low voltage modules 20 November 2009 2 Version 1 02 1 3 Mpod Mini crate The WIENER Mpod mini crate represents a compact 19 rack mountable chassis for up to 4 Mpod low and high voltage modules The Mpod mini crate includes the primary power supply with 600W power for high voltage modules as well as a cooling system with high performance DC fan It can be outfitted with HV backplane for us as a high voltage system only or with both HV and LV backplanes The first
25. gt 3W Ripple 50mV lt 3W lt 30mV gt 3W lt 30mV pp lt 3W lt 10mV gt 3W 50mV lt 3W lt 30mV gt 3W lt 30mV p lt 3W lt 10mV gt 3W 50mV lt 3W lt 30mV gt 3W lt 30mV p lt 3W lt 10mV gt 3W 50mV lt 3W lt 30mV gt 3W lt 30mV p lt 3W lt 10mV gt 3W Version 1 02 2 2 Sense amp Control Connector Pin Assignment Some pins are reserved for future functionality DSUB37 male Pin Signal Comment Channel 0 7 1 SO Channel O positive Sense Input 20 S0 Channel 0 negative Sense Input 2 reserved 21 reserved 3 51 Channel 1 positive Sense Input 22 51 Channel 1 negative Sense Input 4 reserved 23 reserved 4 5 S2 Channel 2 positive Sense Input 20 24 S2 Channel 2 negative Sense Input 6 reserved 25 reserved 7 S3 Channel 3 positive Sense Input 26 S3 Channel 3 negative Sense Input 8 reserved 27 reserved 9 S4 Channel 4 positive Sense Input 28 S4 Channel 4 negative Sense Input 10 reserved 29 reserved 11 S5t Channel 5 positive Sense Input 30 S5 Channel 5 negative Sense Input 12 reserved 31 reserved 37 13 S6 Channel 6 positive Sense Input 19 32 S6 Channel 6 negative Sense Input 14 reserved 33 reserved 15 S7 Channel 7 positive Sense Input 34 S7 Channel 7 negative Sense Input
26. half slot is reserved for the Mpod Controller which manages the primary power supplies and provides Ethernet USB and CAN bus interfaces for remote monitoring and control Please note that it is possible to switch the Mpod crate off and on off remotely when the front panel switch is in ON position Mpod Mini crate with Mpod controller and 2 high voltage 2 low voltage modules 20 November 2009 3 Version 1 02 2 LV Modules The MPV Mpod Low Voltage modules are available with either 4 or 8 channels for different voltage ranges with 8V 16V 30V 60V maximum respectively Special modules with up to 200V are under development All MVP modules have the following features 6U height 220mm deep fully shielded mechanics All DC outputs floating with individual return lines individually sensed Low noise and ripple Voltage and current settings monitoring for each channel 12 bit resolution Current monitoring and limiting for each channel 12 bit resolution Programmable channel parameters o voltage O current limit o power o ramping O group features programming and monitoring via Ethernet TCP IP and USB Connectors 2 x 8 pin high current sub D 37 pin sub D for sense control tatus LED s for all 8 channels 388980938 DC terminal channel O to 3 DC terminal channel 4 to 7 912191012181 5 Sense and Control terminal 1918 LY Ficaling 8 x BY 204 SOW 20 November 2009 4 Version 1 02 21 LV Type
27. overload Dimensions Weight Operation temperature MTBF electronics integrated fan 20 November 2009 106 230 V AC 15 variation allowed 16A CE CE EN 60555 IEC 555 pow fact 0 98 230VAC 16 A cold unit An external fuse or circuit breaker has to be installed 16A max EN 55 022 Class B Input and Output current limiting for booster circuits 909C cut off temperature 4U x 14 PU width acc to IEC 60297 450 mm deep 4 7 kg 0 459C without derating storage 30 C 85 C 40 C ambient ca 100 000 h 409C ambient ca 65 000 h 25 ambient gt 85000h 28 Version 1 02 8 Mpod Low Voltage module data sheet Regulation fast remote sense circuit short sensed distance sense connected to output at the MPOD module Static Dynamic 0 5 m wire Recovery Time Conditions MVP 2 8 V MVP other voltages MVP 2 8 V other MVP 2 8V MVP 5 16V 7 24V MVP 30 60V lt 15mV 100 load full mains range lt 0 05 100 load full DC input range lt 100 mV 50 75 load change lt 0 7 50 75 load change 1 0 2ms 50 29 75 load change 0 1 0 5 ms 1 0 0ms 50 29 75 load change 0 1 1 0 ms 1 0 5ms 50 75 load change 0 1 1 0 ms Current slope lt 1000A ms 200uF per 1A parallel to load fast regulation mode selected Regulation slow remote sense circuit long sensed distance Static Dynamic
28. the OID name c public This specifies which community of values can be accessed 1 192 168 16 222 The IP address of the MPOD crate outputVoltage u100 The SNMP item to the data point set voltage of a module in the second e slot of the MPOD crate HV channel 0 J snmpset Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputVoltage u100 F 60 This command writes a floating point value to the datapoint set voltage snmpset starts a SNMP write instruction c guru This specifies the community for write accesses F 60 The F specifies the write value as a floating point formated value The 60 is the write value 60 Volt snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 16 222 outputSwitch u100 i 1 This command write a switch on of the HV for one channel outputSwitch u100 i 1 Write of an integer formatted value to the item outputSwitch 5 F With that item it is possible to switch differnt functions for instance 4 set On 1 PR ad ad A dd oo dd do da dd do dd doa snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputVoltage u100 200 000000 V snmpset Ogv v 2c m HVIENER CRATE MIB c guru 192 168 16 222 outputVoltage u100 F 60 60 000000 V snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 16 222 outputSwitch u100 i 1 On 20 November 2009 30 Version 1 02 snmpget Ogv v 2c m WIENER CRATE MIB c publi
29. to allow combined use of LV and HV modules The full size Mpod crate has 10 slots for power modules which provides a high number of output channels Its modular design makes the customer able to easily replace the fan tray the controller the primary power supply or the optional air filter e 10 module slots for up to 80 LV channels up to 320 HV channels e SU high for bottom cooling air intake optional 9U high as desktop or front side intake with dust filter e Modules and controller outputs can be placed either at front or rear side picture above shows front side e LV 4 8 channels 0 8 16 30 60V 50W channel special modules up to 200V floating e HV 320 160 80 channels 0 2 5 4 6kV 8kV channel or module wise floating or common ground e Low noise and ripple e Individually controlled output channels voltage and current programmable warning and trip levels e MPOD Controller with Ethernet TCP IP CANbus USB Combi interface Interlock e Ethernet port with integrated Web server programmable with SNMP protocol via TCP IP OPC Server 20 November 2009 1 Version 1 02 1 2 e CE conform EN 50 081 82 part 1 EN 50 022 B e safety in accordance with EN 60 950 e Sinusoidal mains current EN 61000 3 2 Mpod Crate standard types The following crate types are standardized configurations with 8U high chassis Optionally a filter frame is available with bottom or front air inlet which increases the height to 9U Other
30. u999 1000 u1000 1001 u1001 1002 u1002 1003 u1003 1004 u1004 1005 u1005 1006 u1006 1007 u1007 1008 u1008 1009 u1009 1010 u1010 1011 u1011 1012 u1012 1013 u1013 1014 u1014 1015 u1015 1016 u1016 1017 u1017 1018 u1018 1019 u1019 1020 u1020 1021 u1021 1022 u930 931 u1022 1023 u1023 1024 u1024 1025 u1025 1026 u1026 1027 u1027 1028 u938 939 u946 947 u954 955 U962 963 u969 970 u970 971 DDD DDD LE P eee gt A e AS ia lt IA ioo A A LO c PM ee ee i EN en AA lt ps pi a Fr Eg GN Id Fd LO ie cer Fd ep ace 1016 1022 1028 u1028 1029 u1029 1030 u1030 1031 u1031 1032 u1032 1033 u1033 1034 u1034 1035 u1035 1036 u1036 1037 u1037 1038 u1038 1039 u1039 1040 u1040 1041 u1041 1042 u1042 1043 u1043 1044 u1044 1045 u1045 1046 u1046 1047 u1047 1048 u1048 1049 u1049 1050 u1050 1051 u1051 1052 u1052 1053 u1053 1054 u1054 1055 u1055 1056 u1056 1057 u1057 1058 u1058 1059 u1059 1060 u1060 1061 u1061 1062 u1062 1063 u1063 1064 u1064 1065 u1065 1066 u1066 1067 u1067 1068 u1068 1069 u1069 1070 u1070 1071 u1071 1072 u1072 1073 u1073 1074 u1074 1075 u1075 107
31. value is setEmergencyOff then all channels will have the state EmergencyOff which means that the High Voltage will switch off without a ramp and reset of the outputVoltage to null volt If the write value is disableKill then all channels will switch to disableKill If the write value is enableKill then all channels will switch to enableKill If the write value is clearEvents then all failure messages of the outputStatus will be reset all channel events all module events and the state EmergencyOff Item Type Access outputSupervisionBehavior integer read write DESCRIPTION A bit field packed into an integer which define the behaviour of the output channel power supply after failures For each supervision value a two bit field exists The enumeration of this value L H 2 is VVIENER LV devices 0 ignore the failure 1 svvitch off this channel 2 switch off all channels with the same group number 20 November 2009 20 Version 1 02 3 switch off the complete crate iseg HV devices 0 ignore the failure 1 switch off this channel by ramp down the voltage 2 switch off this channel by set a internal EmergencyOff 3 switch off the whole board of the HV module by set EmergencyOff The position of the bit fields in the integer value are Bit O 1 outputFailureMinSenseVoltage Bit 2 3 outputFailureMaxSenseVoltage Bit 4 5 outputFailureMaxTerminalVoltage Bit 6 7 outputFailureMaxCurrent Bit 8 9 outputFailureMaxTemperatu
32. z E ranges for measurement of current EBS 8 16 bipolar channels distributor module 28 Example of necessary SNMP commands for the delayed trip function snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 groupsSwitch u100 i 4 disableKill snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputVoltage u100 F 60 60 000000 V snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSwitch u100 i 1 On snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputVoltage u100 60 000000 V snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputMeasurementSenseVoltage u100 60 104586 V snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 166 2 25 outputMeasurementCurrent u100 0 000001 A snmpgetx Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputMeasurementCurrent u100 0 000000735 A snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSupervisionBehavior u100 0 snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSupervisionBehavior u100 i 64 64 snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSupervisionBehavior u100 64 20 November 2009 22 Version 1 02 snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 166 2 25 outputTripTimeMaxCurrent u100 0 ms snmpset Oqv v 2c m WIENER CRATE MIB c guru 192 166 2 25 outputTripTimeMaxCurrent u100 i 3000 3000 ms delay of 3 sconds snmpget Oqv v 2c m WIEN
33. 1213 u1213 1214 20 November 2009 35 Version 1 02 u1121 1122 u1127 1128 u1133 1134 u1139 1140 u1145 1146 u1151 1152 u1157 1158 u1163 1164 u1169 1170 u1175 1176 u1181 1182 u1187 1188 u1193 1194 u1199 1200 u1122 1123 u1128 1129 u1134 1135 u1140 1141 u1146 1147 u1152 1153 u1158 1159 u1164 1165 u1170 1171 u1176 1177 u1182 1183 u1188 1189 u1194 1195 u1200 1201 u1123 1124 u1129 1130 u1135 1136 u1141 1142 u1147 1148 u1153 1154 u1159 1160 u1165 1166 u1171 1172 u1177 1178 u1183 1184 u1189 1190 u1195 1196 u1201 1202 u1155 u1161 1167 u1167 1173 u1173 1179 u1179 1185 u1185 1191 u1191 1197 u1197 b o ME gt Ln AA a I cL o ed D DD DDD DD DD u1214 u1220 u1226 u1232 u1238 u1244 u1250 u1256 u1262 u1268 u1274 u1280 u1286 u1292 u1298 u1304 u1310 u1316 u1322 u1328 u1334 u1340 u1346 u1352 u1358 u1364 u1370 u1376 u1382 u1388 u1394 u1400 u1406 u1412 u1418 u1424 u1430 u1436 u1442 u1448 u1454 u1460 u1466 u1472 u1478 u1484 u1490 u1496 u1502 u1508 u1514 u1520 u1526 u1532 u1538 u1544 u1550 u1556 u1562 u1568 u1574 u1580 u1586 u1592 1215 1221 u1221 1227 u1227 1233 u1233 1239 u1239 1245 u1245 1251 u1251 1257 u1257 1263 u1263 1269 u1269 1275 u1275 1291 u1281 1297 u1287 1293 u12
34. 16 reserved 35 reserved 17 reserved 36 reserved 18 reserved 37 reserved 19 reserved 20 November 2009 Version 1 02 2 3 Power Connector Pin Assignment DSUB37 8 female Pin Signal Comment Channel 0 3 1 0 Channel 0 positive Output 2 U0 Channel 0 negative Output 3 U1 Channel 1 positive Output 4 U1 Channel 1 negative Output 5 U2 Channel 2 positive Output 6 U2 Channel 2 negative Output 7 U3 Channel 3 positive Output 8 U3 Channel 3 negative Output DSUB37 8 female Pin Signal Comment Channel 4 7 1 U4 Channel 4 positive Output 2 U4 Channel 4 negative Output 3 U5 Channel 5 positive Output 4 U5 Channel 5 negative Output 5 U6 Channel 6 positive Output 6 U6 Channel 6 negative Output 7 U7 Channel 7 positive Output 8 U7 Channel 7 negative Output Matching cable plug e g Erni TMC P 8W8 male unloaded connector 103448 pins http www erni com DB PDF TMC ERNI D SubHighPower0101 e pdf 20 November 2009 7 Version 1 02 3 HV Modules MPOD high voltage modules are manufactured by ISEG For technical details please refer to the ISEG manuals and data sheets of the EHO EHS and EDS multi channel high voltage modules General features are High Voltage modules with 4 8 16 or 32 individually controlled channels Maximum voltage range from 500V up to 6 kV Extremely low noise
35. 192 168 16 222 outputStatus u100 0408 outputFailureMaxCurrent outputRampDown snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 04 08 outputFailureMaxCurrent outputRampDown 20 November 2009 32 Version 1 02 10 WIENER SNMP Parameter structure Il GENERATED WITH l snmptranslate w 120 Tp WIENER CRATE MIB crate gt SnmpTree txt ll crate 1 system 1 RW EnumVal sysMainSwitch 1 Values off 0 on 1 R BitString sysStatus 2 Values mainOn 0 mainInhibit 1 localControlOnly 2 inputFailure 3 outputFailure 4 fantrayFailure 5 sensorFailure 6 vmeSysfail 7 plugAndPlaylncompatible 8 RW EnumVal sysVmeSysReset 3 Values trigger 1 RW Integer32 sysDebugMemory8 1024 Range 0 255 RW Integer32 sysDebugMemory16 1025 Range 0 65535 RW Integer32 sysDebugMemory32 1026 Range 214 483648 2147483647 input 2 output 3 R Integer32 outputNumber 1 Range 0 1999 outputTable 2 outputEntry 1 Index outputlndex EnumVal outputlndex 1 Values u0 1 u1 2 u2 3 u12 13 u13 u22 23 u23 u32 33 u33 u42 43 u43 u52 53 u53 63 73 83 4 u4 5 us 6 u16 U26 U36 U46 6 6 6 6 6 u56 6 6 6 6 6 7 u u17 8 u U1 U28 U38 U48 8 9 u9 10 u10 11 u11 12 8 U58 8 8 8 u20 21
36. 500uA 32 3kV 500uA Channels V max I max 16 500V lmA 16 500V lmA 8 3kV 500uA 16 3kV 500uA V res 1mV 0 5mV 1mV 0 5mV V res 10mV 60mV 60mV 10mV 60mV 60mV V res 20mV 20mV 50mV 50mV I res SnA 15nA SnA 15nA I res 10 10 Is NO IOS IL 105 10 Lmax 10 10 Imax 10 10 Is 10 10 Imax I res 10 105 Lmax 10 10 Is 10 105 Lmax 10 105 Imax Ripple lt 100 mV lt 50mV lt 50 mV lt 5mV lt 5mV lt 5mV lt 5 mV lt 5mV lt 50mV lt 5mV lt 5 mV lt 5mV lt 5mV lt 5mV Ripple lt 50mV lt 10mV lt 10mV lt 10mV lt 10mV lt 10mV lt 50mV lt 10mV lt 10mV lt 10mV lt 10mV lt 10mV Ripple lt 5mV 5mV 5mV 5mV Ripple lt 10mV lt 10mV lt 10mV lt 10mV lt 10mV lt 10mV Ripple lt 10mV lt 10mV lt 10mV lt 10mV Version 1 02 4 Mpod Controller The Mpod controller which is plugged into the first half slot of the crate controls the primary power supply as well as all inserted LV and HV modules Further it connects these to remote controlling interfaces services in an unigue way Mpod Controller features TCP IP 10M 100M port auto ranging Built in HTTP server TCP IP protocol with SNMP v 2c for full control of all module parameters 2 CAN Bus ports wired in parallel for daisy chaining USB 2 interface 3 status LED s Interlock connector Status LED s USB 2 port Ethernet port 2 CANbus ports
37. 59 1565 1571 1577 1583 1589 1595 u1217 u1223 u1229 u1235 u1241 u1247 U1253 u1259 u1265 u1271 u1277 u1283 u1289 u1295 u1301 u1307 u1313 u1319 u1325 u1331 u1337 u1343 u1349 u1355 1361 U1367 u1373 u1379 u1385 1391 U1397 u1403 U1409 u1415 u1421 U1427 ul433 u1439 1445 U1451 U1457 U1463 U1469 U1475 U1481 U1487 u1493 u1499 1505 u1511 U1517 u1523 U1529 u1535 u1541 u1547 u1553 u1559 u1565 u1571 u1577 u1583 u1589 u1595 1218 1224 1230 1236 1242 1248 1254 1260 1266 1272 1278 1284 1290 1296 1302 1308 1314 1320 1326 1332 1338 1344 1350 1356 1362 1368 1374 1380 1386 1392 1398 1404 1410 1416 1422 1428 1434 1440 1446 1452 1458 1464 1470 1476 1482 1488 1494 1500 1506 1512 1518 1524 1530 1536 1542 1548 1554 1560 1566 1572 1578 1584 1590 1596 u1218 u1224 u1230 u1236 U1242 u1248 u1254 u1260 u1266 u1272 u1278 u1284 u1290 u1296 u1302 u1308 u1314 u1320 u1326 u1332 u1338 u1344 u1350 u1356 u1362 u1368 u1374 u1380 u1386 u1392 u1398 u1404 u1410 u1416 U1422 u1428 u1434 u1440 u1446 u1452 u1458 u1464 u1470 u1476 u1482 u1488 u1494 u1500 u1506 u1512 u1518 u1524 u1530 u1536 u1542 u1548 u1554
38. 6 u1076 1077 u1077 1078 u1078 1079 u1079 1080 u1080 1081 u1081 1082 u1082 1083 u1083 1084 u1084 1085 u1085 1086 u1086 1087 u1087 1088 u1088 1089 u1089 1090 u1090 1091 u1091 1092 u1092 1093 u1093 1094 u1094 1095 u1095 1096 u1096 1097 u1097 1098 u1098 1099 u1099 1100 u1100 1101 u1101 1102 u1102 1103 u1103 1104 u1104 1105 u1105 1106 u1106 1107 u1107 1108 u1108 1109 u1109 1110 u1110 1111 u1111 1112 u1112 1113 u1113 1114 u1114 1115 u1115 1116 u1116 1117 u1117 1118 u1118 1119 1124 u1124 1125 1130 u1130 1191 1136 u1136 1137 1142 u1142 1143 1148 u1148 1149 1194 u1154 1155 1160 u1160 1161 1166 u1166 1167 1172 u1172 1173 1178 u1178 1179 1184 u1184 1185 1190 u1190 1191 1196 u1196 1197 1202 1208 1214 1119 u1119 1125 u1125 1131 u1131 1137 u1137 1143 u1143 1149 u1149 1155 1161 1120 u1120 1121 1126 u1126 1127 1132 u1132 1133 1138 u1138 1139 1144 u1144 1145 1150 u1150 1151 1156 u1156 1157 1162 u1162 1163 1168 u1168 1169 1174 u1174 1175 1180 u1180 1181 1186 u1186 1187 1192 u1192 1193 1198 u1198 1199 u1202 1203 u1203 1204 u1204 1205 u1205 1206 u1206 1207 u1207 1208 u1208 1209 u1209 1210 u1210 1211 u1211 1212 u1212
39. 68 2 25 outputVoltage 001 WIENER CRATE MIB outputVoltage u0 Opague Float 0 000000 V Write and read individual set voltages guru access needed to write snmpset v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputVoltage 101 F 200 WIENER CRATE MIB outputVoltage 101 Opaque Float 200 000000 V Note the F before the 200 this indicates that the value is a floating point number This value can be read back via snmpget v 2c m WIENER CRATE MIB c public 192 168 2 25 outputVoltage 101 WIENER CRATE MIB outputVoltage 101 Opaque Float 200 000000 V Turning Channels ON OFF The individual channels of an MPOD system low or high voltage module can be turned on or off using the snmpset command To turn on channel Ux snmpset Oqv v 2c M path m WIENER CRATE MIB c guru ip outputSwitch index i 1 The same channel can be turned off with 20 November 2009 18 Version 1 02 5 4 snmpset Oqv v 2c M path m WIENER CRATE MIB c guru ip outputSwitch index i 0 Example snmpset v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSwitch 001 i 1 MPOD low and high voltage modules have programmable voltage ramp speeds The WIENER low voltage modules allow different ramp up and down values for each channel whereas for ISEG modules with common ramp the channel ID can be any channel of the module For write access guru is needed snmpset Oqv v 2c M path m WIENER CRATE MIB c guru ip outputVoltageRis
40. 849 u1855 u1861 u1867 u1873 u1879 u1885 u1891 u1897 u1903 u1909 u1915 u1921 u1927 u1933 u1939 u1945 u1951 u1957 u1963 u1969 u1975 u1981 1604 1610 1616 1622 1628 1634 1640 1646 1652 1658 1664 1670 1676 1682 1688 1694 1700 1706 1712 1718 1724 1730 1736 1742 1748 1754 1760 1766 1772 1778 1784 1790 1791 u1791 1796 1797 u1797 1803 u1803 1809 u1809 1815 u1815 1821 u1821 1827 u1827 1833 u1833 1839 u1839 1845 u1845 1851 u1851 1857 u1857 1863 u1863 1869 u1869 1875 1881 1887 1792 u1792 1798 u1798 1804 u1804 1810 u1810 1816 u1816 1822 u1822 1828 u1828 1834 u1834 1840 u1840 1846 u1846 1852 u1852 1858 u1858 1864 u1864 1870 u1870 1876 u1876 1882 u1882 1888 u1888 1894 u1894 1900 u1900 1906 u1906 1912 u1912 1918 u1918 1924 u1924 1930 u1930 1936 u1936 1942 u1942 1948 u1948 1954 u1954 1960 u1960 1966 u1966 1972 u1972 1978 u1978 u1799 1800 u1805 1806 u1811 1812 U1817 1818 u1823 1824 U1829 1830 u1835 1836 u1841 1842 u1847 1848 u1853 1854 U1859 1860 u1865 1866 u1871 1872 u1877 1878 u1883 1884 u1889 1890 u1895 1896 u1901 1902 u1907 1908
41. 93 1299 u1299 1305 u1305 1311 u1311 1317 u1317 1323 u1323 1329 u1329 1335 u1335 1341 u1341 1347 u1347 1353 u1353 1359 u1359 1365 u1365 1371 u1371 1377 u1377 1383 u1383 1389 u1389 1395 u1395 u1215 1401 u1401 1216 1222 1228 1234 1240 1246 1252 1259 1264 1270 1276 1282 1288 1294 1300 1306 1312 1318 1324 1330 1336 1342 1348 1354 1360 1366 1372 1378 1384 U1216 U1222 U1228 u1234 U1240 U1246 U1252 u1258 U1264 U1270 U1276 U1282 u1288 u1294 u1300 u1306 u1312 u1318 u1324 u1330 u1336 u1342 u1348 u1354 u1360 u1366 u1372 u1378 u1384 1390 u1390 1396 u1396 1217 1402 u1402 1223 1229 1235 1241 1247 1253 1259 1265 1271 1277 1283 1289 1295 1301 1307 1313 1319 1325 1331 1337 1343 1349 1355 1361 1367 1373 1379 1385 1391 1397 1403 1409 1415 1421 1427 1433 1439 1445 1451 1457 1463 1469 1475 1481 1487 1493 1499 1505 1511 1517 1523 1529 1535 1541 1547 1553 15
42. 996 EN 61 000 4 4 1995 EN 61 000 4 5 1995 EN 61 000 4 11 1994 EN 61 000 4 2 1995 Conditions Corr 2001 A1 2000 KI B Corr 2001 A1 2000 KI B FCorr 1997 A 1 2001 A1 2001 A1 1998 A2 2001 A1 2001 A1 2001 A1 2000 A1 1998 A2 2001 Niederspannungsrichtlinie low voltage directive St raussendung EMA RF emission St rspannung conducted noise St rfeldst rke radiated noise Oberschwingungen harmonics Spannungsschwankungen flicker St rfestigkeit EMB immunity HF Einstr mung injected HF currents HF Felder radiated HF fields incl 900MHz Burst Surge Spannungs Variationen voltage variations ESD conformity of the definition Name and signature of authorized person Manfred Plein Techn Director April 2008 20 November 2009 This unit is not a final product and is foreseen for use inside a closed cabinet The supplying of loads over long distances gt 3m needs possibly additional RF rejection hardware to get in Place and Date iv Contents Declaration of COnfOrmity 2m222220222200002200000000200020020000202000000000000020000000000000020000022000002 iv 1 General Information N AR RE 1 1 1 Mp d Feat res 5 iws Fn YR DEU ee 1 1 2 Mpod Crate standard types sscccscssscssssssccsscsecsccscessscccsesssescsssccssessscessessssssoees 2 13 Mpod AAA cuveocdanaietancasecriraneca 3 ZEV Modules
43. ENER CRATE MIB This parameter tells the command to look at the WIENER CRATE MIB to resolve the OID name c public This specifies which community of values can be accessed ip This should be replaced with the IP address of the MPOD crate sysMainSwitch 0 This is the register you wish to retrieve Since we we know from the call above that the crate is off we may want to turn it on Software power cycling is only possible of the green mains switch on the MPOD is ON this is to prevent a remote user to override a local user and adds a level of safety to the unit To turn MPOD on we can use the command 20 November 2009 17 Version 1 02 snmpset v 2c path m WIENER CRATE MIB c public Sip sysMainSwitch 0 i 1 Most of the parameters for snmpset are the same as snmpget the new parameters are highlighted below i Since sysMainSwitch 0 is an integer value we specify the value to be an integer with 1 This is the value we wish to write In this case we write one to set the main switch to on For most of the write commands snmpset the access type has to be changed from public to guru A complete list of value names that can be written or read via SNMP can be found in the WIENER CRATE MIB but commonly needed values are For example to read channel set voltage use snmpget Oqv v 2c M path m WIENER CRATE MIB c guru ip outputVoltage index Example snmpget v 2c m WIENER CRATE MIB c public 192 1
44. ER CRATE MIB c guru 192 168 2 25 outputStatus u100 80 outputOn snmpgetx Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputMeasurementCurrent u100 0 000000735 A snmpsetx Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputCurrent u100 F 0 0000007 0 000000700 A snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputStatus u100 04 08 outputFailureMaxCurrent outputRampDown snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputStatus u100 04 outputFailureMaxCurrent snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSwitch u100 i 10 clearEvents snmpsetx Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputCurrent u100 F 0 00001 0 000010000 A snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputSwitch u100 i 1 On snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputStatus u100 80 10 outputOn outputRampUp a load has been switched on channel 0 to bring them in state CC current limited snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputStatus u100 80 20 outputOn outputCurrentLimited snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputStatus u100 80 20 outputOn outputCurrentLimited the delayed trip fuction ramps the voltage afler 3 seconds to zero snmpget Oqv v 2c m WIENER CRATE MIB c guru 192 168 2 25 outputStatus u100 04 08 outputFai
45. FallRate OctetString crate 1 3 6 1 4 1 19947 1 WIENER CRATE MIB 0000000 TA EEE 5 6 A BASH Simple Script for SNMP All of the commands above could be combined into scripts to set and monitor a predefined set of channels For example a Bash script to read all channels and set the voltages and current limit to the same value for each channel could look like bin bash Simple Bash Script that will read and set all channels in a MPOD crate ip 192 168 2 25 path usr share snmp mibs setVoltage 5 setCurrent 100 setStatus 1 20 November 2009 24 Version 1 02 setRamp 100 channelCount snmpget Oqv v 2c M path m WIENER CRATE MIB c guru ip outputNumber 0 indices snmpwalk Oqv v 2c M path m WIENER CRATE MIB c guru ip outputlndex x echo indices tr COUNTER 0 while SCOUNTER It channelCount do index echo x COUNTER voltage snmpset OgvU v 2c M path m WIENER CRATE MIB c guru ip outputVoltage index F setVoltage iLimit snmpset OgvU v 2c M path m WIENER CRATE MIB c guru ip outputCurrent index F setCurrent rampspeed snmpset OqvU v 2c M path m WIENER CRATE MIB c guru ip outputVoltageRiseRate index F setRamp status snmpset OqvU v 2c M path m WIENER CRATE MIB c guru ip outputSwitch index i setStatus voltage snmpget OgvU v 2c M path m WIENER CRATE MIB c guru ip outputVoltage
46. Interlock connector 20 November 2009 10 Version 1 02 Ethernet port standard NIC pin layout RIKS _ Pin Signal Comment _ mi RA RE o o o y i SI sa 20 November 2009 1 Version 1 02 5_ Remote Control Software 5 1 Software Setup for Microsoft Windows Before the Mpod Controller can be used it has to be configured according to the network environment This is done by the MUSEcontrol utility which allows access to the USB port of the Mpod Controller with a computer running 32 bit Windows XP or VISTA The software is free available on the download area at www wiener d com Run the MUSEControl msi Program to install all drivers and the USB program itself It is recommended to define a short path for the driver location during installation Connecting the MPOD Controller via USB it should be automatically detected and the Silicon Labs USB drivers SiLib sys and SiUSBXp sys loaded Found New Hardware Wizard Please wait while the wizard installs the software RS Re MPOD Power Supply E Setting a system restore point and backing up old files in case your system needs to be restored in the future Starting the program the main window gives a quick overview of the Mpod and its connected LV Modules File Switch SelectOutput DYM OutputConfiguration OutputCalibration 5123 Stop Help Us Usense 3 000V Umodule Status Usense 3 999V Umodule Status Usense 5 001Y Umodule St
47. RATE MIB outputVoltage 207 Opaque Float 0 000000 V WIENER CRATE MIB outputVoltage 208 Opaque Float 0 000000 V After obtaining information about the power supplies or a list of channels and parameters it is useful to be able to write or read information about it This can be done using the snmpget and snmpset commands snmpget Oqv v 2c M path m WIENER CRATE MIB c guru ip name index snmpset v 2c M path m WIENER CRATE MIB c guru ip name index format value The most common kind of call you will want is to get data from the power supply This is easily done via the sumpget command The example below retrieves information about whether the main power for the crate is on If you wish to test this example on your own system replace path with the path to WIENER CRATE MIB txt usr share snmp mibs by default and Sip with the ip address of your MPOD see following examples snmpget v 2c M path m WIENER CRATE MIB c public ip sysMainSwitch 0 WIENER CRATE MIB sysMainSwitch 0 INTEGER OFF 0 This indicates that the MPOD crate is currently off To better understand the call above we will break it down by parameter snmpget This command will retrieve a value about the MPOD crate or one of the channels it houses v 2c This parameters specifies which version of the SNMP to use WIENER devices use SNMP 2C M path This parameter should be replaced with the path to the WIENER CRATE MIB txt file m WI
48. Temperature 8 Values ok 128 failure 127 RW EnumVal outputSwitch 9 Values Off 0 On 1 resetEmergencyOff 2 setEmergencyOff 3 clearEvents 10 RW Opaque outputVoltage 10 Textual Convention Float Size 7 RW Integer32 outputAdjustVoltage 11 Range 128 127 RW Opaque outputCurrent 12 Textual Convention Float Size 7 RW Opaque outputVoltageRiseRate 13 Textual Convention Float Size 7 RW Opaque outputVoltageFallRate 14 Textual Convention Float Size 7 RW Integer32 outputSupervisionBehavior 15 Range 0 65535 RW Opaque outputSupervisionMinSenseVoltage 16 Textual Convention Float Size 7 RW Opaque outputSupervisionMaxSenseVoltage 17 Textual Convention Float Size 7 RW Opaque outputSupervisionMaxTerminalVoltage 18 Textual Convention Float Size 7 RW Opaque outputSupervisionMaxCurrent 19 Textual Convention Float Size 7 RW Opaque outputConfigMaxSenseVoltage 21 Textual Convention Float Size 7 RW Opaque outputConfigMaxTerminalVoltage 22 Textual Convention Float Size 7 RW Opaque outputConfigMaxCurrent 23 Textual Convention Float Size 7 20 November 2009 38 Version 1 02 RW Opaque outputSupervisionMaxPower 24 Textual Convention Float Size 7 RW Opaque outputCurrentRiseRate 25 Textual Convention Float Size 7 RW
49. U of Set Ramp Down wal Set Ramp Up V s j Example for LabView VI for 4 channel low voltage module 13 SNMP MPOD PHENIX 1 vi Ely Elle Edit View Project Operate Tools Window Help _ mE gt s m EI Ramp A 100 y common 1 dj 100 Example for LabView VI for 8 channel high voltage module 5 9 C programming NetSNMP Using NetSNMP C programs can be easily written for monitoring and control of Mpod low high voltage modules For Windows all needed functions are provided by a dynamically loadable library 20 November 2009 27 Version 1 02 6 Mpod Crate 7 Primary Power Supply 7 1 Powered chassis for multi channel low and high voltage modules Construction Features Accessories 8 or OU x 19 crate Slots Dimensions w h d Weight max 10 modules up to3 kW output power 3 6kW input power 10 4 MPOD controller 434 mm x 132 mm x 325 mm 31 5 kg The power supply provides all necessary supply voltages for the LV and HV Modules It is connected to the mains World wide input 100 240V AC 50 60 Hz e World wide input 100 240V AC 50 60 Hz single phase e Sinusoidal current input up to 16A depending on the used modules Power Box Data Sheet 3U box with max 6 power modules Mains Input Rated Input Voltage Rated Input Current Sinusoidal Inrush current Input protection RF rejection Output protection
50. U104 U105 U106 U107 U200 U201 U202 U203 U204 U205 U206 U207 This example returns 16 index numbers Please note the following geographic module and channel number coding for the SNMP call indexes where the first digit is defined by the slot number and the following two by the channel of the particular module in this slot Slot Channel Name index 1 0 to 98 Uxx 001 to 099 2 0 to 98 Ulxx 101 to 199 10 0 to 98 U9xx 901 to 999 In case of multi crate system there will be an additional digit for the crate number Name 1000 crate 100 slot channel index 1000 crate 100 slot channel crate 0 9 slot 0 9 channel 0 99 To see all Output channel set voltage values use snmpwalk with outputVoltage 20 November 2009 16 Version 1 02 snmpwalk Cp Oqv v 2c M path m WIENER CRATE MIB c public Sip outputVoltage Example snmpwalk v 2c m WIENER CRATE MIB c public 192 168 2 25 outputVoltage returns for a MPOD system with one 8 channel ISEG EHS HV module in slot 3 WIENER CRATE MIB outputVoltage 201 Opague Float 0 000000 V WIENER CRATE MIB outputVoltage 202 Opaque Float 0 000000 V WIENER CRATE MIB outputVoltage 203 Opaque Float 0 000000 V WIENER CRATE MIB outputVoltage 204 Opaque Float 0 000000 V WIENER CRATE MIB outputVoltage 205 Opaque Float 0 000000 V WIENER CRATE MIB outputVoltage 206 Opaque Float 0 000000 V WIENER C
51. Voltage 320 RW F rH m m 7 nin sensorNumber 3 3 3 sensorNumber sensorTemperature sensorWarningThreshold 1 sensorFailureThreshold 1 snmpCommunityName psFirmwareVersion psSerialNumber psOperatingTime psDirectAccess fanFirmwareVersion fanSerialNumber fanOperatingTime fanAirTemperature fanSwicthOffDela fanNominalSpeed fanNumberOfFans fanSpeed see SNMP tree structure at end of manual for full structure outputSupervisionMaxCurrent 32 32 32 320 32 32 32 N 0 0 0 0 0 0 1 2 2 4 str str str string string string 20 November 2009 26 Version 1 02 5 8 LabView Control Program NETSNMP All LabView MPOD function VI s are using SNMP calls from the WIENER SNMP Basic dll This DLL reguires NETSNMP and the WIENER CRATE MIB txt file as described above The LabView Control program VI s SNMP MPOD xxx vi allow controlling both low and high voltage channels for small configurations of a few Mpod modules The program can run in parallel to web monitoring Please run SNMP MPOD xxx vi with either LabView 8 0 8 2 or 8 5 SNMP MPOD PHENIX 1 vi Ja Ele Edit View Project Operate Tools Window Help E PEON Nominal Voltage on off Current n Channel 000 d 4 wate Channel 001 d d Channel 002 E d Channel 003 n 4 EIE gt Ramp D 0 VRamp
52. arguments specified in this document are based on netSNMP The command line syntax is the same for both windows and Linux and probably MAC OSX A first communication with the Mpod crate can be done using the snmpwalk to confirm the existence of the power supply at the given IP address snmpwalk Cp Ogv v 2c M path m WIENER CRATE MIB c public Sip with snmpwalk This command will retrieve a block of information v 2c This parameters specifies which version of the SNMP to use WIENER devices use SNMP 2C M path This parameter should be replaced with the path to the WIENER CRATE MIB txt file It is not needed in case the default path is used m WIENER CRATE MIB This parameter tells the command to look at the WIENER CRATE MIB to resolve the OID name c public This specifies which community of values can be accessed ip This should be replaced with the IP address of the MPOD crate Example for crate with IP address 192 168 2 25 snmpwalk v 2c m WIENER CRATE MIB c public 192 168 2 25 returns SNMPv2 MIB sysDescr 0 STRING WIENER MPOD 4193086 MPOD 1 1 1 6 MPODslave 1 06 SNMPv2 MIB sysObjectID 0 OID WIENER CRATE MIB sysMainSwitch 0 SNMPv2 MIB sysUpTime 0 Timeticks 13401 0 02 14 01 SNMPv2 MIB sysContact 0 STRING SNMP v2 MIB sysName 0 STRING SNMP v2 MIB sysLocation 0 STRING SNMP v2 MIB sysServices 0 INTEGER 79 20 November 2009 15 Version 1 02 A list of all available
53. atus Usense 5 999 Umodule Status In case no low voltage modules are located in the crate an error message No module found will pop up which should be ignored To prepare the MPOD controller select System Configuration which starts the network configuration dialog as shown below Here you enter the TCP IP network settings IP address subnet mask and default gateway You have to use the parameters of your local network here Please contact your network administrator for details 20 November 2009 12 Version 1 02 HTTP and SNMP port numbers should only modified if you know what you NS do Setting any ports to 0 disables the Bang server Subnet Mask 855 The First LV Slot item is an Default Gateway 192 168 9 intermediate solution to define the slot number of the first LV module Any HV module plugged into this slot will not be detected This setting is necessary because the LV modules do iv Ethemet Auto Negotiation Enabled not use geographic addressing to detect WN their slot number automatically in the moment HTTP Port Number SNMP Port Number 161 MAC Address hex 0051 5220 560 Igno First LV Slot fo p E Another essential menu item is the j si TT Channels Switch On with Main Switch System FirmwareUpdate which starts the firmware update procedures Low Voltage channels can be completely programmed and monitor within the MUSE application You can switch o
54. c 192 168 16 222 outputVoltage u100 60 000000 V snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputMeasurementSenseVoltage u100 60 104588 V snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputMeasurementSenseVoltage u100 60 104713 V snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputMeasurementCurrent u100 0 000001 A snmpgetx Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputMeasurementCurrent u100 0 000000735 A snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputSupervisionBehavior u100 0 snmpset Ogv v 2c m HVIENER CRATE MIB c guru 192 168 16 222 outputSupervisionBehavior u100 i 64 64 snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputSupervisionBehavior u100 64 snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputTripTimeMaxCurrent u100 0 ms snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 16 222 outputTripTimeMaxCurrent u100 i 3000 3000 ms delay of 3 sconds snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 80 outputOn snmpgetx Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputMeasurementCurrent u100 0 000000735 A snmpsetx Ogv v 2c m WIENER CRATE MIB c guru 192 168 16 222 outputCurrent u100 F 0 0000007 0 000000700 A snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 04 08 outputFai
55. e write value is On and if no other signals mainInhibit outputInhibit outputEmergencyOff or outputFailureMaxCurrent are active then the channel will switch on If the write value is resetEmergencyOff then the channel will leave the state EmergencyOff A write of clearEvents is necessary before the voltage can ramp up again If the write value is setEmergencyOff then the channel will have the state EmergencyOff which means that the High Voltage will switch off without a ramp and reset of the outputVoltage to null volt If the write value is clearEvents then all failure messages of the outputStatus will be reset all channel events all module events and the state EmergencyOff Item Type Access Switch functions groupsSwitch integer write Off 0 On 1 resetEmergencyOff 2 setEmergencyOff 3 disableKill 4 enableKill 5 clearEvents 10 DESCRIPTION Read This function is not defined with groups of output channels Write Switch the state of all channels of a group If any channel is On and the write value is Off then all channels will switch off If any channel is Off and the write value is On and if no other signals mainInhibit outputInhibit outputEmergencyOff or outputFailureMaxCurrent are active then all channels will switch on If the write value is resetEmergencyOff then all channels will leave the state EmergencyOff A write of clearEvents is necessary before the voltage can ramp up again If the write
56. eRate index F value Example snmpset v 2c mn WIENER CRATE MIB c guru 192 168 2 25 outputVoltageRiseRate 101 MU O as 01 Opaque Float 10 000000 V s snmpget v 2c m WIENER CRATE MIB c public 192 166 2 25 outputVoltageRiseRate 101 WIENER CRATE MIB outputVoltageRiseRate 101 Opaque Float 10 000000 V s ISEG High voltage module special commands Item Type Access Unit Range outputCurrentRiseRate float value read write A s 2 100 nom Val outputCurrentFallRate float value read write A s 2 100 nom Val outputTripTimeMaxCurrent integer read write ms 16 4000 ms DESCRIPTION The outputTripTimeMaxCurrent defines a span for the time out function The activity is depending from the programmed bit field outputFailureMaxCurrent of the item outputSupervisionBehavior A write value of 0 is switching off the delayed trip function which was defined in the bit field outputFailureMaxCurrent of outputSupervisionBehavior before Item Type Access Status bits Switch functions outputStatus bits read outputEnableKill 13 outputEmergencyOff 14 outputSwitch integer read write Off 0 On 1 resetEmergencyOff 2 setEmergencyOff 3 clearEvents 10 DESCRIPTION Read An enumerated value which shows the current state of the output channel Write Change the state of the channel 20 November 2009 19 Version 1 02 If the channel is On and the write value is Off then the channel will switch off If the channel is Off and th
57. h a web browser pointing to the IP address as URL it is possible to get an overview of all channels in a simple way Datei Bearbeiten Ansicht Chronik Lesezeichen Extras Hilfe MPOD W IE NE R Global Status Mainframe Status Output Channels Measured A Measured Measured Channel Voltage Curent E y Terminal Status Sense Voltage Curent E Voltage 20 November 2009 14 Version 1 02 5 3 NetSNMP NetSNMP is an open source SNMP program vvhich can be used to access the Mpod controller via the Simple Network Management Protocol Please see http net snmp sourceforge net for more details Please install netSNMP from the CD ROM or downloaded from WIENER support web site on the control computer In order to perform SNMP calls from any WIENER product the WIENER CRATE MIB file must be stored somewhere on the PC doing the calls by default that location should be usr share snmp mibs Windows C usr share snmp mibs The most commonly used net snmp calls are snmpwalk returns groups of parameters items snmpget returns a specific parameter read snmpset sets a specific parameter write Please see the Net snmp description and help files for detailed instructions and options All parameters defined for the WIENER Mpod system as well as crates and other power supplies are contained within the WIENER CRATE MIB txt file A fast an easy way to begin using SNMP is to use command line arguments The command line
58. lureMaxCurrent outputRampDown 20 November 2009 23 Version 1 02 5 5 MIB Browser There are several commercial or open source MIB Browser programs available which can be used for SNM communication These provide often a simple GUI and allow SNMP calls Following is a list of some free or open source MIB browsers http www ireasoning com mibbrowser shtml http www serverscheck com mib browser http www mibble org http www ks soft net hostmon eng mibbrowser index htm http www tembria com products snmpbrowser index html H E system e input output Lf outputNumber EJ outputTable outputEntry a outputIndex f outputName gt outputGroup outputStatus outputMeasurementSenseVoltage SP outputMeasurementTerminalVoltage outputMeasurementCurrent outputMeasurementTemperature De outputSwitch gt outputVoltage FEE 9 outputAdjustVoltage _ outputCurrent Es outputVoltageRiseRate z OctetString outputVoltageFallRate r i OctetString outputSupervisionBehavior y OctetString fl outputSupervisionMinSenseVoltage T OctetString outputSupervisionMaxSenseVoltage 8 OctetString f outputSupervisionMaxTerminalVoltage i OctetString outputSupervisionMaxCurrent p 2 OctetString outputConfigMaxSenseVoltage OctetString outputConfigMaxTerminalVoltage fl outputConfigMaxCurrent outputSupervisionMaxPower f outputCurrentRiseRate outputCurrent
59. lureMaxCurrent outputRampDown 20 November 2009 31 Version 1 02 snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 04 F outputFailureMaxCurrent snmpset Ogv v 2c m WIENER CRATE MIB c guru 192 168 16 222 outputSwitch u100 i 10 clearEvents snmpsetx Ogv v 2c m WIENER CRATE MIB c guru 192 168 16 222 outputCurrent u100 F 0 00001 0 000010000 A snmpset Ogv v 2c m HVIENER CRATE MIB c guru 192 168 16 222 outputSwitch u100 i 1 On snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 80 10 outputOn outputRampUp a load has been switched on channel 0 to bring them in state CC current limited snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 80 20 outputOn outputCurrentLimited snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 80 20 outputOn outputCurrentLimited snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 80 20 outputOn outputCurrentLimited snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 80 20 outputOn outputCurrentLimited snmpget Ogv v 2c m WIENER CRATE MIB c public 192 168 16 222 outputStatus u100 8020 outputOn outputCurrentLimited the delayed trip fuction pamps the voltage after 3 seconds to zero snmpget Ogv v 2c m WIENER CRATE MIB c public
60. n or off any channel by clicking at the line of the channel If you click with the right mouse button the OutputConfiguration dialog is entered The dialog is divided into five main sections e Measurement Shows the actual measured sense voltage terminal voltage at the module en EES gt terminals current the Sense Voltage V 3 993 Power of the Load W 00 id Terminal Voltage 4 4 219 Power of the Module w 0 0 calculated power and the p 0 004 Holder Tempera PCI PI most critical module temperature r Nominal Values E Control amp Status e Control amp Status Sense Voltage VI 4 000 T Here the channel can be Current Limit A switched on and off If the Ramp Up V s channel has switched off Ramp Down V s because of any failure the Neflam at Sn DF Moderate Regulation Cable length gt 1m reason IS disp layed here Slow Regulation Cable length gt 50m too reserved ON e Nominal Values Here the nominal output d voltage sense voltage min Sense Voltage V i Switch this channel off gt current limit and ramping max Sense Voltage V i speeds are entered The No max Terminal Voltage V 8 081 Switch this channel off Ramp at Switch Off check mat Curent A box forces immediate switch off The regulation mode can be optimized for different cable lengths slow Identification regulation requests both Group Number check boxes to be checked e Super
61. parameters or sub parameters as for instance channels can be obtained using the command snmpwalk with the paramtere crate To get all parameters use snmpwalk Cp Ogv v 2c M path m WIENER CRATE MIB c public Sip crate example snmpwalk v 2c m WIENER CRATE MIB c public 192 168 2 25 crate Further it is possible obtain the array of names or values for a specific parameter The following command provides a list of all existing output channels snmpwalk Cp Ogv v 2c M path m WIENER CRATE MIB c public Sip outputName Example snmpwalk v 2c m WIENER CRATE MIB c public 192 168 2 25 outputName returns for MPOD system with 2 ISEG EHS HV modules 8 channels each in slot 2 and 3 WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB WIENER CRATE MIB outputName 101 STRING outputName 102 STRING outputName 103 STRING outputName 104 STRING outputName 105 STRING outputName 106 STRING outputName 107 STRING outputName 108 STRING outputName 201 STRING outputName 202 STRING outputName 203 STRING outputName 204 STRING outputName 205 STRING outputName 206 STRING outputName 207 STRING outputName 208 STRING U100 U101 U102 U103
62. re Bit 10 11 outputFailureMaxPower Bit 12 13 outputFailureInhibit Bit 14 15 outputFailureTimeout The iseg HV devices can use the bit fields outputFailureMaxCurrent support of the function delayed trip The programmed activity will start when the actual current exceeded permanently the value of the item outputCurrent over the span of the programmed time out set via the item outputTripTimeMaxCurrent outputFailureInhibit support of the optional hardware function EXTERNAL INHIBIT per channel The programmed activity will start when an external channel inhibit occurs The channel state have to be in disableKill for a proper work of the configuration of the behaviour for the functions above Settings for outputSupervisionBehavior outputFailureMaxCurrent outputFailurelnhibit outputFailurelnhibit switch off this channel by ramp down 64 4096 the voltage switch off this channel by set a internal 128 8192 EmergencyOff switch off the whole board of the HV 192 12288 module by set EmergencyOff Attention In order to use delayed software trips please make sure to have a firmware on the ISEG high voltage mdoules which supports this feature Please see the following table of supported firmware releases In case of older firmware the software trip will not act i e the error will be detected but no action ram down of channel will happen 20 November 2009 21 Version 1 02 firmware Vmax from Vo max t0 Vo max EV i
63. u1767 1773 u1773 1779 u1779 u1599 1785 u1785 u1605 1600 1606 1612 1618 1624 1630 1636 1642 1648 1654 1660 1666 1672 1678 1684 1690 1696 1702 1708 1714 1720 1726 1732 1738 1744 1750 1756 1762 1768 u1600 u1606 U1612 u1618 U1624 U1630 u1636 U1642 U1648 U1654 U1660 U1666 U1672 U1678 U1684 u1690 u1696 u1702 U1708 u1714 U1720 U1726 u1732 U1738 u1744 U1750 U1756 u1762 u1768 1774 u1774 1780 u1780 1601 1786 u1786 1607 1613 1619 1625 1631 1637 1643 1649 1655 1661 1667 1673 1679 1685 1691 1697 1703 1709 1715 1721 1727 1733 1739 1745 1751 1757 1763 1769 1775 1781 1787 1793 1799 1805 1811 1817 1823 1829 1835 1841 1847 1853 1859 1865 1871 1877 1883 1889 1895 1901 1907 1913 1919 1925 1931 1937 1943 1949 1955 1961 1967 1973 1979 u1601 1602 u1607 1608 u1613 1614 U1619 1620 U1625 1626 u1631 1632 u1637 1638 u1643 1644
64. u21 u29 30 u30 u39 u49 u59 lt u S uU u45 u3 4 15 u15 4 29 U25 4 35 u35 u45 u55 u6S UT u85 u1 15 u2 25 u3 35 a lt u37 U47 u57 u 4 u14 1 4 u24 2 4 u34 3 4 u44 4 4 u54 5 4 U64 6 4 u74 7 4 u84 8 4 u94 9 u62 u63 u67 U77 U64 U74 U65 u75 u84 85 u85 u86 u94 u95 96 u96 103 u103 104 u104 u111 112 u112 119 u119 120 u120 127 u127 128 u128 135 u135 136 u136 143 u143 144 u144 151 u151 152 u152 159 u159 160 u160 167 u167 168 u168 175 u175 176 u176 183 u183 184 u184 192 200 208 216 224 232 240 248 256 U66 u76 U6 u72 u73 U7 106 11 1 1 9 1 19 2 29 3 39 4 49 5 59 6 69 7 79 8 89 Pad ad ad od en u82 u92 u101 u109 u117 u125 u133 134 u83 u141 142 u8 u98 99 u99 u106 107 u114 115 u122 123 u130 131 u138 139 u146 147 u154 155 u162 163 3 4 u4 5 7 5 u15 1 18 5 u25 2 28 5 u35 3 38 5 u45 4 48 5 u55 5 58 5 u65 6 68 5 u75 7 78 5 u85 8 88 5 u95 9 98 A YA YA N NN MA AE DAD D DIO I III 1 2 3 4 5 6 7 8 9 CO CO Y O of WP u93 9 u97 u105 u113
65. vision CANCEL Here the threshold values of the minimum sense voltage the maximum sense voltage the maximum terminal voltage the maximum current the maximum power the maximum temperature and the communication timeout can be 20 November 2009 13 Version 1 02 gt gt gt max Power w Switch this channel off gt max Temperature C Switch this channel off gt gt Communication Timeout Ignore this failure entered The right column maximum can only be changed by this utility and is the maximum allowed value of the left column The left column may be changed here or via the TCP IP network The most right column on failure defines the action if the associated threshold is exceeded The communication timeout at the last low is an internal timeout of the communication between different processors If the processor responsible for a specific output has no data from it s master processor for longer than this time in milliseconds the output channel will be switched off e Identification Here the group number of this channel can be entered Other main menu items associated with this dialog are Start Stop stop and restart the communication with the Mpod controller via USB and SelectOutput which simple increments the channel number which is displayed by the other dialogs The other main menu items are used for test and maintenance and should not used by the customer 5 2 Web Browser Wit
66. x 405 F EHS 8610x 805 F EHS 8605x 156 F EHS F660x 105 F EHS F640x 205 F EHS F630x 305 F EHS F620x 405 F EHS F610x 805 F EHS F605x 156 F Channels V max 8 6kV 8 4kV 8 3kV 8 2kV 8 1kV 8 500V 16 6kV 16 4kV 16 3RV 16 2kV 16 1kV 16 500V I max 1mA 2mA 3mA 4mA 15mA V res 10 10 Vmax MESA 10 10 Vmax 10 10 Vinax 10 10 V 107 TOE Vous 10 10 Vmax 10 10 Vinax 10 10 Vinax 10 10 Vinax 105 10 Vmax VOE ON a I res 105 10 Lmax 103 10 Ima 105 10 Lmax 10 10 Is 10 10 Imax 103 10 Imax 105 105 Lmax NO a r9 IL 10 10 Imax 103 10 Imax 105 105 Lmax 10 10 Is 10 10 Imax IO MOST I res 10 10 Imax 10 10 Imax 10 10 Lmax NO 10 IL 10 10 Imax MO NO IL 10 10 Imax NO NOP Iss 10 105 Lmax 10 10 Imax 10 10 Imax MO 10 EHO Series high precision series 8 16 channels with floating ground EHO 82 05x_156 F EHO F210x_505 F EHO F205x_106 F EDS Distribution Series 16 32 channels with common ground Type EDS F0 05x 105 EDS F0 05x 105 EDS F1 30x 504 EDS 20 005x 105 EDS 20 025x 504 EDS 21 030x 504 8 500V 16 1kV 16 500V EBs Bipolar High voltage modules 8 16 channels with common ground Type EBS 80 05 EBS F0 05 EBS 80 30 EDS FO 30 20 November 2009 15mA 5mA 10mA Channels V max I max 16 500V 1mA 16 2 5V 500uA 16 3kV 500uA 32 500V 1mA 32 2 5kV
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