Parker 690+ series, Product Manual

Page: 238 / 242

Application Macros
5-28
690+ Series Frequency Inverter
Miscellaneous
Logic Func 1
OUTPUT [183] – FALSE
FALSE – [180] INPUT A –
FALSE – [181] INPUT B –
FALSE – [182] INPUT C –
NOT(A) – [184] TYPE –
Logic Func 5
OUTPUT [203] – FALSE
FALSE – [200] INPUT A –
FALSE – [201] INPUT B –
FALSE – [202] INPUT C –
NOT(A) – [204] TYPE –
Logic Func 2
OUTPUT [188] – FALSE
FALSE – [185] INPUT A –
FALSE – [186] INPUT B –
FALSE – [187] INPUT C –
NOT(A) – [189] TYPE –
Logic Func 4
OUTPUT [198] – FALSE
FALSE – [195] INPUT A –
FALSE – [196] INPUT B –
FALSE – [197] INPUT C –
NOT(A) – [199] TYPE –
Logic Func 3
OUTPUT [193] – FALSE
FALSE – [190] INPUT A –
FALSE – [191] INPUT B –
FALSE – [192] INPUT C –
NOT(A) – [194] TYPE –
Logic Func 7
OUTPUT [213] – FALSE
FALSE – [210] INPUT A –
FALSE – [211] INPUT B –
FALSE – [212] INPUT C –
NOT(A) – [214] TYPE –
Logic Func 9
OUTPUT [223] – FALSE
FALSE – [220] INPUT A –
FALSE – [221] INPUT B –
FALSE – [222] INPUT C –
NOT(A) – [224] TYPE –
Logic Func 6
OUTPUT [208] – FALSE
FALSE – [205] INPUT A –
FALSE – [206] INPUT B –
FALSE – [207] INPUT C –
NOT(A) – [209] TYPE –
Logic Func 8
OUTPUT [218] – FALSE
FALSE – [215] INPUT A –
FALSE – [216] INPUT B –
FALSE – [217] INPUT C –
NOT(A) – [219] TYPE –
Logic Func 10
OUTPUT [228] – FALSE
FALSE – [225] INPUT A –
FALSE – [226] INPUT B –
FALSE – [227] INPUT C –
NOT(A) – [229] TYPE –
Logic Func 11
OUTPUT [1349] – FALSE
FALSE – [1346] INPUT A –
FALSE – [1347] INPUT B –
FALSE – [1348] INPUT C –
NOT(A) – [1350] TYPE –
Logic Func 13
OUTPUT [1359] – FALSE
FALSE – [1356] INPUT A –
FALSE – [1357] INPUT B –
FALSE – [1358] INPUT C –
NOT(A) – [1360] TYPE –
Logic Func 12
OUTPUT [1354] – FALSE
FALSE – [1351] INPUT A –
FALSE – [1352] INPUT B –
FALSE – [1353] INPUT C –
NOT(A) – [1355] TYPE –
Logic Func 14
OUTPUT [1364] – FALSE
FALSE – [1361] INPUT A –
FALSE – [1362] INPUT B –
FALSE – [1363] INPUT C –
NOT(A) – [1365] TYPE –
Logic Func 15
OUTPUT [1369] – FALSE
FALSE – [1366] INPUT A –
FALSE – [1367] INPUT B –
FALSE – [1368] INPUT C –
NOT(A) – [1370] TYPE –
Logic Func 17
OUTPUT [1379]
–
FALSE
FALSE – [1376] INPUT A –
FALSE – [1377] INPUT B –
FALSE – [1378] INPUT C –
NOT(A) – [1380] TYPE –
Logic Func 19
OUTPUT [1389] – FALSE
FALSE – [1386] INPUT A –
FALSE – [1387] INPUT B –
FALSE
–
[1388] INPUT C
–
NOT(A) – [1390] TYPE –
Logic Func 16
OUTPUT [1374] – FALSE
FALSE – [1371] INPUT A –
FALSE – [1372] INPUT B –
FALSE – [1373] INPUT C –
NOT(A) – [1375] TYPE –
Logic Func 18
OUTPUT [1384] – FALSE
FALSE – [1381] INPUT A –
FALSE – [1382] INPUT B –
FALSE – [1383] INPUT C –
NOT(A) – [1385] TYPE –
Logic Func 20
OUTPUT [1394] – FALSE
FALSE – [1391] INPUT A –
FALSE – [1392] INPUT B –
FALSE – [1393] INPUT C –
NOT(A) – [1395] TYPE –
Demultiplexer 1
OUTPUT 0 [657] – FALSE
OUTPUT 1 [658] – FALSE
OUTPUT 2 [659] – FALSE
OUTPUT 3 [660] – FALSE
OUTPUT 4 [661] – FALSE
OUTPUT 5 [662] – FALSE
OUTPUT 6 [663] – FALSE
OUTPUT 7 [664] – FALSE
OUTPUT 8 [665] – FALSE
OUTPUT 9 [666] – FALSE
OUTPUT 10 [667] – FALSE
OUTPUT 11 [668] – FALSE
OUTPUT 12 [669] – FALSE
OUTPUT 13 [670] – FALSE
OUTPUT 14 [671] – FALSE
OUTPUT 15 [672] – FALSE
0000 – [599] INPUT –
Multiplexer 1
OUTPUT [598] – 0000
FALSE – [641] INPUT 0 –
FALSE – [642] INPUT 1 –
FALSE – [643] INPUT 2 –
FALSE – [644] INPUT 3 –
FALSE – [645] INPUT 4 –
FALSE – [646] INPUT 5 –
FALSE – [647] INPUT 6 –
FALSE – [648] INPUT 7 –
FALSE – [649] INPUT 8 –
FALSE – [650] INPUT 9 –
FALSE – [651] INPUT 10 –
FALSE – [652] INPUT 11 –
FALSE – [653] INPUT 12 –
FALSE – [654] INPUT 13 –
FALSE – [655] INPUT 14 –
FALSE – [656] INPUT 15 –
Multiplexer 2
OUTPUT [873] – 0000
FALSE – [771] INPUT 0 –
FALSE – [772] INPUT 1 –
FALSE – [773] INPUT 2 –
FALSE – [792] INPUT 3 –
FALSE – [793] INPUT 4 –
FALSE – [794] INPUT 5 –
FALSE – [795] INPUT 6 –
FALSE – [796] INPUT 7 –
FALSE – [797] INPUT 8 –
FALSE – [798] INPUT 9 –
FALSE – [799] INPUT 10 –
FALSE – [868] INPUT 11 –
FALSE – [869] INPUT 12 –
FALSE – [870] INPUT 13 –
FALSE – [871] INPUT 14 –
FALSE – [872] INPUT 15 –
Demultiplexer 2
OUTPUT 0 [875] – FALSE
OUTPUT 1 [1000] – FALSE
OUTPUT 2 [1001] – FALSE
OUTPUT 3 [1002] – FALSE
OUTPUT 4 [1003] – FALSE
OUTPUT 5 [1004] – FALSE
OUTPUT 6 [1005] – FALSE
OUTPUT 7 [1006] – FALSE
OUTPUT 8 [1007] – FALSE
OUTPUT 9 [1008] – FALSE
OUTPUT 10 [1009] – FALSE
OUTPUT 11 [1010] – FALSE
OUTPUT 12 [1011] – FALSE
OUTPUT 13 [1012] – FALSE
OUTPUT 14 [1013] – FALSE
OUTPUT 15 [1014] – FALSE
0000 – [874] INPUT –
Home
– ACTIVE [1469] – FALSE
– OUTPUT [1472] – 0.00 %
– ERROR [1471] – FALSE
– ERROR COUNT [1467] – 0
– DONE [1470] – FALSE
– DECELERATION [1468] – 0.00 %
FALSE – [1460] ENABLE –
0.00 %
–
[1461] INPUT
–
1.00 – [1462] DISTANCE –
0.0000 – [1463] DISTANCE FINE –
5.0 – [1464] GAIN –
5.00 % – [1465] CORRECTION LIMIT –
100.0 %
–
[1466] DECEL LIMIT
–
Position
–
OUTPUT (INT) [748]
–
0
– SCALED OUTPUT [1685] – 0.0000
– ENCODER FBK RPM [1687] – 0.00 rpm
– ENCODER FBK % [1688] – 0.00 %
FALSE – [747] RESET –
0.00
–
[1682] PRESET
–
100.00 – [1683] LIMIT –
8192 – [747] COUNTS PER UNIT –
TImer 1
– ABOVE THRESHOLD [1695] – FALSE
– SCALED TIME [1696] – 0.00 s
– TOTAL HOURS [1697] – 0 Hr
– TOTAL SECONDS [1698] – 0 s
ENABLE – [1690] ENABLE –
FALSE – [1691] RESET –
0 – [1692] RESET VALUE –
1 – [1693] SCALE –
0 – [1694] THRESHOLD –
TImer 2
– ABOVE THRESHOLD [1825] – FALSE
– SCALED TIME [1826] – 0.00 s
–
TOTAL HOURS [1827]
–
0 Hr
– TOTAL SECONDS [1828] – 0 s
ENABLE – [1820] ENABLE –
FALSE – [1821] RESET –
0 – [1822] RESET VALUE –
1
–
[1823] SCALE
–
0 – [1824] THRESHOLD –
Macro Control Blocks
Some of these blocks may already be in use by the macros