Pre-Installation
Contents
1. alisiisiisiisiisiisiis isiishs o SISI SIIS NOHO Kee OOo PE PE DO R S T U V W GRD GRD 2 3 T 73 Dynamic Brake A Required E Input Fusing To Motor To Motor Pride T AC Input Line 1 User supplied 2 Terminal located separately on Series A Drives 37 Pre Installation Power Wiring TB1 200 240V 30 45 kW 40 60 HP Terminal Designations 380 480V 45 112 kW 60 150 HP Terminal Designations 500 600V 56 112 kW 75 150 HP Terminal Designations DC DC PES PES TES Brake Brake To Motor R T U V H 1 Required Input Fusing 1 Required Branch Circuit Disconnect See Appendix for detailed Dimensions AC Input Line 200 240V 56 75 kW 75 100 HP Terminal Designations 380 480V 112 187 kW 150 250 HP Terminal Designations 500 600V 112 224 kW 150 302. No External Devices w 1204 TFB2 Term w 1204 TFA1 Terminator Reactor at Drive 2 Motor Motor Motor M otor 1600V or A B 1329 1329R L 1850V AorB 1329 A B 1329 B or 1329 Drive DrivekW MotorkW Any Any Cable Type Any Cable Type Cable Type Any Any Any Frame HP HP Cable Cable Cable Cable 5 Shid 3 Unshld Cable Shid 3 Unshld Shid 3 Unshld Cable Cable Cable Al 037 0 37 12 2 335 914 914 30 5 61 0 30 5 61 0 94 229 1829 0 5 0 5 40 110 300 300 100 200 100 200 300 75 600 0 75 0 75 12 2 335 914 914 30 5 30 5 30 5 30 5 914 229 1670 1 1 40 110 300 300 100 100 100 100 300 75 600 0 37 122 33 5 914 914 30 5 61 0 30 5 61 0 914 229 1829 0 5 40 110 300 300 Use 1201 TFAT 100 200 100 200 300 75 600 12 12 122 335 914 914 30 5 30 5 61 0 61 0 94 229 1829 1 5 15 40 110 300 300 100 100 200 200 300 75 600 0 75 12 2 33 5 914 914 30 5 30 5 61 0 61 0 914 229 1829 1 40 110 300 300 100 100 200 200 300 15 600 0 37 122 33 5 143 1219 30 5 30 5 61 0 61 0 1219 229 1825 0 5 40 110 375 400 100 100 200 200 400 75 600 2 15 E 1 6 122 914 914 914 914 914 30 5 30 5 914 61 0 94 229 182 9 2 2 25 40 300 300 300 300 300 100 100 300 200 300 75 600 12 1 6 122 143 1829 914 182 9 182 9 30 5 30 5 914 61 0 182 9 229 1829 15 25 40 375 600 300 600 600 100 100 300 200 600 75 600 0 75 7 6 12 2 143 182
3. Fan Vertical 7112 28 00 Fan Horiz 108 0 4 25 x 158 8 6 25 82 6 3 25 Removable Plate for Cable Access 1 each side All Dimensions in Millimeters and Inches See page 2 1 for Mounting Information Approximate Shipping Weight drive amp pallet 415 0 kg 915 lbs 25 Pre Installation Open Dimensions Frame F Roll In Chassis All Dimensions in Millimeters and Inches 635 0 x 25 00 1543 3 DANGER 60 76 Allen Bradley o 7 q 7 DANGER vo Telele Le 6
4. 375 4 127 A RT m 14 78 n 050 1 0 49 203 0 13 19 1320 Y lt A2 gt as lt 7 99 gt 5 20 gt j O Mounting Holes Q Lifting Holes 2 see detail T Frames A4 B amp C Only q B2 EXPANDED OPTION EXPANDED OPTION ENCLOSURE ENCLOSURE DRIVE OPTION Oy A G I ENCLOSURE Additional Mounting Holes Not Present When EXPANDED OPTION ENCLOSURE Is Required Allen Bradley c3 JOO r bl D Z RI R2 ML ps s ER y ag cc S m a gt lt Mounting Slots 2 lt 5 YY see detail AU In Y Y gt lt 71028 gt pe 7903 h Yom Y lt 135 Door Radius 12 7 0 50 12 7 0 50 y 14 3 0 56 A CONDUIT ACCESS Top or Bottom Mounting Holes Mounting Slots Option Mounting Location DRIVE OPTION All Option Codes Not Listed Below ENCLOSURE EXPANDED OPTION Option Codes BA BM CC D41 D42 DT JS ENCLOSURE CONSULT Option Codes BC BD BP BS CM J L LQ FACTORY LR MP12A MP12N MP18A MP18N MQ2 MQ3 Approximate Shipping Weights All Weights in Kilograms and Pounds Three Phase Ratings All Dimensions in Millimeters and Inches Drive Option Drive Option and Enclosure Only Expanded Option Frame 230V 460V 575V Al A2 B1
5. Frames A1 through A4 M 5 R Fans are present on these drives Q 22 2 0 88 Conduit Knockout 1 Plc Input Catalog KW HP Voltage Frame Number Rating B 22 2 28 6 0 88 1 13 230 A4 F75 5 5 7 5 Conduit Knockout Pics 460 A4 F75 5 5 7 5 F100 7 5 10 d F150 11 15 F200 15 20 575 A4 F30 2 2 3 F50 3 7 5 NML F75 5 5 75 F100 7 5 10 F150 11 15 F200 15 20 Y v Fans will be present on A4 Frame Frame Reference L M N Q R 5 1 111 8 105 4 86 3 31 0 69 1 102 1 135 4 4 40 4 15 3 40 1 22 2 72 4 02 5 33 A2 132 3 126 0 106 9 31 0 69 1 102 1 135 4 5 21 4 96 4 21 1 22 2 72 4 02 5 33 A3 158 8 152 4 133 4 31 0 69 1 102 1 135 4 6 25 6 00 5 25 1 22 2 72 4 02 5 33 M 164 0 164 0 139 0 21 0 65 0 97 0 128 7 6 45 6 45 5 47 1 06 2 56 3 82 5 07 All Dimensions in Millimeters and Inches Frames B and C 28 6 34 9 1 13 1 38 Conduit Knockout 3 Plcs 22 2 0 88 Conduit Knockout 1 Plc ML Y Frame Reference L M Q R S B1 B2 181 6 167 1 112 8 163 6 214 4 249 9 7 15 6 58 4 44 6 44 8 44 9 84 C 181 6 167 1 119 1 182 6 2334 215 3 7 15 6 58 4 69 7 19 9 19 10 84 29 Pre Installation IP 20 NEMA Type 1 Botto
6. amp e lo o 0 152 305 457 600 6 00 12 00 18 00 23 62 All dimensions in millimeters and inches WITHOUT OPTION BAY 650 25 59 10 24 00 1336 PLUS II e e DRIVE STD e 457 18 00 ES 305 12 00 e 9 152 60 ole mme 0 0 152 305 457 600 6 00 12 00 18 00 23 62 A4 B1 And B2 Frame Drives 230V 5 5 11 kW 7 5 15 HP 460V 5 5 22 kW 7 5 30 HP 575V 75 15 kW 1 20 HP IP54 NEMA Type 12 IP65 NEMA Type 4 Consult Allen Bradley when adding additional heat producing components to existing NEMA Type 12 rated drives 1549 61 00 1372 54 00 1219 48 00 1067 42 00 916 36 06 7622 30 00 610 24 00 457 18 00 305 12 00 152 WITH OPTION BAY RI 1336 PLUS II mam DRIVE STD sro 6 6 00 0 6 60 sm 152 305 457 610 PREVIOUS PAGE OVERLOAD RELAY 762 914 6 00 12 00 18 00 24 0
7. 635 0 25 00 Option Mounting Location Mountable Option List CB CF CP CT DEC DS D1_ D2_ GM C GD_C GMS C HA__ HJ D3_ D5_ E_ D61 091 FN ITC JF JM JRJT K LL LLL M 3 UL Consult Factory JL JS LQ LT LR LW MP12A Option List MQ2 P12N MP18A MP18N Special Smaller Enclosure A single 762 mm 30 In wide enclosure may be used if the option list requirements below are met Consult factory for custom quotation in all cases Any combination of CM D10 D91 EC EP ET GD1C GD2C GM1C GM2C GM5C JR JT L4C L5C L4EC L5EC L6EC LA C all HIMs and a max of 1 CF EB N2 N3 NAT N5C NST Removable Lifting Angle Vented Areas IP20 NEMA Type 1 Only Air Conditioner 1 54 NEMA Type 12 Only Approximate Shipping Weights All Weights in Kilograms and Pounds Drive and Drive Option Enclosures Frame 460V CT 460V VT 575V A Al A2 IP 20 NEMA Type 1 1 54 NEMA Type 12 G 224 261 kW 224 261 kW 224 261 kW 2103 1 1798 3 264 2 139 7 624 805 300 350 HP 300 350 HP 300 350 HP 82 80 70 80 10 40 5 50 1375 1775 360 425 A 360 425 A 360 425 A 298 448 kW 298 448 kW 298 448 kW 2230 1 1925 3 327 7 215 9 624 832 400 600 HP 400 600 HP 400 600 HP 87 80 75 8 12 9 8 50 1375 1885 475 670 A 475 670 A
8. 240 Volt Input Drive Dual Element Motor Catalog Input Output Time Delay Non Time Circuit Circuit f i ing Fuse Delay Fuse Breaker Protector 140M Motor Starter with Adjustable Current Range Min Min Available Catalog Numbers F05 05 2 8 23 4 5 4 6 15 3 140M C2E B40 140M D8E B40 F07 075 3 5 30 4 6 4 9 15 7 140M C2E B40 140M D8E B40 F10 1 5 4 45 6 9 6 12 15 7 140 2 63 140M D8E B63 F15 15 13 6 0 8 125 18 15 20 15 140M C2E C10 140M D8E C10 140M F8E C10 F20 2 97 8 0 10 15 10 20 25 15 140M C2E C10 140M D8E C10 140M F8E C10 F30 3 143 120 15 20 15 25 35 15 140M C2E C16 140M D8E C16 140M F8E C16 F50 5 213 180 25 30 25 45 60 30 140M C2E C25 140M D8E C25 140M F8E C25 140M CM N 2500 F75 15 226 1220 130 45 30 60 80 50 140M C2E C25 140M D8E C25 140M F8E C25 140M CM N 2500 007 75 280 270 40 45 40 60 80 50 140M F8E C32 140M CM N 4000 010 10 350 34 0 50 60 50 80 100 50 140M CM N 4000 015 15 490 1480 70 90 70 110 150 70 140M CM N 6300 020 20 63 0 1650 100 110 100 125 200 100 140M CM N 9000 025 25 750 770 100 150 100 200 250 100 140M CM N 9000 030 30 790 1800 15 15 15 225 300 150 140M CM N 9000 040 40 1190 1200 120 225 1120 300 300 150 050 50 149 0 1500 200 1250 1200 350 350 250 060 60 17
9. 916 36 00 762 30 00 610 24 00 1336 PLUS II DRIVE STD 457 18 00 305 12 00 152 6 00 94 TERMINAL BLOCK STD 152 6 00 DRIVE CIRCUIT BREAKER OR DISCONNECT SWITCH 305 12 00 CONTROL TRANSFORMER RELAY LOGIC VARIES COMMUNICATION OPTION CARD DRIVE OR PANEL MOUNTED 457 18 00 600 23 62 All dimensions in millimeters and inches 650 25 59 610 24 00 457 18 00 305 12 00 152 6 00 WITHOUT OPTION BAY 1336 DRIVE STD PLUS II TERMINAL BLOCK STD 0 152 305 457 600 6 00 12 00 18 00 23 62 INPUT ISOLATOR DRIVE INPUT CONTACTOR DRIVE OUTPUT CONTACTOR BYPASS CONTACTOR NEXT PAGE Panel Layouts B1 B2 Frame Drives 230V 5 5 11 kW 7 5 15 HP 460V 11 22 kW 15 30 HP IP20 NEMA Type 1 WITH OPTION BAY 1000 39 37 1067 42 00 916 36 00 762 30 00 610 24 00 457 18 00 305 12 00 152 6 00 0 1336 PLUS II DRIVE STD
10. 2 00 e eS eS ee pee SS ae E CONDUIT ACCESS CONDUIT ACCESS T X P lt 8 56 e L 01 56 e 2794 CONDUIT ACCESS CONDUIT ACCESS 11 00 1 1 on ij fo U il t LI D1 1 7 15 87 0 625 Dia Mounting Holes a 7 Y 38 NE og m m 2 00 lt D3 m 16 00 i 2 00 qaum ct D2 9 Q2 aa Approximate Shipping Weights All Weights in Kilograms and Pounds Three Phase Ratings All Dimensions in Millimeters and Inches Drive Option Drive Option amp Expanded Enclosure Only ved CES 1 20 IP54 IP Frame 230V 460V CT 460V VT A A o D D2 D3 NEMAType1 NEMAType12 NEMAType 1 NEMA Type 12 30 45 KW 45 112KW 56 112 56 93KW 6350 1143 0 1378 0 15304 6071 4661 851 3175 1280 5766 5334 386 436 522 572 D 40 60HP 60 150 75 150HP 75 125HP 2500 45 00 5425 6025 575 20 21 521 250 6 90 22 70 21 00 850 960 1150 1260 120 180 A 85 180 96 1804 85 138 A 56 93 KW 112 187 KW 149 187 KW 112 149 KW 8890 13970 1632 0 17844 6541 5133 1323 4445 1753 8306 7814 408 458 544 594 E 75 125 150 250 HP 200 250HP 150 300 3500 55 00 6425 7025 575 20 21 5 21 17 50 6 90 32 70 31 00 000 1010 1200 1310 240 325 A 199 325 240 325 A 158 300 A 88 Dimensions IP20 NEMA Type 1 and IP54 NEMA Type 12 Dimensions for F Frame Drives without
11. 12 4 0 49 F c A EN H See Detail B e Allen Bradley E B Y 1 7 9 0 31 gt lt 12 7 0 50 j a 7 1 0 28 Dia 12 7 14 3 0 56 Dia Typical Top and Bottom Detail 12 7 0 50 Dia E Drive El Heatsink 19 1 0 75 2 191 0 75 Dia All Dimensions in Millimeters and Inches Detail B All Weights in Kilograms and Pounds Frame Approx Ship Reference B D E F G H Weight Al 430 0 525 0 350 0 404 9 500 1 250 0 N A N A 16 8 16 93 20 67 13 78 15 94 19 69 9 84 37 0 A2 430 0 525 0 350 0 404 9 500 1 250 0 N A N A 17 9 16 93 20 67 13 78 15 94 19 69 9 84 39 4 A3 430 0 525 0 350 0 404 9 500 1 250 0 N A N A 18 6 16 93 20 67 13 78 15 94 19 69 9 84 41 0 M 655 0 650 0 425 0 629 9 625 1 293 0 63 5 16 2 39 5 25 79 25 59 16 74 24 80 24 61 11 54 2 50 3 00 87 0 B1 5 5 kW 7 5 HP at 200 240V AC 655 0 650 0 425 0 629 9 625 1 293 0 63 5 76 2 44 7 11 kW 15 HP at 380 480V AC 25 79 25 59 16 74 24 80 24 61 11 54 2 50 3 00 98 5 B2 7 5 11 KW 10 15 HP at 200 240VAC 655 0 900 0 425 0 629 9 875 0 293 0 63 5 16 2 56 5 15 22 kW 20 30 HP at380 480VAC 25 79 35 43 16 74 24 80 34 45 11 54 2 50 3 00 124 5 C 655 0 1200 0 425 0 629 9 11745 293 0 63 5 76 2 80 7 25 79 47 24 16 74 24 80 46 22 11 54 2 50 3 00 178 0 Pre Installation IP 20 NEMA Type 1 Bottom View Dimensions Frames A C
12. CR6 CR6 CR6 CR6 lho 51 B CRIOCRIO CRIOCRIO AUXILIARY OUTPUT 02206 3 41 19 3065 1 e 2 sl ts ALARM MOD L6 115VAC INTERFACE BOARD azjA Pas AUTO RUN xooO O l 2223 3 19 CUST INTERLOCK a 000 19 15 I 14 as S Ps HAND MODE 2233 o9 2253 PL9 AUTO MODE i DOK sg 9 CUSTOMER INTERLOCK 2291 1 TERMINAL BLOCK TBS COMMON REVERSE JOG o Pa W6 AUTO MANUAL 2342 AUXILIARY COMMON SPD SEL 3 SPD SEL 2 551 TOMER FROM 3 6 cus INTERLOCK 7 2361 COMMON 220 9 P8 N N N N N N N 2 SF G gt O OC G N ENABLE The Control Interface page of the drawings contains the drive M ain Control Board and the standard Control Interface Board as we as all the control logic that interfaces to these two boards Several customer interlock locations are included in the logic to allow interfacing of extraneous control devices to the existing drive logic 113 Drawing Sample Page 3 Control Logic x1 115V 21 24 5 x2 3065 CR11 CR11 CR11 ei 10 2 CR11 si 9 1 POWER ON PL2 W A POWER ON PL5 3R 3181 DA MOTOR FAULT M4 5 10 INPUT CONTACTOR 91 12
13. x OFF DRIVE BYPASS 3223 PL11 DRIVE MODE M2 2 20 9 0 1 32 ON 9 1HSV1000N313AVSNSI 1 XooO AUTO BYPASS OFF s ON M2 CR14 3241 Q l OX sss i 3 25 3 22 3 25 AUTO BYPASS ENABLE PL12 Yat 3 26 3 28 aA BYPASS MODE 3302 3 22 CR7 c 75 L gas BYP SS 1193rO3d 6 1000 31aNvs 9 91907 TOMINOO 19 G N N N N NM N gt O ODO G N b N o m o Zt 17 2 5 L ZL L ol 6 ao MOTOR RUN 3 TIME 5 METER The Control Logic page of the drawings contains the control power supply and all associated control ladder logic not found on the previous page The complexity of this page changes dramatically with the number of options chosen Notice the customer interlock locations in the logic to allow remote interfacing 114 Drawing Sample Page 4 Enclosure Panel Layout and Data Nameplate ENCLOSURE DIMENSIONS AND DOOR LAYOUT S 360 1419 335 13 197 HEAT SUGGESTED SINK CONDUIT ACCESS 7 203 7 99 BYPASS DESCRIPTION DESCRIPTION CNTRL PWR ON PL2 9 AUTO MAN 551 RUN PL3 10 H O A 552 NOT USED 11 HIM MODULE EA2 HAND PL9 12 DRIVE MODE PL 1 AUTO PLIO 13 BYPASS MODE PLI2 MOTOR FAULT PL5 14 EN OFF O
14. L1 Ground Ground Dynamic Brake cl cl i Optional wal EN Drive Output Provided as Standard i Configured Drive Power Disconnec To Motor or Circuit Breaker AC Input Line User supplied remote power disconnect ATTENTION Any user supplied disconnecting means wired to drive output terminals U V and W must be capable of disabling A the drive if opened during drive operation If opened during drive operation the drive will continue to produce output voltage between U V and W An auxiliary contact must be used to simultaneously disable the drive or output component damage may occur User supplied remote drive bypass system life The most common causes are Wiring AC line to drive output or control terminals Improper bypass or output circuits Output circuits which do not connect directly to the motor Contact Allen Bradley for assistance with application or wiring ATTENTION An incorrectly customer applied or installed bypass system can result in component damage or reduction in product 1 Configured drives may have different input fuse ratings than those recommended for equivalent standard 1336 PLUS TIdrives Configured drives are rated for a single input voltage not a voltage range and may have fuses resident on the drive F Frame or an optional disconnect switch f a drive input power option is not supplied incoming power connections are made directly to the d
15. 00000 19 0 0 75 Dia Frame D Bottom View Will Vary with HP See Bottom View Dimensions Open Shipping Weight 1 82 2764 4763 2250 2126 4610 1316 935 889 3200 76 131 1 1808 719 227kg 10 88 1875 886 8 37 81 518 3 68 350 126 030 516 712 283 50 C 308 701 0 2250 2380 658 1316 935 889 3200 76 131 1 3747 719 38 6 11 88 27 60 886 937 2700 518 368 350 126 030 516 1475 283 85 Ibs D 3815 10400 2708 359 12162 813 1895 1849 2794 1194 1311 6886 836 1089kg 15 02 4882 10 66 12 83 4788 320 746 728 110 047 516 27 11 3 29 240 lbs Pre Installation IP 20 NEMA Type 1 amp Open Dimensions Frame E ie A 2 Max 1334 gt Y E D gt j 7 625 AN AN uU A 10 0000 Fr ru o n e Allen Bradley e 37 9 I 1 49 i i A s Mounting Hole Detail AA NE 10 4 0 41 Dia ai
16. 67 1336 PLUS II Selection Guide 1336 PLUS II Configured Drives 1336 PLUS II Configured Drives Table of Contents PRODUCT 70 DRIVE SPECIFICATIONS Input and Output 71 _ Standard AC Line 72 OPTIONS Suggested Power Distribution Schemes 73 Disconnects Control Transformers Overload Relays 74 Bypass Auto Manual SMC 75 M ulti pulse Front Ends M otor 76 Power Conditioning Control and Feedback Communication PLC and SLC Control Interface 78 Human Interface 5 79 Door Mounted Operator 80 Operator Device Functionality M eter Options Enclosure Options 81 Codes and Standards Drawing and Test Options Firmware 82 ENCLOSURE SPECIFICATIONS nstallation Guidelines Enclosure Types NEMA IEC 83 Material lt 84 Mounting and Spacing Requirements 85 DIMENSIONS NEM Type 1 IP20 A C Frame 86 NEM A Type 4 amp 12 IP65 amp IP54 A C Frame Drives 87 NEM A Type 1 amp 12 IP20 amp
17. Circuit Breaker Circuit Protector 4 140M Motor Starter with Adjustable Current Range Min Max2 Min Amps Available Catalog Numbers 140M C2E B25 140M C2E C63 140M D8E C63 140M C2E C10 140M D8E C10 F8E C10 140M C2E C10 140M D8E C10 140M C2E C10 140M D8E C10 140M C2E C16 140M D8E C16 140M C2E C20 140M D8E C20 140 CM N 2500 140M C2E C25 140M D8E C25 140 CM N 2500 140 CM N 4000 140 CM N 4000 140 CM N 6300 140M CM N 6300 140M CM N 6300 140M CM N 9000 400 Semiconductor fuse supplied with drive Refer to the 1336 Spare Parts list publication 1336 6 5 for replacement information 600 630 800 600 595 0 Bussmann Type FW P SPP or 170M Series Ferraz Shaw mut Type A 70Q A 7005 or A070URD Series C n gt C Minimum protection device size is the low est rated device that supplies maximum protection without nuisance tripping Maximum protection device size is the highest rated device that supplies drive protection Circuit Breaker inverse time breaker M otor Circuit Protector instantaneous trip circuit breaker Bulletin 140M with adjustable current range should have the current trip set to the minimum range that the device will not trip M anual Self Protected E Combination M otor Controller UL l
18. D10 D17 D18 D19 GD1C GD2C GUEC BD BA BC BM BP BS KM M K MT HABC HAPC HA2C HJ PC HJ 2C BM JF BA BC BD BP BS KM MK MT HA2C AA AF AJ D10 D17 D18 D19 GD1C GD2C GUEC BP BA BC BD BM BS KM MK MT HAIC HJ HJ 2C BS JF BA BC BD BM BP KM MK MT HNSBC HNSPC HNS1C HNS2C GM SIC GM S2C CB DS GM S5C cC one BA BC BD BM BP or BS DT HNSPC HNSBC HNS1C HNS2C GM S1C GM S2C CF CP CT GM ssc CM O CECT HNSIC HNSBC HNSPC HNS2C GM S1C GM S2C C CP GM SSC DS HNS2C HNSBC HNSPC HNSIC GM 1C GM S2C DT one BA BC BD BM BP or BS CC GM S5C DIO D11 D19 HA1C HA2C 2 HJPC AFor AJ AA GDIC GD2C GU6C HAIC D11 D10 D12 D19 HA2C HJ 2C mE LAC LEC HJ2C AF or Aj AA D10 D17 D18 D19 GD1C GD2C GUC D14 D10 D13 D15 D19 L4C L7EC SEE EEN HJC 15 D10 D14 D16 D19 D16 D10 D15 D17 D19 LAC L7EC F D17 D10 D16 D18 D19 HA1C HA2C HJ 2C L 5 18 D10 D17 D19 HA1C HA2C HJ 2C M D19 D10 D18 HA1C HA2C HJ 2C R D21 D22 5 L D22 one BA BC BD BM BP BS MK or MT D21 D32 D31 BA BC BD BM BP BS CC DT FM IVE BA BC BD BM BP BS KD HAIC HA2C HJ 2C Uc LA3C LA4C LASC D41 one BA BC BD BM BP or BS D42 EET D42 one BA BC BD D41 BM BP BS LAC D61 LA6C LA7C N3 N5C NST D51 one BA BC BD BM BP BS or KM D52 LA1C LA4C LA5C D52 D51 BA BC BD BM BP BS
19. Function Description Skip Frequencies M any mechanical systems have resonant frequencies that can Frequency cause severe vibration If theses systems are run at these speeds continuously this vibration can cause mechanical breakdowns The 1336 PLUS Il offers three programmable Skip Frequencies that prevent the drive from running continuously at resonant _ x 7 speeds An additional parameter allows a programmable Skip Bandwidth around the skip frequencies Actual Command Frequency Skip Band v Time Process Display In order to provide complete flexibility in monitoring drive performance the 1336 PLUS II offers a Process M ode for the liquid crystal super twist display on the Human Interface M odule This feature provides two lines of 16 characters each that can display any two drive parameters scaled into user selectable units Each line uses 8 value display characters and 8 programmable text characters to create the process display Simple keystrokes can designate the process display as the standard display shown ESC SEL A v at power up Fault Buffer The 1336 PLUS II contains a fault buffer that records the last four faults the drive experienced The buffer stores faults in a first in Next Fault gt 4th Fault first out manner Additional diagnostic parameters listed in the Diagnostic Group Refer to the Parameter List on Page 1
20. MOTOR PE LINE GROUND TERMINAL SIGNAL GROUND TERMINAL 3 BAY WITH BYPASS IT ON THE NCH FUSING IS DRIVE 1336 PLUS II DRIVE STD 0 1524 3048 457 2 609 6 762 9144 1066 8 12192 13716 1524 16764 1828 8 19812 6 00 1200 18 00 24 00 30 00 36 00 42 00 48 00 54 00 60 00 66 00 72 00 78 00 All dimensions millimeters and inches BYPASS CONTACTOR AUTO BYPASS LOGIC BYPASS CIRCUIT BREAKER OR DISCONNECT SWITCH 5 BYPASS MOTOR FUSES 101 Wire Terminations Power Wiring Drive Terminal Block TB1 The TB1 Terminal Block connections shown below are a generic representation intended to show the interface of internal or remote power devices to the power terminal block Specific TB1 terminal locations may vary by standard drive rating For more information refer to the Standard Drives section The location of user cable connections to a configured drive will vary with the particular power options chosen After an order is entered Approval Drawings or M anufacturing Drawings may be ordered prior to shipment and specific customer interconnection information is supplied PE PE DC DC BRAKE R or or
21. 010 A010C AF A010C A 15 48 0 A015C AA AQ15C AF 015 C 20 65 0 A020C AA A020C AF A020C A 25 71 0 A025C AA A025C AF A025C A 30 80 0 A030C AA A030C AF A030C A D 40 120 0 A040C AA A040C AF A040C A 50 150 0 050 A050C AF 050 60 180 0 060 060 060 E 75 240 0 075 A075C AF 075 100 292 0 100 A100C AF A100C A 125 325 0 A125C AA A125C AF A125C A 460V Constant Torque Drives and Enclosures 13 NEMA Type 1 IP20 NEMA Type 4 IP65 NEMA Type 12 IP54 Drive Rating General Purpose Resists Water and Dust Industrial Use Dust Tight Nominal HP Code Code Code Al 1 2 11 BFO5C AA BFOSC AF BF05C A 3 4 1 6 BFO7C AA BFO7C AF BFO7C A 1 21 10 BF10C AF BF10C A 11 2 28 BF15C AA BF15C AF BF15C A A2 2 38 BF20C AA BF20C AF BF20C A 3 53 BF30C AA BF30C AF BF30C A A3 5 84 BF50C AA BF50C AF BF50C A A4 71 2 14 0 BF75C AA BF75C AF BF75C A 10 175 BF100C AA BF100C AF 100 15 24 0 BF150C AA BF150C AF 150 20 27 0 BF200C AA BF200C AF 200 B1 15 24 2 B015C AA BO15C AF B015C A B2 20 31 0 20 BO20C AF BO20C A 25 39 0 25 B025C AF B025C A 30 45 0 B030C AA B030C AF B030C A C 40 59 0 BO40C AF B040C A 50 15 0 BO50C AA BO50C AF B050C A 60 77 0 BX060C AA BX060C AF 060 D 60 85 0 BO60C AA BOGOC AF BO60C A 15 106 0 BO75C AA 75 100 138 0 B100C AA B100C A 125 173 0 B125C AA B125C A 150 180 0 BX150C AA
22. 18 16 Ga 18 16 Ga 18 16 Ga 18 16 Ga GENERAL WIRING NOTES SIGNAL 1 CUSTOMER TERMINALS ARE SIZED FOR 75 C WIRE PER NEC TABLE 310 16 75 C STEEL CONDUIT IS RECOMMENDED FOR ALL WIRING CLASSES BUT IS REQUIRED FOR SIGNAL CATEGORY CLASSES ALUMINUM CONDUIT REQUIRES THE SAME MINIMUM SPACING AS SHOWN FOR CABLE TRAYS SPACES BETWEEN CLASSES SHOWN IN THE INSTRUCTION MANUAL IS THE MINIMUM REQUIRED FOR PARALLEL RUNS EQUAL TO OR LESS THAN 400 FEET GREATER SPACING SHOULD BE USED WHERE POSSIBLE No 16 Ga WIRE 15 THE MINIMUM RECOMMENDED SIZE FOR CONTROL WIRE POWER WIRE IS SELECTED BY CONTINUOUS MAXIMUM LOAD FLA SHIELDS FOR SHIELDED SIGNAL CABLE MUST BE CONNECTED AT ONE END ONLY THE OTHER END SHOULD BE CUT BACK AND INSULATED IT IS RECOMMENDED THAT SHIELDS FOR SHIELDED CABLE FROM A CABINET TO AN EXTERNAL DEVICE BE CONNECTED AT THE CABINET END OF THE CABLES SHIELDS FOR SHIELDED POWER CABLE MOTOR LEADS MUST BE CONNECTED AT BOTH ENDS THE SPLICING OF SHIELDED CABLES IF NECESSARY SHOULD BE DONE SUCH THAT THE SHIELD S REMAIN CONTINUOUS AND INSULATED FROM GROUND N N N N N N N N N gt gt N o a N o o o SEE INSTRUCTION MANUAL FOR CABLE CLASSES CLASSES 7 THROUGH 12 ARE SIGNAL WIRES 5 AMPS OR LESS INTERCONNECTION INFORMATION BLUE GM1 1 RIO SHLD GM1 S 1770 CD CLR OR EQUIV 24 18 Ga ol 6 8 L 9 S v 2 for power contro
23. 255 365 87 Dimensions IP20 NEMA Type 1 and IP54 NEMA Type 12 For D E Frame Drives lt IP54 NEMA Type 12 gt lt IP54 NEMA 12 101 6 lt C gt 1 P20 NEMA Type 1 SD gt 4 00 ae EST cl gt gt 2 gt A gt 20 00 y 5 0 15 00 C2 O n 5 ell l d Ol 9 e Allen Bradley EJ diis Allow suat 1524 6 seg 6 00 s lt w gt JI 22860 P e Air 90 00 Flow Option Mounting Location EXPANDED OPTION oe ENCLOSURE DRIVE OPTION All Option Codes Not i ENCLOSURE Listed Below EXPANDED Option Codes BA BM OPTION CC D41 D42 DT ENCLOSURE and JS x CONSULT Option Codes BC BD FACTORY BP BS CM JL LQ e LR LT LW MP12A 9 MP12N MP18A MP18N e elle c MQ2 and MQ3 Y le 9 Removable Lifting Angle Air Conditioner 1 54 NEMA Type 12 Only Vented Areas 1 20 NEMA Type 1 Only O Heatsink Fan Accessible from Inside of Enclosure 9 BU gt 10 00 EX 508
24. 600 D 45 112 45 112 12 2 30 5 1143 For retrofit 1829 1829 182 9 610 914 60 X150 60 150 40 100 375 situations check 600 600 600 200 300 E 112 187 11224 12 53 3 1143 with the motor 1829 1829 182 9 1829 1829 150 250 150 300 40 175 375 manufacturer for 600 600 600 600 600 F 187336 187336 83 533 1143 insulationratng 1829 1829 1829 1829 1829 250 450 250 450 60 175 375 600 600 600 600 600 G 187 448 187 448 183 93 3 1143 1829 1829 182 9 1829 1829 250 600 250 600 60 175 375 600 600 600 600 600 Type A Motor Characteristics No phase paper or misplaced phase paper lower quality insulation systems corona inception voltages between 850 and 1000 volts Type B Motor Characteristics Properly placed phase paper medium quality insulation systems corona inception voltages between 1000 and 1200 volts 1329R L M otors These AC Variable Speed motors are Control M atched for use with Allen Bradley Drives Each motor is designed to meet or exceed the requirements of the Federal Energy Act of 1992 All 1329R L motors are optimized for variable speed operation and include premium inverter grade insulation systems which meet or exceed NEM A M C1 Part 31 40 4 2 51 Pre Installation Motor Cables MAXIMUM MOTOR CABLE LENGTH RESTRICTIONS IN METERS FEET 500V 600V DRIVES 4 No External D
25. Slip compensation is active for both steady state and accel decel conditions Dynamic response to load changes is parameter adjustable Slip compensation enhances torque performance at all speeds Flying Start Some applications require that the drive pick up a spinning load at its current speed and direction then accelerate or decelerate to the actual commanded speed and direction The 1336 PLUS I offers a programmable feature called Flying Start This feature has the ability to determine the speed and direction of a rotating motor and begin its output at that speed The drive will then bring the motor to the commanded speed Flying start can be accomplished with or without a motor mounted encoder The 1336 PLUS II has the ability to ride through short power interruptions On loss of input power to the drive the drive offers two methods of operation With the Line Loss Fault parameter disabled if a power interruption occurs 1 the drive will continue to operate off stored DC bus energy until bus voltage drops to 85 of its nominal value T2 At this point the drive output is shut off allowing the DC bus to discharge more slowly The drive will retain its logic and operating status as long as bus voltage is above the absolute minimum bus voltage refer to Page 7 If bus voltage should fall below this level T5 the drive will trip and Undervolt Fault will be displayed If input power is restored before this minimum is reac
26. o TERMINAL BLOCK STD 0 152 305 457 600 6 00 12 00 18 00 23 62 IP54 NEMA Type 12 IP65 NEMA Type 4 Consult Allen Bradley when adding additional heat producing components to existing NEM A Type 4 or 12 rated drives WITH OPTION BAY All dimensions in millimeters and inches WITHOUT OPTION BAY TERMINAL BLOCK 1336 PLUS DRIVE STD o 0 152 305 457 610 662 6 00 12 00 18 00 24 00 26 05 BYPASS MOTOR FUSES AUTO BYPASS LOGIC 6 MOTOR GROUND TERMINAL D LINE GROUND TERMINAL BYPASS CIRCUIT BREAKER OR DISCONNECT SWITCH SIGNAL GROUND TERMINAL 93 Panel Layouts AF AJ BA D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D21 D22 D31 D32 D41 D42 D51 D52 D61 FM GD1C GD2C GM1C GM 2C Pre engineered P options include the following catalog numbers GM 5C GM 6C GM S1C GM S2C GM S5C GM S6C HABC HAPC HA1C HA2C HJ PC HJ 2C HNSBC LA2C HNSPC LA3C HNS1C LA4C HNS2C LA5C JC LA6C JF LATC JM L9EC ME JT MK KD MT KM N3 LA1C A4 Frame Drives 460V 5 5 15 kW 7 5 20 HP IP20 NEMA Type 1 WITH OPTION BAY 1000 39 37 1067 42 00
27. 12 and 18 Fusing H Fusing Std Fusing Std Pulse Option 2 Input Contactor Input Contactor MP12A FM Option D Option KD MP12N MP18A MP18N _ _ Bypass Bypass Output Line Reactor Options Options Option LQ or LW BA or BM BA or BM Bypass System Bypass System Oy Circuit Non Fused o Breaker d Disconnect Option CC Option DT 4 4 Circuit Breaker O Disconnect Option CB Motor Branch Option DS Fusing H Option SMC Drive Branch Fusing Drive Branch Fusing Std Fusing Std Input Contactor Input Contactor T Option KD Option KD 5 FERES PLUS al T T zs SMC Bypass Options BS BD BP Sem GRE E 1 This option is redundant to the existing electronic overload protection supplied by the drive as standard 2 f the motor branch fusing option FM or the bypass system circuit breaker option CC are not specified the user must supply motor branch circuit protection 3 Standard drive branch fusing will be located on the optional drive disconnect switch if supplied except F and G Frame drives 4 For F Frame drive ratings the input contactor option will be located ahead of the internal drive branch fusing 13 Options Power Disconnect Options Drive Input Fuses Standard This is a standard feature of all configured drive packages These fuses p
28. 400 600 A 91 Dimensions IP20 NEMA Type 1 and IP54 NEMA Type 12 Dimensions for G Frame Drives with Bypass lt A IP 54 NEMA Type 12 A1 IP 54 NEMA Type 12 gt m 2032 0 IP 20 NEMA Type 1 2 gt 80 00 lt 2 4 O 5 a A A DRIVE ENCLOSURE DRIVE OPTION BYPASS OPTION ENCLOSURE ENCLOSURE gt Allow lt Allow 1524 1524 6 00 6 00 for for Air x Air Flow Flow 762 0 508 0 762 0 i 30 00 20 00 30 00 101 6 I 50 8 406421 1 4 00 508 00 600 11 26 00 i 200 y bt is j t z x E AE 4445 AAR 21 Z __ 200 LLIOL6 431 8 114 1 406 4 1 4 00 660 4 50 8 09077 7 7 200 7 st os sen 254 0 547 6 444 5 0156 00 00 7 1750 298 5 11 75 Y 3810 635 0 635 0 A 42 9 15 00 25 00 25 00 88 9 1 69 3 50 lt ra Cl 2286 0 90 00 e Y 3 635 0 2
29. 45 0 75 1 1 AQF10 AN AQF10 AA AQF10 AF AQF10 A 6 0 12 15 15 AQF15 AN AQF15 AA AQF15 AF AQF15 A 8 0 15 2 2 AQF20 AN AQF20 AA AQF20 AF AQF20 A 12 22 3 3 AQF30 AN AQF30 AA AQF30 AF AQF30 A 18 40 5 5 AQF50 AN AQF50 AA AQF50 AF AQF50 A 22 55 75 75 AQF75 AN AQF75 AA AQF75 AF AQF75 A 22 55 75 15 A007 A A007 AA A007 AF A007 A 34 15 10 10 A010 A A010 AA 010 AF A010 A 48 11 15 15 015 A015 A015 AF A015 A 65 15 20 20 A020 A A020 AA A020 AF A020 A 7 18 5 25 25 A025 A A025 AA A025 AF A025 A 80 22 30 30 A030 A A030 AA A030 AF A030 A 120 30 40 40 A040 A A040 AA 3 3 150 37 50 50 A050 A A050 AA 3 3 180 45 60 60 A060 A A060 AA 3 3 240 56 75 75 A075 A 075 AA 3 3 291 75 100 100 A100 A A100 AA 3 3 325 93 125 125 A125 A 125 AA 3 3 380 480V Drive Rating Drive Rating Open NEMA Type 1 NEMA Type 1 NEMA Type4 NEMA Type 12 Constant Torque Variable Torque ConstantTorque Variable Torque IP00 IP20 IP20 IIP65 IP54 Amps HP Amps HP Amps kW Amps kW No Enclosure General Purpose CE C tick Conformance Resist Water Dust Industrial Use 11 05 12 05 11 0 37 127 0 37 BRF05 AN BRF05 AA BRFOS AE BRFO5 AF BRFOS A 16 075 17 075 16 0 56 I 0 56 BRF07 AN BRFO7 AA BRF07 AE BRFO7 AF BRF07 A 21 23 1 21 0 75 23 0 75 BRF10 AN 10 AA BRF10 AE BRF10 AF BRF10 A 28 15 30 15 2 8 LA 3 0 12 BRF15 AN BRF15 AA BRF15 AE BRF15 AF BR
30. 84 00 84 00 1981 2 1981 2 78 00 TERMINAI 78 00 TERMINAL 1828 8 1828 8 72 00 72 00 1676 4 1676 4 66 00 66 00 1524 1524 60 00 60 00 1371 6 1371 6 54 00 54 00 1219 2 1219 2 48 00 48 00 1066 8 1066 8 42 00 42 00 9144 9144 36 00 36 00 762 762 30 00 1336 PLUS II DRIVE S RIVE STD 609 6 609 6 24 00 24 00 457 2 457 2 18 00 18 00 304 8 304 8 12 00 12 00 1524 1524 6 00 6 00 0 0 0 1524 304 8 457 2 609 6 762 914 4 1066 8 1143 0 152 4 304 8 457 2 609 6 635 6 00 1200 18 00 24 00 30 00 36 00 42 00 45 00 6 00 1200 18 00 24 00 25 00 All dimensions in millimeters and inches DRIVE CIRCUIT BREAKER OR DISCONNECT SWITCH INPUT ISOLATOR CONTROL TRANSFORMER Q DRIVE INPUT CONTACTOR RELAY LOGIC VARIES DRIVE OUTPUT CONTACTOR COMMUNICATION OPTION CARD DRIVE OR PANEL MOUNTED BYPASS CONTACTOR NEXT PAGE 98 E Frame Drives 230V 56 93 kW 75 125 HP 460V 112 187 kW 150 199A 250 HP 575V 112 224 kW 150 300 HP IP20 or IP54 NEMA Type 1 or NEMA Type 12 Consult Allen Bradley when adding additional heat producing components to existing NEMA Type 12 rated drives 2286 90 00 2133 6 84 00 1981 2 78 00 1828 8 72 00 1676 4 66 00 1524 60 00 1371 6 54 00 1219 2 48 00 1066 8 42 00 914 4 36 00 762 30 00 609 6 24 00 457 2 18 00 304 8 12 00 152 4 6
31. DC Hold Lvl Bus Limit En ll Settings Selection Paramete Disabled otor Type 41 Settings Selection Parameter nduction Stop Select 2 52 Settings Selection Paramete Coast KP Amps 193 NA 25 400 100 Speed Brake En 319 Settings Selection Parameter Disabled Freq Select 1 5 Settings Selection Paramete Adapter 1 Freq Select 2 6 Settings Selection Paramete Preset 1 100 Frequency 24 0 1 Hertz 0 0 400 0 Hz 10 0 Hz Preset Freq 1 27 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Preset Freq 2 28 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Preset Freq 3 29 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Preset Freq 4 B 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Preset Freq 5 74 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Preset Freq 6 15 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Preset Freq 7 76 0 1 Hertz 0 0 400 0 Hz 0 0 Hz Skip Freq 1 32 1 Hertz 0 400 Hz 400 Hz Skip Freq 2 33 1 Hertz 0 400 Hz 400 Hz Skip Freq 3 34 1 Hertz 0 400 Hz 400 Hz Skip Freq Band 35 1 Hertz 0 15 Hz 0 Hz OP Increment 22 0 1 Hertz Sec 0 78 M ax Freq Sec 1 1 Hz Sec Save MOP Ref 230 Settings Selection Parameter Disabled Freq Ref SgRoot 229 Settings Selection Parameter Disabled 18 Group Param No Disp Units Min Max Values Default Pulse In Scale 264 Factor 1 4096 1024 PPR Encoder PPR 46 Factor 1 4096 1024 PPR Feature Select Dwell Frequency 43 QlHertz 0 0 7 0 Hz 0 0 Hz Dwell Time 44 1Second 0 10 Sec 0 Sec Speed Contro
32. IP20 NEMA Type 1 WITH OPTION BAY 1000 39 37 914 36 00 762 30 00 610 24 00 457 18 00 305 12 00 152 6 00 1194 47 00 500 19 69 1336 PLUS II 457 18 00 DRIVE STD 305 12 00 152 0 TERMINAL BLOCK STD 152 305 6 00 12 00 6 00 457 18 00 23 62 600 1067 42 00 914 36 00 762 30 00 610 610 24 00 457 TERMINAL 24 00 E 457 18 00 305 12 00 152 6 00 0 1336 PLUS II 18 00 305 DRIVE STD o 12 00 152 152 305 457 6 00 12 00 18 00 DRIVE CIRCUIT BREAKER OR DISCONNECT SWITCH CONTROL TRANSFORMER RELAY LOGIC VARIES COMMUNICATION OPTION CARD DRIVE OR PANEL MOUNTED INPUT ISOLATOR 6 00 0 610 662 24 00 26 05 Q DRIVE INPUT CONTACTOR DRIVE OUTPUT CONTACTOR BYPASS CONTACTOR OVERLOAD RELAY All dimensions in millimeters and inches WITHOUT OPTION BAY LUS II STD
33. IP54 D E Frame Drives 88 xm NEM Type 1 amp 12 IP20 amp IP54 F Frame Drives 89 NEM Type 1 amp 12 IP20 amp IP54 G Frame Drives 91 ALLEN BRADLEY E A RS PANEL LAYOUTS Drive Frame A cece eee tect aa Hee 93 Drive Frame desde baa 95 Drive Frame 96 Drive Frame Dica n use khus aap ee pes dea a 98 Drive Frame award 99 Drive Frame Fii uses aan danke ree ade eec coe 100 Drive Frame Gis Ra ROG oe cR oi a dd 101 WIRE TERMINATIONS rr Power Terminal Block 1 102 Control and Signal Wiring Terminal Block 2 103 Control Interface Wiring Terminal Block 104 SELECTION GUIDE mE Catalog Number 105 Thermal Overload Relay Data 109 Heater Element 110 Option Selection Rules 111 30 HP NEMA TYPE 1 Configured Drive with Option Enclosure DRAWING 112 69 Product Description The 1336 PLUS II Drive Configured Drive Package The heart of every configured drive package is a 1336 PLUS II variable frequency controller The configured drives program provides 1336 PLUS II drives packaged with a much larger offering of f
34. LAIC LAC LA5C D61 HAIC HA2C HJ 2C LA2C LA6C LA7C LA5C LALC LA3C LA4C D91 At least one D10 19 D21 22 D31 32 LA6C D61 LA2C LA7C N3 NAC NAT N5C N5T 041 42 D51 or D52 UC D61 LA2C LAGC N3 NSC NST EB uc D12 D14 D16 L5C L7EC LBEC LEC EC AA Frames D E amp G AF AJ EG Frames A C 5 LTEC LBEC LOEC EF Wall M ounting Enclosures B060C B600C BO60V B500V ie auisque Frames A C C075C C600C EF2 Frames 0 L7EC D12 D14 016 LAC L5C LBEC I9EC EF2 Wall Mounting Enclosures B060C B600C BOGOV B500V L8EC LAC L5C LTEC L9EC Frames A C C075C C600C EF1 Frames 0 L9EC LAC L5C LTEC LEC EG AA Frames D G AJ EC Frames A C LQ AA AF AJ LT LW EH JR EH2 LR AA LT LW EH2 JR one of CF CP CT EH AF or AJ AA LR LO EN910C EN935C EN945C Ww AF or AJ AA IR LO EN935C EN910C EN945C MB EN945C EN910C EN935C 1 EP2 EP3 EP2 EP3 MH JR MH2 EP3 EP2 MH2 J one of CF CP CT MH ET MK BA BC BD BM BP BS MT FM one BA BC BD BM BP or BS MT BA BC BD BP BS MK GD1C GM 1C GM S1C GD2C GU6C MP12A LR LT MP12N M P18A M P18N HAIC HA2C HJ PC HJ 2C MP12N M P12A MP18A M P18N GD2C GM 2C GM S2C GD1C GU6C M P18 LR LT M 12A M PI2N M P28N HAIC HA2C HJ BC HJ PC HJ 2C M P18N M P12A M P12N M P18A GM1C GDIC GM 2C GM 5C GM S1C Frame A Drives GM2C GD2C GM 1C
35. Rated Drv Out Curr one Elapsed Run Time 279 0 1 Hr 0 6553 5 0 nput M ode 241 odes None Status Freq Select 1 5 Settings Selection Parameter Adapter 1 Accel Time 1 7 0 1 Second 0 0 3600 0 Sec 10 0 Sec Decel Time 1 8 0 1 Second 0 0 3600 0 Sec 10 0 Sec inimum Freq 16 1 Hertz 0 120 Hz 0 Hz aximum Freq 19 1 Hertz 25 400 Hz 60 Hz Stop Select 1 10 Settings Selection Paramete Coast Current Limit 36 1 20 160 Rated Amps 150 Current Lmt Sel 232 Settings Selection Parameter Current Lmt Adaptive Lim 227 Settings Selection Paramete Enabled Overload M ode 37 Settings Selection Paramete o Derate Overload Amps 38 01 20 115 Drive Rated Amps 115 Drv Rtd VT Scaling 203 Settings Selection Paramete Disabled otor NP 177 1 60 24000 RPM 1750 otor NP Hertz 178 1 Hertz 1 400 Hz 60 Hz otor NP Volts 190 1Vo 0 2 x Drive Rated Volts Drv Rated Volts otor NP Amps 191 1A 0 2 x Drive Rated Amps Drv Rated Amps Advanced Setup inimum Freq 16 1 0 120 Hz 0 Hz aximum Freq 19 1 25 400 Hz 60 Hz PWM Frequency 45 2 kHz 1 8 kHz A amp B Frame Based on Drv Type 2 kHz 1 6 kHz C Frame amp up Based on Drv Type Accel Time 2 30 0 1 Second 0 0 3600 0 Sec 10 0 Sec Decel Time 2 31 0 1 Second 0 0 3600 0 Sec 10 0 Sec Sync Time 307 0 0 Second 0 0 6000 0 Sec 0 0 Sec Stop Select 1 10 Display Drive None Coast DC Hold Time 12 1Second 0 90 0 Sec 0 0 Sec DC Hold Level 13 1 0 150 100 Hold Level Sel 231 Settings Selection Paramete
36. Terminal Designations 380 480V 30 45 kW 40 60 HP Terminal Designations 500 600V 18 5 45 kW 25 60 HP Terminal Designations 1 Fame 380 480V 5 5 15 kW 7 5 20 HP Terminal Designations 500 600V 0 75 15 kW 1 20 HP Terminal Designations eede Ec Hg DC BR GRD GRD R T U V w L1 L2 L3 T1 T2 T3 DC Input Line To Motor Required 1 Required Branch Input Fusing Circuit Disconnect AC Input Line Dynamic Brake Important A brake malfunction will occur if the Dynamic Brake is connected to DC COM B2 ran 200 240V 7 5 11 kW 10 15 HP Terminal Designations 380 480V 15 22 kW 20 30 HP Terminal Designations 500 600V 15 kW 20 HP Terminal Designations ojlolololojo ojlo o e O OOO O S JS 6 JO 6 6 G PE PE DC DC R s T U V W L1 2 T2 13 Dynamic Si A A To Motor ei ene T 1 Required Branch 5 Circuit Disconnect T T T AC Input Line
37. kW Bit 1 0 cc coooooooooocococo Settings Fault Storage one Fault Storage None Fault Storage None Fault Storage one Selection Parameter Ready Selection Parameter Disabled Selection Parameter Disabled Selection Parameter Enabled Fault Storage Enabled Selection Parameter Disabled Selection Parameter Enabled Selection Parameter Enabled 1 255 one Read Only None Read Only None 0 00 400 00 Hz one Read Only None Fault Storage None Read Only one Fault Storage None Selection Parameter Enabled Selection Parameter Disabled Selection Parameter Disabled 5 1 10 1 12 7Volts 22 5 45 0 56 2 Volts 9 0 18 0 22 5 Volts Selection Parameter Enabled Read Only one Read Only one Read Only one Read Only one Read Only one Read Only one Read Only one Read Only one Read Only se last 3400 00 one Read Only one Read Only Coast Read Only one Read Only one 0 65535 one Read Only one 0 255 C one Selection Parameter Ready Read Only one Read Only one Read Only one Read Only Drive Rating Read Only Drive Rating Read Only Drive Rating Read Only 0 00 Read Only 0 00 Read Only Drive Rating Read Only Drive Rating Read Only Drive Rating Read Only Drive Rating Read Only Drive Rating 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 Read Only None Read Only None Read Only None Read Only None Read Only None Read Only None
38. overload relay will trip in 10 seconds or less at 600 of motor current setting The motor overload protection provided by this option is redundant to the electronic overload protection provided by the drive itself Class 20 Motor Thermal Overload Relay Option M K This option provides an Allen Bradley Bulletin 592 thermal overload relay The Bulletin 592 contains a manual reset and requires a eutectic alloy heater element refer to Heater Element Selection in the Selection Guide section The heater element is not supplied with this option because specific motor data generally is not known A Class 20 overload relay will trip in 20 seconds or less at 600 of motor current setting The motor overload protection provided by this option is redundant to the electronic overload protection provided by the drive itself Bypass Options Where system downtime cannot be tolerated a bypass option can be provided to allow the motor to run at base speed by operating across the line Manual Bypass 1 2 3 Option BM This option provides a means to manually switch a single motor from drive control to bypass across the line operation Separate Bulletin 100 where available contactors are provided for drive output and bypass operation and are electrically interlocked A Bulletin 193 Class 10 overload is also provided for motor protection while operating in the bypass mode refer to M otor Thermal Overload Data in the Selection Guide section
39. 0 C040C AA CO40C AF C040C A 50 51 0 C050C AA C050C AF C050C A 60 62 0 C060C AA CO60C AF 060 D 75 85 0 075 075 100 109 100 E 100 125 138 125 125 150 168 C150C AA C150C A 200 252 C200C AA C200C A 250 284 C250C AA _ C250C A 300 300 CX300C AA CX300C AJ G 300 300 C300C AA E C300C A 350 350 C350C AA C350C A 400 400 C400C AA 400 450 450 450 450 500 500 500 C500C A 600 600 C600C AA 600 1 The basic drive does not include a Control Power Transformer If local 115V AC power is not available refer to options CF CP and CT 2 The drive rating is based on a nominal voltage of 480 volts and a carrier frequency of 4kHz at altitudes of 1 000 meters or less Refer to the Drive Derating Guidelines in the Standard Drives section 3 The drive rating is based on a nominal voltage of 600 volts and a carrier frequency of 4kHz at altitudes of 1 000 meters or less Refer to the Drive Derating Guidelines in the Standard Drives section 4 When choosing horsepower related options for variable torque drives match the option to the actual variable torque horsepower rating not to the base catalog number Example 15 HP VT Drive requires 15 HP Circuit Breaker not a 10 HP Circuit Breaker Selection Guide Motor Thermal Overload Relay Data The Thermal Overload Relay Option MT will have the following characteristics Class 10 Bulletin
40. 00 0 TERMINAL BLOCK WITH OPTION BAY STD DRIVE 1336 PLUS II STD 152 4 6 00 304 8 12 00 PREVIOUS PAGE OVERLOAD RELAY BYPASS CIRCUIT BREAKER OR DISCONNECT SWITCH BYPASS MOTOR FUSES 2286 90 00 2133 6 84 00 1981 2 78 00 1828 8 72 00 1676 4 66 00 1524 60 00 1371 6 54 00 1219 2 48 00 1066 8 42 00 914 4 36 00 762 30 00 609 6 24 00 457 2 18 00 304 8 12 00 152 4 6 00 All dimensions in millimeters and inches AUTO BYPASS LOGIC WITHOUT OPTION BAY Panel Layouts 1336 PLUS II STD 304 8 12 00 amp MOTOR GROUND TERMINAL LINE GROUND TERMINAL SIGNAL GROUND TERMINAL Panel Layouts Drives 460V 187 336 kW 250 450 HP V 261 298 kW 350 400 HP IP20 or IP54 NEMA Type 1or NEMA Type 12 Consult Allen Bradley when adding additional heat producing components to existing IP 54 NEM A Type 12 rated drives 2286 90 00 2133 6 84 00 19
41. 11 13 12 12 12 13 12 12 12 CWF150 17 20 19 19 19 20 19 19 19 CW F200 21 26 25 24 24 26 25 24 24 C025 27 32 31 30 30 32 31 30 30 C030 31 37 36 35 35 37 36 35 35 C040 38 45 44 45 45 45 44 45 45 C050 48 57 55 57 57 57 55 57 57 C060 52 62 60 62 62 62 60 62 62 C075 73 88 84 85 85 88 84 85 85 C100 94 112 108 109 109 112 108 109 109 25 118 142 137 137 138 142 137 137 138 C150 144 173 167 167 168 173 167 167 168 C200 217 261 251 251 252 261 251 251 252 C250 244 293 282 283 284 293 282 283 284 CX300 256 307 295 297 300 307 295 297 298 C300 258 300 297 299 300 309 297 299 300 C350 301 361 347 349 350 361 347 349 350 CP CPR350 301 361 347 349 350 361 347 349 350 C400 343 412 397 398 400 412 397 398 400 CP CPR400 343 412 397 398 400 412 397 398 400 C450 386 464 446 448 450 464 446 448 450 C500 429 515 496 498 500 515 496 498 500 C600 515 618 595 598 600 618 595 598 600 Control Inputs Option L4E L7E or L4 Contact Closure Interface Board Requirements Contacts must be capable of operating at 10mA current levels without signal degradation Reed type input devices are recommended The L4E L7E options are compatible with the following Allen Bradley PLC modules 1771 0YL 1771 0ZL Note Option L4 is the same as Option L4E but without encoder feedback terminals Option L5E L8E or L5 24V AC DC Interface Board Requirements Circuits used with Option L5 L8E must be capable of operating with high true logic DC external circuits in th
42. 12 Drive Rating IP00 IP20 IP65 IP54 Amps kW CT HP VT HP No Enclosure General Purpose Resist Water Dust Industrial Use 2 0 0 75 1 I CWFIO AN CWFIO AA CWF10 AF CWFIO AJ 4 0 15 2 2 CWF20 AN CWF20 AA CWF20 AF CWF20 6 0 22 3 3 CWF30 AN CWF30 AA CWF30 AF CWF30 AJ 8 0 37 5 5 CWF50 AN CWF50 AA CWF50 AF CWF50 10 55 75 75 CWF75 AN CWF75 AA CWF75 AF CWF75 AJ 12 75 10 10 100 AN 100 AA CWF100 AF CWF100 AJ 19 11 15 15 CWF150 AN CWF150 AA CWF150 AF CWF150 AJ 24 15 20 20 CWF200 AN CWF200 AA CWF200 AF F200 30 18 5 25 25 C025 A C025 AA C025 AF C025 AJ 35 22 30 30 C030 AN C030 AA C030 AF C030 AJ 45 30 40 40 C040 AN C040 AA C040 AF C040 AJ 57 37 50 50 C050 AN C050 AA C050 AF C050 62 45 60 60 C060 A C060 AA C060 AF C060 AJ 85 56 75 75 075 C075 AA 3 3 109 75 100 100 C100 AN C100 AA 3 3 138 93 125 125 C125 AN C125 AA 3 3 158 112 150 150 C150 A C150 AA 3 3 252 149 200 200 C200 A C200 AAI 3 3 284 187 250 250 C250 AN C250 AAS 3 3 300 224 300 300 CX300 AN CX300 AA 3 3 350 261 350 350 CP350 AN 7 CP350 AA 7 9 3 3 CPR350 AN 7 3 3 400 298 400 400 CP400 AN 7 CP400 7 9 3 3 CPR400 AN 7 3 3 300 224 300 300 C300 AN C300A AAS 3 3 350 261 350 350 C350 A C350A AA 3 3 400 298 400 400 C400 A C400A AAS 3 3 450 336 450 450 C450 AN C450A AAS 3 3 500 373 500 500 C500 AN C500
43. 182 9 914 182 9 182 9 R 61 0 182 9 61 0 914 182 9 75 125 75 125 30 600 300 600 600 200 600 200 300 600 E 112 224 112 224 R 9 1 182 9 91 4 182 9 182 9 R 61 0 182 9 182 9 182 9 182 9 150 X300 150 X300 30 600 300 600 600 200 600 600 600 600 F 261 298 261 298 R 9 1 182 9 91 4 182 9 182 9 R 61 0 182 9 182 9 182 9 182 9 350 400 350 400 30 600 300 600 600 200 600 600 600 600 G 224 448 224 448 R 91 182 9 91 4 182 9 182 9 R 61 0 182 9 182 9 182 9 182 9 300 600 300 600 30 600 300 600 600 200 600 600 600 600 NR Not Recommended NA Not Available at time of printing 1 Values shown are for 480V nominal input voltage drive carrier frequency of 2 kHz and ambient temperature at the motor of 40 C Consult factory regarding operation at carrier frequencies above 2 kHz Multiply values by 0 85 for high line conditions For input voltages of 380 400 or 415V AC multiply the table values by 1 25 1 20 or 1 15 respectively 2 A 3 reactor reduces motor and cable stress but may cause a degradation of motor waveform quality Reactors must have a turn turn insulation rating of 2100 volts or higher 3 Includes wire in conduit Values shown are for nominal input voltage and drive carrier frequency of 2 kHz Consult factory regarding operation at carrier frequencies above 2 kHz Multiply values by 0 85 for high line conditions 5 W hen used on 600V systems
44. 193 Relays Trip 10 seconds or less at 600 of device current rating Have integral heater elements Additional heater elements are not required Have auto or manual reset Have trip settings per the range chart shown below If a motor outside the published adjustability range is to be used complete motor data must be supplied at order entry CLASS 10 ADJ USTABLE THERMAL OVERLOAD RELAY OPTION CODE MT DRIVE RATING ADJ USTABLE RANGE kW HP 230V 460V CT 460V VT 0 37 0 5 16 24A 1 6A 1 6A 0 56 0 75 24 4 1 1 6A 1 1 6A 0 75 1 4 6 1 6 2 4 1 6 2 4 1 6 2 4 A 1 2 1 5 4 6 A 2 4 4 A 2 4 4 A _ 1 5 2 6 10A 24 4 24 4 2 4 4 A 2 2 3 10 16A 46A 4 6 46A 3 7 5 16 24A 10 16A 6 10A 6 10A 5 5 7 5 18 30 A 10 16 A 10 16 A 610A 7 5 10 30 45 10 16A 10 16A 10 16A 11 15 45 60 16 24 16 24 16 24 15 20 60 75 18 30 A 18 30 A 16 24 A 18 5 25 70 90 A 30 45 A 30 45 A 18 30 A 22 30 70 90 A 30 45 A 45 60 A 30 45 A 30 40 80 120 A 45 60 A 45 60 A 30 45 A 37 50 120 200 A 60 75 A 60 75 A 45 60 A 45 60 120 200 A 70 90 A 70 90 A 60 75 A 56 75 180 300 A 66 110 A 66 110 A 66 110 A 75 100 180 300 A 120 200 A 80 120 A 80 120 A 93 125 240 400 A 120 200 A 120 200 A 120 200 A 112 150 D Frame 120 200 A 120 200 A 112 150 E Frame 180 300 A 120 200 A 149 200 180 300 A 180 300 A 180
45. 3 6 0 BF30V AA BF30V AF BF30V A A3 5 9 0 BF50V AA BF50V AF BF50V A A4 10 175 BF75V AA BF75V AF BF75V A 15 25 0 BF100V AA BF100V AF BF100V A 20 24 0 BF200V AA BF200V AF BF200V A B2 25 34 0 B020V AA B020V AF B020V A 30 48 0 B030V AA B030V AF B030V A C 40 59 0 BX040V AA BX040V AF BX040V A 50 65 0 B050V AA B050V AF B050V A 60 77 0 BX060C AA BX060V AF BX060V A D 15 96 0 B060V AA _ B060V A 100 120 B075V AA B075V A 125 150 B100V AA B100V A 150 180 BX125V AA BX125V A E 200 240 B150V AA B150V A 250 292 B200V AA B200V A 250 325 B250V AA B250V A F 300 360 BP250V AA _ BP250V A 350 425 BP300V AA BP300V A 400 475 350 BP350V A 450 532 BP400V AA BP400V A G 300 360 BX250V AA BX250V A 350 425 B300V AA _ B300V AJ 400 475 B350V AA _ B350V AJ 450 525 B400V AA B400V AJ 500 590 B450V AA B450V AJ 600 670 B500V AA B500V AJ 575V Constant and Variable Torque Drives and Enclosures 1 3 108 NEMA Type 1 IP20 NEMA Type 4 IP65 NEMA Type 12 IP54 Drive Rating General Purpose Resists Water and Dust Industrial Use Dust Tight Nominal HP Code Code Code A4 1 20 10 CFIOC AF CF10C A 2 40 CF20C AA CF20C AF CF20C A 3 6 0 CF30C AA CF30C AF CF30C A 5 8 0 CF50C AA CF50C AF CF50C A 712 10 0 CF75C AA CF75C AF CF75C A 10 12 0 CF100C AA CF100C AF CF100C AJ 15 19 0 CF150CAA CF150C AF CF150C AJ 20 24 0 CF200C AA CF200C AF CF200C AJ C 25 30 0 C025C AA C025C AF C025C A 30 35 0 C030C AA C030C AF C030C A 40 45
46. 300 HP 300 HP NO AIR CONDITIONER 5 50 2350 2350 325 360 A 360 A REQUIRED 261 336 kW 261 336 kW 261 298 kW 2419 4 2267 0 235 0 215 99 1066 1247 350 450 HP 350 450 HP 350 400 HP 95 25 89 25 9 25 8 50 2350 2750 425 525 A 425 525 A 425 475 A 90 Dimensions IP20 NEMA Type 1 and IP54 NEMA Type 12 Dimensions for G Frame Drives without Bypass lt 2 gt A1 IP 54 NEMA Type 12 A IP 54 NEMA Type 12 1270 0 50 00 P 20 NEMA Type 1 2 gt e r gt Allow DRIVE ENCLOSURE DRIVE OPTION gt Allow lt 152 4 ENCLOSURE 152 4 6 00 6 00 for E for Air Air Flow Flow s 762 0 508 0 30 00 20 00 50 8 lt 4064 50 8 20 6 00 71 00 e Z T C x Z 2 4 5 e 1117 50 T LLL 4318 29 0 17 00 0 4 i 0 eem p 547 6 77 4445 Q156 ee Ll 2 1750 au o oy 635 0 429 02500 d 15 87 0 625 Dia 889 1 69 Mounting Holes 4 3 50 Three Phase Ratings All Dimensions in Millimeters and Inches
47. 4 mm 152 4 mm 6 0 in 6 0 in gt NOTE F Frame drives require 152 4 mm 6 0 in on the sides and or back for proper air flow Input Pow er Conditioning In general the 1336 PLUS II is suitable for direct connection to a correct voltage AC line that has a minimum impedance of 1 3 for 0 37 22 kW 0 5 30 HP drives relative to the rated drive input kVA If the line has a lower impedance a line reactor or isolation transformer must be added before the drive to increase line impedance If the line impedance is too low transient voltage spikes or interruptions can create excessive current spikes that will cause nuisance input fuse blowing overvoltage faults and may cause damage to the drive power structure The basic rules for determining if a line reactor or isolation transformer is required are as follows 1 If the AC input power system does not have a neutral or one phase referenced to ground see Unbalanced Distribution Systems on next page an isolation transformer with the neutral of the secondary grounded is highly recommended If the line to ground voltages on any phase can exceed 125 of the nominal line to line voltage an isolation transformer with the neutral of the secondary grounded is highly recommended 2 If the AC line supplying the drive has power factor correction capacitors that are switched in and out an isolation transformer or 5 reactors are recommended between the drive and capacitors If the capacitors are
48. 92 88 84 80 2 4 6 Carrier Frequency in kHz 100 95 90 85 80 75 70 65 1 1 1 2 4 6 Carrier Frequency in kHz 100 98 96 94 92 90 88 86 2 4 Carrier Frequency in kHz Pre Installation Derating Guidelines mamam Standard Rating for Enclosed Drive in 40 C Ambient amp Open Drive in 502C Ambient Derating Factor for Enclosed Drive in Ambient between 412 C amp 50 Figure F 1336 050 and BX060 Figure G 1336F A040 B075 C075 Figure H 1336F A050 100 Figure 1336F C100 Figure J 1336 060 B 125 BX150 Figure 1336 125 100 95 90 of Drive 85 Rated Amps 80 75 70 65 2 1 1 4 Carrier Frequency in kHz 100 98 of Drive 96 Rated Amps _ 92 90 t 4 Carrier Frequency in kHz 100 95 90 of Drive 85 Rated Amps 80 75 70 65 1 2 4 Carrier Frequency in kHz 100 98 of Drive 26 Rated Amps 94 92 90 1 1 4 Carrier Frequency in kHz 100 95 90 of Drive 85 Rated Amps 80 75 70 65 I 1 4 Carrier Frequency in kHz 100 95 90 of Drive 85 Rated Amps 80 75 70 65 1 1 2 4 40 6 Carrier Frequency in kHz Pre Installation Derating G
49. BX150C AJ E 150 199 0 B150C AA _ B150C A 200 263 0 B200C AA B B200C A 250 325 0 B250C AA B250C A F 250 325 0 BP250C AA 250 300 360 0 BP300C AA 300 350 425 0 BP350C AA BP350C AJ 400 475 0 BP400C AA 400 450 527 0 450 _ G 300 360 0 B300C AA 300 350 425 0 350 _ B350C AJ 400 475 0 B400C AA _ B400C AJ 450 525 0 B450C AA B450C AJ 500 590 0 B500C AA 500 600 670 0 B600C AA B600C AJ 1 The basic drive does not include a Control Power Transformer If local 115V AC power is not available refer to options CF CP and CT 2 The drive rating is based on a nominal voltage of 240 volts and a carrier frequency of 4kHz at altitudes of 1 000 meters or less Refer to the Drive Derating Guidelines in the Standard Drives section 3 The drive rating is based on a nominal voltage of 480 volts and a carrier frequency of 4kHz at altitudes of 1 000 meters or less Refer to the Drive Derating Guidelines in the Standard Drives section 107 Selection Guide 460V Variable Torque Drives and Enclosures 1 24 NEMA Type 1 IP20 NEMA Type 4 IP65 NEMA Type 12 IP54 Drive Rating General Purpose Resists Water and Dust Industrial Use Dust Tight Nominal HP Code Code Code Al 1 2 12 BF05V AA BF05V AF BF05V A 3 4 17 BFO7V AA BFO7V AF BF07V A 1 23 BF10V AA BF10V AF BF10V A 1 2 3 0 BF15V AA BF15V AF BF15V A A2 2 40 BF20V AA BF20V AF BF20V A
50. Bypass lt 2 gt A1 IP 54 NEMA Type 12 350 450 HP 1270 0 IP 20 NEMA Type 1 A IP 54 NEMA Type 12 350 450 HP 50 00 IP 54 NEMA Type 12 250 300 HP O e Allow 152 4 6 00 for Air Flow lt DRIVE OPTION DRIVE OPTION ENCLOSURE ENCLOSURE SUPPLIED AS STANDARD ET 762 0 508 0 30 00 20 00 406 4 060077 50 8 50 8 2 00 2 00 X L 279 4 11 00 x 26 00 gt lt 2 00 400 lt 1600 gt 11 56 7 50 Za VA i i 1 69 3 50 0 625 DIA 6 MTG HOLES 15 00 25 00 gt Three Phase Ratings All Dimensions in Millimeters and Inches 101 6 4 00 381 0 254 0 y CL Me 050 gt he 10 0 gt A e 8 a co Avs 0 2286 0 P 90 00 y 0 635 25 00 Option Mounting Location Mountable CB CF CP CT DS D1__ D2 D3 D5_ E__ D61 Option List 091 GM C GD_C GMS C HA HJ HN__ JC JT K L EL M M N3 UL Consult Factory JL J S LQ LT LR LW MP12N MP18A MP12A MP18N Option List MQ2 MQ3 Removable Lifting Angle Vented Areas P20 NEMA Type 1 Only Air Conditioner I
51. C Control Power On Option J F Drive Fault GIONS Option Drive Run Figure2 250 600 HP 250 325A 600 HP 350 600 HP oNo Isolated Analog Input This option provides an isolator for the analog input speed reference to the drive and is mounted and Option N3 wired in the drive enclosure The default as shipped setting will be to accept a remote 4 20mA input The isolator may be reconfigured by the user to accept any input signal in the range of 0 256V DC or 0 100mA with or without offset and optional inverse operation This option is generally required when both a local speed pot and a remote speed input are utilized Analog Inputs Outputs 7 All isolated 1 0 are designed with full galvanic isolation This results in an isolation withstand capability of 200V AC from each channel to True Earth TE ground and between channels Analog Interface Port A Choose One Analog Interface Port B Choose One LA2C Two Isolated Configurable Inputs LA1C Single ended Non isolated Configurable or Pot amp LAGC One Isolated Bi polar Input 10V or 2 Single ended Non isolated Outputs 20mA and one Isolated Thermistor 1 Configurable 1 20mA Input LA3C Two Isolated Configurable Outputs LA7C One Isolated Bi polar Input 10V and LA4C One Isolated Configurable Input amp Output One Isolated Configurable Input LA5C One Isolated Pulse Input amp Output and One Single ended Non isolated Configurable Output 3 15
52. DEFAULT MOP MASK 1111111 DEFAULT 200 FLUX UP 0 0 SEC DEFAULT DC HOLD LEVEL 0 DEFAULT DATA IN A1 0 DEFAULT 201 MOTOR OL FAULT ENABLED DEFAULT RUN ON POWER UP DISABLED DEFAULT DATA IN A2 0 DEFAULT 203 VT SCALING DISABLED DEFAULT RESET RUN TIME 1 0 SEC DEFAULT DATA IN B1 0 DEFAULT 204 GROUND WARNING DISABLED DEFAULT MINIMUM FREQ 0 0 HZ DEFAULT DATA IN B2 0 DEFAULT 206 ALARM MASK 1 111111111111171 DEFAULT BASE FREQ 60 HZ DEFAULT DATA IN 0 DEFAULT 213 CONFIG 00000000 DEFAULT BASE VOLTAGE RATED DEFAULT DATA IN C2 0 DEFAULT 215 REF SELECT PRESET 1 DEFAULT MAXIMUM FREQ 60 HZ DEFAULT DATA IN D1 0 DEFAULT 216 PI Fdbk SELECT ANALOG IN 1 DEFAULT B MAXIMUM VOLTAGE MAX RATED DEFAULT DATA IN D2 0 DEFAULT 221 Ki_ PROCESS 128 DEFAULT MOP_INCREMENT 1 1 HZ SEC DEFAULT DATA QUT AT 0 DEFAULT 222 KP PROCESS 256 DEFAULT JOG FREQUENCY 10 0 HZ DEFAULT DATA OUT A2 0 DEFAULT 223 PI NEG LIMIT 8 33 DEFAULT ANALOG OUT 0 SEL FREQUENCY DEFAULT DATA OUT 0 DEFAULT 224 PI POS LIMIT 48 33 DEFAULT PRESET FREQ 1 0 0 HZ DEFAULT DATA OUT 2 0 DEFAULT PI PRELOAD 0 00 HZ DEFAULT PRESET FREQ 2 0 0 HZ DEFAULT DATA OUT 0 DEFAULT SHEER PIN FAULT DISABLED DEFAULT PRESET FREQ 3 0 0 HZ DEFAULT DATA OUT C2 0 DEFAULT ADAPTIVE 1 LIMIT ENABLED DEFAULT ACCEL TIME 2 10 0 SECS DEFAULT DATA OUT D1 0 DEFAULT LLOSS RESTART TRACK VOLTS DEFAULT DECEL TIME 2 10 0 SECS DEFAULT DATA OUT D2 0 DEFAULT FREQ REF SaROOT DISABLED DEFAULT SKIP FREQ 1 400 HZ DEFAULT
53. F02 Aux Fault the drive and shut the output off ignoring the programmed stop mode Clear Fault If drive has faulted closing this input will clear the fault Digital Pot M OP These inputs increase up or decrease down the drive commanded frequency when M OP M otor Operated Up Down Potentiometer is chosen as the frequency command source The rate of increase decrease is programmable Forward Closing these inputs Forward or Reverse commands the corresponding direction If both inputs are open or both are closed the current direction is maintained Forward Reverse Available only with three wire control Closing this input commands reverse direction and opening this input commands forward direction J og Closing this input starts the drive and causes it to run at programmed jog frequency Opening this input stops the drive using the programmed stop mode Line Loss Closing this input gives exclusive control of drive logic to the inputs at terminal blockTB3 No other devices may issue logic commands excluding Stop to the drive Output Contactor Closed Output contactor auxiliary contact indicates that the output contactor is closed Reverse See Forward above PI Enable Enables the output of the process PI loop PI Reset Opening this input clamps the process PI integrator value at zero Closing this input allows the integrator to continue to operate Run Reverse Available only with two wire control Closing this input issu
54. M ode Output Pulses Current Angle Heatsink Temp Set Defaults DC Bus Memory eas Volts EEPROM Cksum Ratings Rated Volts Rated Amps Rated kW Firmware Ver Cntrl Board Rev Rated CT Amps Rated CT kW Rated VT Amps Rated VT kW Drive Type S gt CONT Direction Mask Start M ask og Mask Reference M ask Accel M ask Decel M ask Fault M ask OP Mask Traverse M ask Sync Mask Logic M ask Local M ask ask 1 Alarm Mask 2 Stop Owner Direction Owner Start Owner 100 Owner Reference Owner Accel Owner Decel Owner Fault Owner No 82 226 201 268 40 81 91 207 143 144 145 146 286 173 287 39 204 330 331 332 59 236 316 60 269 205 270 55 62 65 69 26 141 142 67 72 10 64 212 272 1n n 251 148 149 198 199 61 94 95 96 97 98 99 100 101 305 308 92 93 206 271 102 103 104 105 106 107 108 109 Disp Units Min Max Values Faul t Code Fault Code Fault Code Fault Code Se Se Se Se ngs ings ings ings Fault Code Se Se Se Para Se Se 0 01 Bit 1 ings ings ings E ings ings Hertz 0 Fault Code Bit 1 0 Fault Code Settings Settings Settings 0 1 Volts Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Bit 1 Setti 0 01 Setti Setti Setti Setti 1 Pu 10 PIC 1 Vol 1 Vol Setti one kW None None 01 kW 0 1A
55. NEMA 1 22 IP 65 54 NEMA Type 4 12 Dimensions 28 IP 20 NEMA Type 1 Bottom View Dimensions 29 Mounting 31 Input 31 ACS pply SoUICe s ing irik EET e OE 43 X 32 Power Wiring Bla ptt EY ek Ey eter 36 Control and Signal Wiring 40 General Wiring Information 40 Terminal Block 1B2 rtt orbe teer eene 41 Terminal Block 3 41 Encoder Inputs ERR RA d 45 Pulse OUtDUE A ay ev D e ee He d 46 Digital Outputs au sa a aqa atas 46 Analog 5 5 4 Motor Gables a 50 User Supplied 55 Derating 56 1336 PLUS II Remote Device 61 1336 PLUS IT SELECTION GUIDE I een 63 Catalog Number Explanation 63 Constant Variable Torque Drives and Enclosures 64 Language 4 co ceo a a e LER 65 Dynamic Brake Kits isses 65 Factory Installed 66 Field Installed 67 Configured D
56. Overload Class 20 MP12A 12 Pulse Front End with Auto Transformer MP12N 12 Pulse Front End with solation Transformer se Front End with ransformer e Au MP18N 18 Pulse Front End with olation Transformer 2 MQ2 Line Metering System Deluxe MQ3 Line Metering System Basic M hermal Overload Class 10 MX3 Conformal Coating N3 Analog Input Isolator N4C Transducer Local Command N4T Transducer Local Trim N5C Transducer Remote Command N5T Transducer Remote Trim N6A RTD Protection 120 Ohm Nickel N7A RTD Protection 10 Ohm Copper N8A RTD Protection 100 Ohm Platinum UL UL Panel Recognition All Base Drive Catalog Numbers listed on the A Standard Drive Selection Guide following pages include Drive Branch Fusing A 115V AC Control Interface Card Option L6 Enclosure of Choice 230V Constant Torque Drives and Enclosures NEMA Type 1 IP20 NEMA Type 4 IP65 NEMA Type 12 IP54 Drive Rating General Purpose Resists Water and Dust Industrial Use Dust Tight Nominal HP Code Code Code Al 1 2 23 AF05C AA AF05C AF AF05C A 3 4 3 0 AFO7C AA AFO7C AF AF07C A 1 45 AF10C AA AFI0C AF AF10C A A2 1 6 0 AFI5C AA AFISC AF AF15C A 2 8 0 AF20C AA AF20C AF AF20C A A3 3 12 0 AF30C AA AF30C AF AF30C A 5 18 0 AF50C AA AF50C AF AF50C A B1 71 2 27 0 007 A007C AF 007 2 10 34 0
57. PROCESS 1 PAR 1 DEFAULT SAVE MOP REF DISABLED DEFAULT c SKIP FREQ 2 400 HZ DEFAULT PROCESS 1 SCALE 1 DEFAULT HOLD LEVEL SEL DC HOLD Lvi DEFAULT SKIP FREQ 3 400 HZ DEFAULT PROCESS 1 TXT 1 V DEFAULT CURRENT LMT SEL CURRENT LMT DEFAULT SKIP FREQ BAND 0 HZ DEFAULT PROCESS 1 TXT 2 DEFAULT ANALOG OUT 0 Abs ENABLED DEFAULT CURRENT LIMIT 150 DEFAULT PROCESS 1 TXT 3 L DEFAULT ANLG OUT O LO 0 0 DEFAULT OVERLOAD MODE NO DERATING DEFAULT PROCESS 1 TXT 4 T DEFAULT ANLG OUT 0 HI 100 0 DEFAULT OVERLOAD AMPS 115 RATED A DEFAULT PROCESS 1 TXT 5 gt DEFAULT ANLG IN O LO 0 0 DEFAULT FLT CLEAR MODE ENABLED DEFAULT PROCESS 1 TXT 6 m DEFAULT ANLG IN O HI 100 DEFAULT LINE LOSS FAULT DISABLED DEFAULT PROCESS 1 TXT 7 ra DEFAULT ANLG IN 1 LO 0 DEFAULT MOTOR TYPE INDUCTION DEFAULT PROCESS 1 TXT 8 m DEFAULT ANLG IN 1 HI 100 DEFAULT SUP 1 0 HZ DEFAULT 4 20mA LOSS SEL MIN ALARM DEFAULT INPUT MODE STATUS 3 WRE DWELL FREQUENCY 0 0 HZ DEFAULT MAXIMUM SPEED 400 HZ DEFAULT TB3 TERM 22 SEL REV FOR DEFAULT D DWELL TIME 0 SECS DEFAULT ENCODER TYPE QUADRATURE DEFAULT TB3 TERM 23 SEL JOG DEFAULT PWM FREQUENCY 4 KHZ DEFAULT ANLG OUT O OFFSET DISABLED DEFAULT TB3 TERM 24 SEL AUX FAULT DEFAULT ENCODER PPR 1024 PPR DEFAULT FLYING START EN DISABLED DEFAULT TB3 TERM 26 SEL SPEED SEL 3 DEFAULT LANGUAGE ENGLISH DEFAULT FSTART FORWARD 60 HZ DEFAULT TB3 TERM 27 SEL SPEED SEL 2 DEFAULT START BOOST 0 VLTS DEFAULT FSTART REVERSE 0 HZ DEFAULT TB3 TERM 28 SEL SPE
58. PSI Transducer Local Feedback This option provides a 4 wire 3 15 PSI transducer mounted inside the enclosure The transducer accepts Option N4C Speed Command air pressure only with a 1 4 NPT fitting and generates an isolated output of 4 20mA proportional to Option N4T Speed Trim the input pressure The 4 20mA signal is fed to the drive as either a speed command or speed trim 3 15 PSI Transducer Remote Feedback This option provides a 2 wire 3 15 PSI transducer as a loose item for remote mounting The transducer Option N5C Speed Command accepts air or fluid pressure with a 1 4 NPT fitting and generates an isolated output of 4 20mA proportional Option N5T Speed Trim to the input pressure The 4 20mA signal is fed to the drive as either a speed command or speed trim Communication Options Single Point RIO 67 RIO communication options provide a single point remote 1 0 interface board The board can be Option GM 1C GD1C or GM S1C configured for 1 4 1 2 3 4 or full rack with a baud rate of 57 6 115 or 230 kBaud The remote 1 0 Board may be set up by the user to control drive logic control speed reference commands monitor drive status and monitor drive logic 5 232 422 485 DF1 or DH485 Protocol 7 Communication interface module Option GM 2C GD2C or GM S2C DeviceNet 6 7 DeviceNet to scanport module Option GM 5C GM S5C GM 6C GM S6C or GU6C 1 The Bypass Operation capability provided by this option does not allow f
59. Programmer Controller with Analog Pot 1201 HAS1 Programmer Controller with Analog Pot amp Upload Download Capability 1201 HCS1 Programmer Controller with Digital Pot 1201 HAS2 Programmer Controller with Digital Pot amp Upload Download Capability 1201 HCS2 HIM Hand Held IP20 NEM A Type 1 IP20 NEM A Type 1 E G Frame Requires Cable Below Enclosures Programmer Only 1201 HAP Programmer Controller w Analog Speed Pot 1201 HA1 Programmer Controller w Digital Speed Pot 1201 HA2 HIM IP66 NEMA 12 UL Type 4X Indoor IP66 NEM A Type Programmer Only 12 UL Type 4X 1201 Programmer Controller w Digital Speed Pot Indoor Enclosures 1201 HJ 22 Option Cable Kit Connect to Comm Port All HIM s not mounted 0 33 M eters 1 1 Feet on the drive chassis 1202 C03 1 Meter 3 3 Feet 1202 C10 3 Meter 9 8 Feet 1202 C30 9 Meter 29 5 Feet 1202 C90 Door M ount Bezel Kit IP20 NEM A Type 1 User Supplied IP20 1201 DMA NEMA Type 1 Enclosures and HIM 1 This option may be used on an IP65 or IP66 rated enclosure to meet watertight indoor applications 2 Requires a Communication Option Cable 1202 Cxx to be functional A maximum of one Communication Option may be drive mounted 4 Each Flex 1 0 SCAN port M odule requires 1 1203 FB1 and 1 1203 FM 1 5 Adapter is programmed configured with Windows HyperTerminal via RS 232 using the 1203 SFC cable purchased separately or using a compatible network specific software tool
60. Read Only None Read Only None Default Group Param No Owners continued Disp Units Parameter List Min Max Values Default MOP Owner 110 Bit 1 0 Read Only one Traverse Owner 306 Bit 1 0 Read Only None Sync Owner 309 Bit 1 0 Read Only None Local Owner 179 Bit 1 0 Read Only one Data In 8 111 118 Parameter None 0 Data Out 8 119 126 Parameter None 0 Alt Type 2 Cmd 315 Settings Selection Parameter Disabled Process 1 Par 127 Parameter None 1 Process 1 Scale 128 Numeric 327 67 1 00 Process 1 Txt 1 8 129 136 ASCII Code None Volts Process 2 Par 180 Parameter None 54 Process 2 Scale 181 Numeric 327 67 1 00 Process 2 Txt 1 8 182 189 ASCII Code None Amps Encoder Feedback Speed Control 71 Settings Selection Parameter Slip Comp Encoder Type 152 Settings Selection Parameter Quadrature Encoder PPR 46 Factor 1 4096 1024 PPR aximum Speed 151 lHertz 0 400 Hz 400 Hz otor Poles 153 1Pole Read Only one Speed KI 165 Numeric 0 20000 100 Speed KP 164 Numeric 0 20000 0 Speed Error 166 0 01 Hz 8 33 Base Frequency one Speed Integral 167 0 01 Hz 8 33 Base Frequency one Speed Adder 168 0 01 Hz 48 33 Base Frequency one Slip Adder 255 0 01 Hz 48 33 Base Frequency one otor NP RPM 177 1 RPM 60 24000 RPM 1750 RPM otor NP Hertz 178 1 Hertz 1 400 Hz 60
61. Read or W rite of data type not supported 12 Overcurrent Fit Overcurrent is detected in instantaneous overcurrent trip circuit 13 Ground Fault A current path to earth ground in excess of 100A has been detected at one or more of the drive output terminals 14 Option Error An analog option board has been installed in the wrong slot 15 Motor Thermistor An analog option board with thermistor input is installed and the value at the terminals is less than 60 ohms or greater than 3300 ohms 16 Bipolar Dir Fit 3 Wire Bipolar input is the active frequency reference and direction control is not possible 2 Wire Run Forward or Run Reverse commands attempt direction control but bipolar input is not masked from direction control 19 Precharge Fault The precharge device was open 20ms after the end of a line loss condition or the bus charging alarm remains on for 20 seconds 22 DSP Reset Fault Power up has been attempted with an Open Stop contact or Closed Start contact 23 Loop Overrn Fault An overrun of the 2 5ms control loop has occurred 24 Motor Mode Fault fault has been detected originating from the Control Board 26 Power Mode Fault internal power mode variable received an incorrect value 29 Hertz Err Fault This fault indicates that there is not a valid operating frequency 30 Hertz Sel Fault A frequency select parameter has been programmed with an out of range value 32 EEPROM Fault EEPROM is being programmed and will not write a new value 33 Max Retries Fault Drive
62. Selection Paramete Disabled 4 20mA Loss Sel 150 Settings Selection Paramete Min Alarm Anlg Out 0 Sel 25 Settings Selection Paramete Frequency Anlg Out 0 Offset 154 Disabled Selection Paramete Disabled Anlg Out 0 Abs 233 Disabled Selection Paramete Enabled Anlg Out 0 Lo 234 0 1 800 0 0 0 Anlg Out 0 Hi 235 0 1 800 0 100 0 Anlg Out 1 Sel 274 Settings Selection Paramete Current Anlg Out 1 Abs 271 Enabled Selection Paramete Enabled Anlg Out 1 Offset 278 Enabled Selection Paramete Disabled Anlg Out 1 Lo 275 0 1 800 0 0 0 Anlg Out 1 Hi 276 0 1 800 0 100 0 Slot A Option 252 Settings Selection Paramete Standard Slot B Option 253 Settings Selection Paramete Standard Firmware 3 001 amp later Firmware 4 001 amp later Group Param Fault Buffer 0 Fault Buffer 1 Fault Buffer 2 Fault Buffer 3 Clear Fault Cur Lim Trip En Shear Pin Fault otor OL Fault otor Therm Flt ine Loss Fault wn Fuse Flt ow Bus Fault ault Data Motor M ode Power Mode Fault Frequency Fault Status 1 Fault Status 2 Fault Alarms 1 Fault Alarms 2 Fit Clear Mode ound Warning hase Loss M ode hase Loss Level echarge Fault agnostics ive Status 1 ive Status 2 plication Sts ve Alarm 1 V c c wr 1n coc ive Alarm 2 hed Alarms 1 hed Alarms 2 nput Status Freq Source Freq Command Drive Direction Stop M ode Used otor Mode Power
63. Slot A the 5V pot reference will not be Single Ended Non lsolated Isolated Isolated available If a 5V source is required it must be user supplied Output 0 250 kHz 250 kHz 250 kHz 2 Standard Analog Input 2 is maintained at this terminal configure with J 11 10V or 20mA Pulse Output Pulse In Pulse In Analog 1 0 Option Slot A Analog 1 0 Option Slot B 4 Pre Installation Analog Inputs Outputs All isolated 1 0 is designed with full galvanic greater than 10 meg ohms less than 50 pf isolation This results in an insulation withstand capability of 200V AC from each channel to True Earth TE ground and between channels The Analog 1 0 Option Boards are summarized below LA4C Isolated Output Option Board Type Slot Description LA1 Dual Analog Output B This option replaces both standard analog outputs with two single ended high resolution LA1C analog outputs Analog Output 0 is configurable to 0 10V or 0 20 mA operation while Analog Output 1 is for 0 20 mA operation only This option maintains access to the standard non isolated Analog Input 2 through TB2 6 Configuration remains with jumper J 11 LA2 Dual Isolated Input A This option replaces the two standard analog inputs with two galvanically isolated analog LA2C 2 inputs Both analog input channels are configurable for 0 10V or 0 20 mA operation LA3 Dual Isolated Output B Replaces Analog Input 2 and both standard analog outputs with
64. Voltage 20 1 Volt 25 120 Drive Rated Voltage Drive Rtd Volts Run Accel Volts 317 1 50 100 100 Sync Loss Sel 310 Settings Selection Parameter Disabled Sync Loss Gain 311 Numeric 0 100 40 Sync Loss Comp 31 1Volt 0 25 of Drive Rtd Volts 0 Volts Sync Loss Time 312 1Sec 1 30 Sec 5 Sec PWM Comp Time 333 None 20 90 80 Break Freq 334 0 01 Hz 0 30 Hz 0 Hz Firmware 3 001 amp later Firmware 4 001 amp later m o Fault List Over 40 faults can be displayed through the Human Interface M odule The display indicates a fault by showing a brief text statement relating to the fault that will be displayed until a drive reset is initiated Fault No DisplayName Fault Description 02 Auxiliary Fault The auxiliary input interlock is open 03 Power Loss Fault DC bus voltage remained below 85 of nominal for longer than 500ms 04 Undervolt Fault DC Bus voltage fell below the minimum value 05 Overvolt Fault Dc bus voltage exceeded maximum value 06 Motor Stall Fault Current remained over 150 of Rated Amps for more than 4 seconds 07 Overload Fault Internal electronic overload trip 08 Overtemp Fault Heatsink temperature exceeds a predefined value of 90 C 195 F 09 Open Pot Fault An external pot is connected and the common side of the pot is open 10 Serial Fault A SCAN port adapter has been disconnected and the Logic M ask bit for that adapter is set to 1 11 Op Error Fault A SCAN port device requests a
65. Y 940 3990 4930 C300 300 Figure AB amp AC 926 5015 5941 C350 5 350 Figure AB amp AC 1000 5935 6935 CP CPR350 350 Figure Z 580 6125 6705 C400 400 Figure AB amp AC 1430 7120 8550 CP CPR400 400 Figure AA 711 7000 7711 C450 450 Figure AB amp AC 1465 8020 9485 C500 5 500 Figure AB amp AC 1500 8925 10425 C600 5 600 Figure AB amp AC 1610 10767 12377 Pre Installation Derating Guidelines Drive ratings can be affected by a number of factors If more than one factor exists derating percentages must be multiplied For example if a 14 Amp drive B007 is installed at a 2 000 m 6 600 ft altitude and has a 2 high input line voltage the actual amp rating will be 14 X 94 Altitude Derate X 96 High Line Derate 12 6 Amps Ambient Temperature Carrier Frequency mamam Standard Rating for Enclosed Drive in 40 C Ambient amp Open Drive in 509C Ambient mem Derating Factor for Enclosed Drive in Ambient between 41 amp 50 Figure A 1336F AQF05 AQF75 and BRF05 BRF200 of Drive Rated Amps Figure B B36F A010 and B 020 of Drive Rated Amps Figure C 1336F B 025 of Drive Rated Amps Figure D 1336F A015 and B030 of Drive Rated Amps Figure E 1336F B 040 and B X040 of Drive Rated Amps 100 98 96 94 92 90 71 I I I 1 I 2 4 6 8 10 12 Carrier Frequency in kHz 100 98 96 94 92 90 1 2 4 6 Carrier Frequency in kHz 100 96
66. and the Derating Guidelines on Pages 56 60 Displacement Power Factor 1 Frame 0 80 Standard 0 95 with Optional Inductor A4 Frame amp Up 0 95 Standard Efficiency 97 5 at rated amps nominal line volts M aximum Short Circuit Current Rating 200 000A rms symmetrical 600 volts when used with AC line fuses specified on Page 37 Control Specifications Method Sine coded PWM with programmable carrier frequency Ratings apply to all drives A Frame 2 10 kHz Drive Rating based on 4kHz B Frame 2 8kHz Drive Rating based on 4 kHz C amp D Frame 2 6kHz Drive Rating based on 4 kHz E Frame amp Up 2 6kHz Drive Rating based on 2 kHz refer to frame designations on Page 22 and the Derating Guidelines on Pages 56 60 Output Voltage Range 0 to rated voltage Output Frequency Range 0 to 400 Hz Frequency Accuracy Digital Input Within 0 01 of set output frequency Analog Input Within 0 4 of maximum output frequency Selectable M otor Control sPiedlges vecron Control with full tuning Standard V Hz with full custom capability 07 SO Accel Decel Two independently programmable accel and decel times Each time may be programmed from 0 to 3600 seconds in 0 1 second increments 1 Intermittent Overload Constant Torque 150 of rated output for 1 minute Variable Torque 115 of rated output for 1 minute Current Limit Capability Proactive Current Limit programm
67. applications with switching frequencies up to 20 kHz They have a UL approved dielectric strength of 4000 volts opposed to a normal rating of 2500 volts The first two and last two turns of each coil are triple insulated to guard against insulation breakdown resulting from high dv dt When using motor line reactors it is recommended that the drive PWM frequency be set to its lowest value to minimize losses in the reactors Important By using an output reactor the effective motor voltage will be lower because of the voltage drop across the reactor this may also mean a reduction of motor torque User Supplied Enclosures 1336 PLUS II drives installed in user supplied enclosures may be mounted within an enclosure or may be mounted to allow the heatsink to extend outside the enclosure Use the following information in combination with the enclosure manufacturer s guidelines for sizing 54 Pre Installation User Supplied Enclosures Base perati Derate Heat Dissipation 1 Cat No Amps 1 Curve 2 3 Drive Watts 2 3 4 Heatsink Watts 2 Total Watts 2 Base Derate Amps are 200 240V DRIVES based on nominal voltage 240 480 600V If igure AQF10 45 Figure A 7 2 5 input voltage exceeds AQF15 6 0 Figure A 21 42 63 Drive Rating Drive AQF20 8 0 Figure A 25 56 81 AQF30 12 Figure A 33 7 105 Output must be derated AQF50 18 Figure 42 116 158 i AQFIS 2 Figure A 58 186 244 Refer to Figure AE A007 2
68. can be reported through the Human Interface M odule or through the SCAN port Communications Port Fault diagnostic routines are started each time the 1336 PLUS IT is powered up Throughout the entire run sequence the drive will continue to look for potential fault conditions To allow real time preventive maintenance drive output current and control conditions can be selectively monitored while the drive is running The operator is made aware of alarm conditions such as current limit bus voltage status motor overload or drive overload before the drive reaches a fault level Should a fault occur plain language diagnostic messages will help identify and isolate the problem allowing personnel to take quick corrective action Packaging Small size conserves expensive panel space Planer Construction eliminates most internal cables and connectors Increases reliability Laminar Bus Design reduces internal inductance thereby reducing snubber losses and improving IGBT performance Removable Human Interface provides simplicity of programming and flexibility of operation Thermal Dissipation Management Design and extensive infra red testing minimizes hot spots to maximize reliability NEMA and European standards Designed for acceptability throughout the world IP 65 amp 54 NEMA Type 4 amp 12 configurations accommodated with heat sink through the back design IGBT s Insulated Gate Bipolar Transistors Quiet motor operat
69. must be 10 meters 33 feet or less TERETE gt A Vx Ea i 2 t M X 5 re EI Total cable distance between each device amp drive must be 10 meters 33 feet or less HIM or Other Remote Device Maximum Cable Length M aximum Cable Length Meters 210 X in Meters 210 X eno Port Expansion Option 1203 562 HIM or Other Remote Device M aximum Cable Length 10 Meters 61 Pre Installation 1336 PLUS II Selection Guide 1336 PLUS II Selection Guide 1336F A007 AA EN LA6 HAS1 GM1 BULLETIN NO VOLTAGE RATING ENCLOSURE LANGUAGE CONTROL HUMAN COMMUNICATION M UST BE SPECIFIED MUST BE SPECIFIED 1 INTERFACE INTERFACE CARD OPTIONAL 2 OPTIONAL 2 OPTIONAL 2 1 A Language M odule must be specified with each drive At least one of either a Control Interface Human Interface or Communication Card Option will be required to make the drive functional The chosen option s may be ordered factory installed or as add on kits 63 1336 PLUS II Selection Guide Constant Variable Torque Drives and Enclosures 200 240V Drive Rating Open NEMA Type 1 NEMA Type 4 NEMA Type 12 Constant Torque IP00 IP20 IP65 IP54 Amps kW CT HP VT HP 2 No Enclosure General Purpose Resist Water Dust Industrial Use 23 0 37 05 05 AQF05 AN AQF05 AA AQF05 AF AQF05 A 3 0 0 56 0 75 0 75 AQFO7 AN AQFO7 AA AQFO07 AF AQF07 A
70. option provides a means to manually or automatically upon a drive fault switch a single motor from drive control to bypass across the line operation An SMC Plus with the pump control option solid state controller provides soft start and smooth acceleration capability when first switching to bypass operation and smooth deceleration when stopping in bypass Separate Bulletin 100 where available contactors are provided for drive output SMC output and total bypass All contactors are electrically interlocked Door mounted Drive Off Bypass and Auto Bypass Off On selector switches are provided Optional Bypass Mode and Auto Bypass Enable On pilot lights are available option D42 Bypass Mode Circuit Breaker Option CC This option is for disconnecting power only and is not intended for branch circuit protection Branch circuit protection is provided by the bypass fusing option FM M ost ratings will utilize a motor circuit protector M CP type breaker Where M CP s are not available a circuit breaker will be provided All switches include handle operators door interlocking and are padlockable Bypass Mode Non Fused Disconnect Switch Option DT This option is for disconnecting power only and is not intended for branch circuit protection Branch circuit protection is provided by the bypass fusing option FM An Allen Bradley Bulletin 194R rotary switch is provided on A C frame drives A flange mount or rotar
71. output relays for alarm trip and fault Customer contacts are rated 5A 250V AC res Option N6A 120 Ohm Nickel RTD Option N 7A 10 Ohm Copper RTD Option N8A 100 Ohm Platinum RTD Power Conditioning Options NEMA Type 1 Line Reactor 5 This option provides an open core line reactor which mounts inside the NEMA Type 1 drive enclosure Option LR Input This option may require a larger enclosure than the standard Option LQ Output Reactor Specifications Iron core 3 impedance Class H insulation 115 C rise copper wound 50 60 Hz NEMA Type 4 12 Line Reactor 5 This option provides an open core line reactor which mounts inside NEM A Type 4 or 12 drive enclosures Option LT Input This non ventilated construction will often require a larger enclosure than the same option Option LW Output NEM A type 1 box Reactor Specifications Iron core 3 impedance Class H insulation 115 C rise copper wound 50 60 Hz Common Mode Choke 5 This option will help reduce the common mode noise at the drive output and help guard against Option CM nuisance tripping of the drive caused by capacitive leakage effects Capacitive currents are larger at higher PWM frequencies 6 Options Control and Feedback Options Auxiliary Contacts Contacts Option M Alarm Available 230VAC 460VAC CT 460VAC VT 575V AC Option J At Speed Figure 1 0 5 125HP 0 5 200 0 5 250 292A HP 1 300 HP Option J
72. permanently connected and not switched the general rules for impedance mismatch see above apply 3 If the AC line frequently experiences transient power interruptions or significant voltage spikes an isolation transformer or 5 reactors are recommended Refer to Unbalanced Distribution Systems on next page Pre Installation AC Supply Source 1336 PLUS II drives are suitable for use on a circuit capable of delivering up to a maximum of 200 000 rms symmetrical amperes 600 volts maximum when used with the AC input line fuses specified on Page 37 ATTENTION To guard against personal injury and or equipment damage caused by improper fusing use only the recommended A line fuses specified on Page 37 Unbalanced Distribution Systems This drive is designed to operate on three phase supply systems whose line voltages are symmetrical Surge suppression devices are included to protect the drive from lightning induced overvoltages between line and ground Where the potential exists for abnormally high phase to ground voltages in excess of 125 of nominal or where the supply ground is tied to another system or equipment that could cause the ground potential to vary with operation suitable isolation is required for the drive Where this potential exists an isolation transformer is strongly recommended Ungrounded Distribution Systems All 1336 PLUS II drives are equipped with an M OV M etal Oxide Varistor that provides voltage surge pro
73. the 1336 PLUS II offers optional encoder feedback This option provides closed loop speed regulation from no load to full load of 0 1 A feedback encoder and interface board L4E L5E or L6E with encoder inputs is required The encoder loss detection feature of the 1336 PLUS TI requires the use of L7E L8E or L9E Encoder 40 1 ja c 0 5 lt Slip Comp 40 5 None 5 43 Typical 1 1 1 1 1 1 1 1 1 1 0 10 20 30 40 50 60 70 80 90 100 of Load Slip Compensation of Speed 100 To develop torque in an induction motor rotor speed slips relative 4 With Slip to stator speed The amount of slip is proportional to the motor d Compensation load While this increased slip provides the necessary torque NC E load speed is sacrificed For those applications where this 98 lt 2 speed decrease is unacceptable the 1336 PLUS II offers Slip S lt 4 Without sip Compensation As load increases the drive automatically increases Compensation output frequency to provide needed motor slip without a decrease in speed The amount of compensation is proportional to the load 95 LLL increase allowing one setting for the entire speed range The 0 10 20 30 40 50 60 70 80 90 100 1336 PLUS II Slip Compensation function can provide typical of Load speed regulation of 0 5 Slip compensation is based on programmed motor flux instead of drive rated amps providing more accurate speed regulation
74. unsuccessfully attempted to reset a fault and resume running for the programmed number of tries 35 Neg Slope Fault Drive software detected a portion of the v hz curve with a negative slope 36 Diag C Lim Fit The Cur Lim Trip En parameter was enabled 38 Phase U Fault A phase to ground fault has been detected between the drive and motor in this phase 39 Phase V Fault A phase to ground fault has been detected between the drive and motor in this phase 40 Phase W Fault A phase to ground fault has been detected between the drive and motor in this phase 41 UV Short Fault Excessive current has been detected between these two output terminals 42 UW Short Fault Excessive current has been detected between these two output terminals 43 VW Short Fault Excessive current has been detected between these two output terminals 4 Xsistr Desat Fit Output transistor s operating in the active region instead of desaturation Frame C amp Above 48 Reprogram Fault The drive was commanded to write default values to EEPROM 49 Input Phase Flt The drive is operated on single phase power 50 Poles Calc Fault Generated if the calculated value of M otor Poles is less than 2 or greater than 32 51 Bgnd 10ms Over Microprocessor loop fault 52 Fgnd 10ms Over Microprocessor loop fault 53 EE Init Read Trouble reading EEPROM during initialization or gate drive board needs replacing 54 EE Init Value Stored parameter value out of range on initialization 55 Temp Sense Open Heatsink thermistor i
75. 0 30 00 36 00 1522 59 93 All dimensions in millimeters and inches WITHOUT OPTION BAY 916 36 06 7622 30 00 610 24 00 1336 PLI DRIVE 457 is II TD 18 00 305 12 00 152 6 00 0 0 152 6 00 12 00 18 00 24 00 30 00 36 00 BYPASS CIRCUIT BREAKER OR DISCONNECT SWITCH BYPASS MOTOR FUSES 305 457 610 76236 914 AUTO BYPASS LOGIC MOTOR GROUND TERMINAL LINE GROUND TERMINAL SIGNAL GROUND TERMINAL 95 Panel Layouts C Frame Drives 230V 15 22 kW 20 30 HP 460V 30 45 kW 40 60 HP 575V 18 5 45 kW 25 60 HP IP20 NEMA Type 1 1550 61 02 1372 54 00 1000 48 00 1000 42 00 914 36 00 762 30 00 610 24 00 457 18 00 305 12 00 152 6 00 96 WITH OPTION BAY 6 PLUS II VE STD 152 305 457 610 6 00 12 00 18 00 24 00 762 800 30 00 31 50 DRIVE CIRCUIT BREAKER OR DISCONNECT SWITCH CONTROL TRANSFORMER RELAY LOGIC VARIES COMMUNICATION OPTION CARD DRIVE OR PANEL MOUNTED
76. 0 BX040V B040V 50 C050C 80A 3 Bussmann J KS 80 _ _ _ _ 60 C060C 90A 3 Bussmann J KS 90 20 25 A020C A025C 50 60 B050C BX060C 60 BX060V 100A 3 Bussmann J 100 15 C075C 110A 3 Bussmann J KS 110 30 A030C 60 B060C 75 B060V E 125A 3 Bussmann J KS 125 40 A040C 75 B075C 100 BO75V 100 C100C 150A 3 Bussmann J KS 150 _ _ _ _ _ 125 125 175 3 Bussmann J KS 175 50 A050C 100 B100C 125 B100V 200A 3 Bussmann KS 200 150 C150C 225A 3 Bussmann KS 225 60 A060C 125 150 B125C B150C 150 8125V 250A 3 Bussmann KS 250 75 A075C 150 B150C 200 B150V _ _ 300A 3 Bussmann J KS 300 _ _ _ _ _ _ 200 200 350 3 Bussmann J KS 350 100 A100C 200 B200C 250 B200V 250 300 C250C CX300C 400A 3 Bussmann J KS 400 300 C300C 400A 3 Gould A2 70C400AT 125 125 250 B250C 250 B250V 450A 3 Bussmann KS 450 300 B300C 300 350 8X250V B300V 350 C350C 450A 3 Gould A3 70C450AT 250 BP250C 300 BP250V 450A 3 Gould A70QS 450 350 B350C 400 B350V 400 C400C 500A 3 Gould A3 70C500AT 300 BP300C 350 BP300V E 500A 3 Gould A 705 500 400 B400C 450 B400V 450 C450C 600A 3 Gould A3 70C600AT ES 350 400 BP350C BP400C 400 BP350V 600A 3 Gould 7005 600 2 450 BP450C 450 BP400V 700A 3 Gould A70QS 700 450 500 B450C B500C 500 600 B450V B500V 500 600 C500C C600C 800A 3 Gould A3 70C800AT _ _ 600 B600C _ _ _ _ 900A 3 Gould A3 70C900AT Options Suggested Power Distribut
77. 0 HP Terminal Designations A Tert Tr TE DC DC PE R 1 42 TLI3 U M1 V M2 W M3 aL BUS aL aL INPUT OUTPUT K n n 1 1 See Appendix B for detailed Dimensions To Motor H T To Motor Required 1 Required Branch Input Fusing Circuit Disconnect VW a 1 User supplied AC Input Line 38 Pre Installation Power Wiring TB1 rum 380 480V 187 336 kW 250 450 HP Terminal Designations R L1 5 12 T L3 PE U M1 V M2 W M3 OIO Lelle Eod 9g Input Fusing ie p c Required Branch ircuit Disconnec oO pm AC Input Line 2 LESS O ee DC DC typical terminal Brake Brake G 380 480V 224 448 kW 300 600 HP Terminal Designations Frame 500 600V 187 448 k
78. 00 149 60 150 A060 62 14 178 72 180 075 82 99 238 96 240 100 100 120 289 116 291 A125 112 134 322 129 325 280 Drives BRF05 0 9 1 0 0 9 11 BRF07 1 3 1 6 T 13 1 6 BRF10 17 21 26 17 21 BRF15 22 26 3 3 2 2 2 8 BRF20 3 0 3 7 46 3 0 3 8 BRF30 42 51 64 42 5 3 BRF50 6 6 8 0 10 0 6 7 8 4 BRF75 8 9 11 3 13 6 10 6 133 BRF100 10 8 13 6 16 4 12 8 16 1 BRF150 16 1 20 4 24 5 19 1 24 BRF200 18 23 28 22 27 B015 16 21 25 19 242 B020 21 26 32 25 31 B025 26 33 40 3l 39 B030 30 38 46 36 45 BX040 40 50 61 41 59 B040 38 48 58 48 60 B050 48 60 73 60 75 BX0601 62 15 61 77 B060 54 68 82 68 85 B075 69 87 105 84 106 B100 90 114 137 110 138 125 113 143 172 138 173 150 148 178 143 180 150 130 164 197 159 199 200 172 217 261 210 263 250 212 268 322 259 325 BP BPR250 212 268 322 259 325 250 212 268 322 259 325 300 235 297 357 287 360 235 297 357 287 360 350 271 350 421 339 425 BP BPR350 277 350 421 339 425 B400 310 3922 471 387 475 BP BPR400 310 392 471 378 475 B450 343 433 521 418 525 BP BPR450 347 438 527 424 532 B500 385 486 585 470 590 B600 431 552 664 534 670 1480 Volts Only 8 Variable Torque Input Input Output Output kVA Amp kVA Amp 240V Drives 11 2 8 0 9 23 14 3 5 12 3 0 22 54 18 4 5 2 9 73 2 4 6 0 3 9 9 7 3 2 8 0 5 7 14 3 4 8 12 8 5 21 3 7 2 18 9 0 22 6 8 8 22 10 23 8 8 22 14 35 14 34 20 49 19 48 26 63 26 65 31 75 31 71 33 19 32 80 49 119 48 120 62 149 60 150 74 178 72 180
79. 0V 47571 12 48 6 BF50C 6 6 8 10 6 7 8 4 BF50V 70 85 107 72 9 B007C 8 11 13 10 125 5 BXO07V 8 11 13 10 125 BF75C 95 116 145 112 14 5 BF75V 122 147 18 5 13 9 175 B010C 11 14 17 13 16 1 0 B007V 9 12 14 11 14 BF100C 12 2 14 7 18 5 13 9 175 10 BF100V 17 1 20 7 26 19 9 25 B015C 16 21 25 19 242 15 B010V 14 18 17 21 B020C 21 26 32 25 31 20 B015V 18 23 28 22 27 B025C 26 33 40 3 39 25 B020V 23 29 35 27 34 B030C 30 38 46 36 45 30 B030V 34 49 38 48 BX040C 40 50 61 47 59 40 BX040V 40 50 61 47 59 B050C 48 60 73 60 15 50 B040V 41 52 63 52 65 BX060C 62 75 61 11 60 BX060V 62 75 61 77 B060C 54 68 82 68 85 B075C 69 87 105 84 106 75 B060V 61 77 93 76 96 B100C 90 114 137 110 138 100 075 78 99 9 96 120 B125C 113 143 172 138 173 125 B100V 98 124 149 120 150 BX150C 148 178 143 180 150 125 117 148 178 143 180 B150C 130 164 197 159 199 B200C 172 217 261 210 263 200 B150V 157 198 238 191 240 B250C 212 268 322 259 325 250 8200 191241 290 233 292 _ _ _ _ 250 B250V 2122008 322 259 325 BP250C 2122008 322 259 325 _ _ B300C 228 288 347 279 360 300 250 228 288 347 279 360 BP300C 235 297 357 287 360 300 BP250V 235 297 357 287 360 B350C 261 330 397 319 425 350 B300V 261 330 397 319 425 BP350C 27 350 421 339 425 350 BP300V 27 350 421 339 425 B400C 294 371 446 359 475 400 B350V 294 371 446 359 475 BP400C 310390 471 378 415 400 BP350V 310390 471 378 415 B450C 326 412 496 398 525 450 B400V 326 412 496 398 525 BP450C 341438 527 424 532 450 BP400
80. 1329R or 1329L motors have a corona inception voltage rating of approximately 1850V 6 These distance restrictions are due to charging of cable capacitance and may vary from application to application 52 Pre Installation Output Devices Drive Output Disconnection ATTENTION The hazard for injury or death from electric shock may exist if a disconnecting means is wired to drive output A terminals and is opened during drive operation Any disconnecting means wired to drive output terminals U V and W must be capable of disabling the drive if opened during drive operation An auxiliary contact must be used to simultaneously disable the drive Common Mode Cores Common M ode Cores will help reduce the common mode noise at the drive output and guard against interference with other electrical equipment programmable controllers sensors analog circuits etc In addition reducing the PWM carrier frequency will reduce the effects and lower the risk of common mode noise interference Refer to the table below 1336 PLUS Common Mode Chokes Catalog Number Used with Description 1321 M 001 Communications Cables Analog Signal Cables etc Open Style Signal Level 1321 M 009 All 1336 PLUS Drives Rated Open Style with Terminal Block 9A 480V 0 37 3 7 kW 0 5 5 HP 1321 M 048 All 1336 PLUS Drives Rated Open Style 48A 480V 5 5 22 kW 7 5 30 HP 600V 5 5 30 kW 7 5 40 HP 1321 M 180 All 1336 PLUS Drives Rated Open Style 1
81. 150 180 112 180 112 BX150 AN BX150 AA BX150 AE 3 3 199 150 240 200 199 112 240 149 B150 A B150 AA 9 B150 AE 3 3 263 200 292 250 263 149 292 187 B200 A B200 AA 9 B200 AE 3 3 325 250 325 250 325 187 325 187 B250 A B250 AA 9 B250 AE 3 3 325 250 360 300 325 187 360 224 BP250 AN 7 BP250 AA 9 3 3 BPR250 AN 7 BPR250A AE 7 89 325 250 360 300 325 187 360 224 BX250 AN BX250A 9 BX250A AE 8 9 3 3 360 300 45 350 360 224 425 261 B300 B300A AA B300A AE 8 9 3 3 360 300 425 350 360 224 425 261 BP300 AN 7 BP300 AA 9 3 3 BPR300 AN 7 BPR300A AE 7 8 9 425 350 475 400 425 261 475 298 B350 A B350A AA 9 B350A AE 8 9 3 3 425 350 45 400 425 261 475 298 BP350 AN 7 BP350 AA 9 3 3 BPR350 AN 7 BPR350A AE 7 8 9 475 400 525 450 415 298 525 336 B400 A B400A AA 9 B400A AE amp 9 3 3 475 400 532 450 415 298 532 336 BP400 AN 7 BP400 7 9 3 3 BPR400 AN BPR400A AE 7 8 9 525 450 590 500 525 336 590 373 B450 A B450A AA B450A AE amp 9 3 3 532 450 532 450 532 336 532 336 BP450 AN 7 BP450 AA 7 9 3 3 BPR450 AN 7 BPR450A AE 7 8 9 590 500 670 600 590 373 670 448 B500 A B500A AA 500 AE 8 9 3 3 670 600 670 600 670 448 670 448 B600 A B600A AA B600A AE amp 9 3 3 See page 65 for footnotes 1336 PLUS II Selection Guide Constant Variable Torque Drives and Enclosures 500 600V Open NEMA Type 1 NEMA Type 4 NEMA Type
82. 24LX22 AB 800EP SM224LX01 AB BOOEP PL54RL5 AB 800EP PL74RL5 AB 800EP PL74RL5 AB 800EP PL44RL5 AB 800EP PL44RL5 AB 800EP PL54RL5 AB 800EP PL54RL5 AB 800EP MT44LX02 AB 1201 HA2 AB 700 HC24A1 AB 700 HC24A1 AB 700 HC24A1 AB 700 HC24A1 AB 8Q0FP SM32C24LX11 AB 800EP SM224LX10 AB 700 HC24A1 AB 100 A45 AB 100 A45 AB 193 CPC45 SPR SHUH RZ7 FS3A CU 23 BUSSMAN LPJ IYPE AB 100 A6OND3 WEST GMCP060J2C AB 1336 GM1 AB 1336F LA2 KESSLER ELLIS K 1884 EXTERNAL INTERCONNECT WIRING REQUIREMENTS POWER SEE INSTRUCTION MANUAL FOR CABLE CLASSES INTERCONNECTION INFORMATION WIRE SOURCE EXPLANATION TERMINAL NO WIRE RANGE LINE PE GROUND EQMT CONDUCTOR CURR CLASS AMPS NO 171 OL1 T1_ AC MOTOR 172 OL1 T2 1T3 OLI T3 FRAME MTR PE 10 4 Ga MCP2 L1 INCOMING MCP2 L2 460 V LINES MCP2 L3 14 4 Ga CONTROL SEE INSTRUCTION MANUAL FOR CABLE CLASSES CLASSES 5 AND 6 ARE CONTROL WIRES 15 AMPS OR LESS INTERCONNECTION INFORMATION TERMINAL CABLE WIRE RANGE TYPE 2223 TB4 15 AUTO RUN 2204 TB4 14 CONTACT FAULT NO FAULT NC CR6 6 10 FAULT NO CR6 10 2 FAULT NC 18 16 Go 18 16 Ga 18 16 Ga 18 16 Ga 18 16 Ga 18 16 Ga 18 16 Ga 18 16 Ga CR7 9 1 CR7 6 10 RUN NO CR7 10 2 RUN NC CR11 5 9 PWR ON NO CR11 9 1 PWR ON NC CR11 6 10 PWR ON NO CR11 10 2 PWR ON NC 18 16 Ga 18 16 Ga 18 16 Ga 18 16 Ga CR10 5 9 ALARM NO CR10 9 1 ALARM NC CR10 6 10 ALARM NO CR10 10 2 ALARM NC
83. 300 A 187 250 292 A 240 400 A 180 300 A 180 300 A 187 250 325 A 240 400 A 180 300 A 224 300 240 400 A 240 400 A 180 300 A 261 350 378 630 A 378 630 A 240 400 A 298 400 378 630 378 630 240 400 336 450 378 630 378 630 378 630 373 500 378 630 378 630 378 630 448 600 645 975 A 645 975 A 378 630 A Class 20 Bulletin 592 Relays Trip 20 seconds or less at 600 of device current rating Must be manually reset Can be programmed for Class 20 operation by choosing the appropriate heater elements from the A B Industrial Control Catalog Publication A113 or the chart on the next page Can also be programmed for Class 10 and 30 operation by choosing the appropriate heater elements from the A B Industrial Control Catalog Publication A113 109 Selection Guide Heater Element Selection The Thermal Overload Relay Option M K will require the addition of thermal overload heater elements These elements are not available as part of the Configured Drives Program The Class 20 chart shown below is supplied for reference purposes only If Class 10 or 30 operation is required refer to the A B Industrial Control Catalog Publication A112 for selection guidance Motor Full Load Amperes for Sizing of Class 20 Heater Elements for Various Options Drive Ratings in kW HP 0 37 3 7 0 5 5 55 75 7 5 10 11 185 15 25 22 37 30 50 45 60 56 75 75 100 93 125 0 37 3
84. 336 PLUS II Selection Guide Field Installed Options Used Catalog No Description With Loose Kit Remote M ounted w Integral 115V AC Power Supply All Drives Single Point RIO 1203 GD12 RS 232 422 485 DF1 DH485 1203 GD2 2 Remote M ounted for use with 24V DC Power Supply All Drives Single Point RIO 1203 GK12 RS232 422 485 DF1 DH485 1203 GK22 DeviceNet 1203 GK5 2 Enhanced DeviceNet 1203 GU6 2 Drive M ounted and Drive Powered A Frame Drives with loose snap in cradle blank plate Adapter 1 w Snap in Single Point RIO Cradle Blank Plate 1336 GM 13 RS232 422 485 DF1 DH485 Protocol B Frame amp Up 1336 GM 23 DeviceNet Adapter 6 or Adapter 1 1336 GM 53 Enhanced DeviceNet w Snap in Cradle Blank Plate 1336 GM 6 35 Firmware Download M odule All Drives 1336F FDM Module allow s firmware upgrade ControlNet to SCAN port Adapter All Drives 1203 CN 135 Remote M ounted DIN Rail 24V DC Requires 24V DC power supply Smart Serial to SCANport Adapter All Drives 1203 555 Includes 1203 SFC amp 1202 C10 Cables SCANport Expander M odule All Drives One to Two 1203 SG2 One to Four 1203 564 Flex I O SCANport M odule All Drives Flex 1 0 Terminal Base 1336 FB1 Flex 1 0 Module 1336 FM 1 Snap In IP20 NEM A Type 1 IP00 Open A G Frame amp IP20 Snap In Cradle Blank Plate NEM A Type 1 A D Frame 1201 HASB Programmer Only Drives 1201 HASP Programmer Only amp Upload Download Capability 1201 HCSP
85. 41 Modes Selection Paramete Status TB3 Term 22 242 Settings Selection Paramete Rev For Input 3 TB3 Term 23 243 Settings Selection Paramete og Input 4 TB3 Term 24 244 Settings Selection Paramete Aux Fault Input 5 TB3 Term 26 245 Settings Selection Paramete Spd Sel 3 Input 6 TB3 Term 27 246 Settings Selection Paramete Spd Sel 2 Input 7 TB3 Term 28 247 Settings Selection Paramete Spd Sel 1 Input 8 nput Status 55 Settings Selection Paramete CRI Out Select 158 Settings Selection Paramete At Speed CR2 Out Select 174 Settings Selection Paramete Running CR3 Out Select 175 Settings Selection Paramete Fault CR4 Out Select 176 Settings Selection Paramete Alarm Dig Out Freq 159 0 01 Hz 0 00 Hz Maximum Freq 0 00 Hz Dig Out Current 160 0 0 200 0 Dig Out Torque 161 01 0 0 200 of Rated Amps 0 0A Dig At Temp 267 PC 0 255 C 0 PI Max Error 293 0 01 Hz 3400 00 Hz None Pulse Out Select 280 Settings Selection Parameter Frequency Pulse Out Scale 281 Factor 1 4096 1024 PPR Pulse In Scale 264 Factor 1 4096 1024 PPR At Time 327 0 01 Sec 0 00 360 00 0 00 Sec Remote CR Output 326 Settings None XXXX0000 Analog 1 0 Anlg In 0 Lo 237 0 1 800 0 0 0 Anlg In 0 Hi 238 0 1 800 0 100 0 Anlg In 1 Lo 239 0 1 800 0 0 0 Anlg In 1 Hi 240 0 1 800 0 100 0 Anlg In 2 Lo 248 0 1 800 0 0 0 Anlg In 2 Hi 249 0 1 800 0 100 0 Analog Trim En 90 Settings Selection Paramete Disabled Anlg Signal Loss 250 Settings
86. 5 5 emis d Y 717 6 28 25 e rd I for Pre Installation IP 20 NEMA Type 1 amp Open Dimensions Frame G 63 5 2 50 Removable Lifting Angle Y A Open Chassis Dimensions Depth 508 3 20 01 Weight 453 6 kg 1000 Ibs 117 3 4 62 A e Allen Bradley 2324 1 91 50 1524 0 60 00 Y A 648 0 i 762 0 i 635 0 _ 19 3 25 51 30 00 25 00 0 76 Important Two 2 725 CFM fans are required if an open type drive is mounted in a user supplied Conduit enclosure Access Area All Dimensions in Millimeters and Inches See Bottom View Dimensions for Details 27 Pre Installation IP 65 54 NEMA Type 4 12 Dimensions lt A x l See Detail A C _
87. 5 00 Option Mounting Location Mountable Option Codes From Previous Option List Page Plus BA BM CC D41 D42 DT FM Consult Factory Option Codes From Previous Option List Page Plus BC BD BP BS MP12A MP12N MP18A MP18N MQ2 MQ3 Removable Lifting Angle Vented Areas IP20 NEMA Type 1 Only Air Conditioner 1 54 NEMA Type 12 Only Approximate Shipping Weights All Weights in Kilograms and Pounds Three Phase Ratings All Dimensions in Millimeters and Inches Drive Drive Option and Bypass Option Enclosures Frame 460 460V VT 575V A Al A2 IP 20 NEMA Type 1 IP54 NEMA Type 12 G 224 261 kW 224 261 kW 224 261 kW 2865 1 2560 3 264 2 139 7 1066 1247 300 350 HP 300 350 HP 300 350 HP 112 80 100 80 10 40 5 50 2350 2750 360 425 A 360 425 A 360 425 A 298 448 kW 298 448 kW 298 448 kW 2992 1 2687 3 327 7 215 9 1066 1275 400 600 HP 400 600 HP 400 600 HP 117 80 105 80 12 90 8 50 2350 2810 475 670 A 475 670 A 400 600 A 92 Panel Layouts The panel layouts shown on the following pages are typical for the drive ratings listed The layouts include a worst case Pre Engineered P Options Only scenario See Option List on the next page The dimension grid can be used to determine available panel space by taking into account which of the components shown will actually be included in an individual drive package A1 A3 Frame Drives 230 460V 0 37 3 7 kW 0 5 5 HP
88. 7 0 5 5 55 185 75 25 22 30 30 40 37 75 50 100 93 112 125 150 149 187 200 250 224 300 261 373 350 500 Heater 0 37 3 7 05 5 55 185 7 5 25 22 30 30 40 37 75 50 100 93 112 125 150 149 187 200 250 224 300 261 373 350 500 W 0 37 3 7 05 5 5 5 22 7 5 30 30 45 40 60 56 93 75 125 112 150 149 224 200 300 261 336 350 450 373 500 umber wes B S i 165 M wes Table 1811 Table 195 1 1 Heater element selection tables taken from A B Industrial Control Catalog Publication A113 110 Selection Guide Listed in the chart below are possible option combination conflicts that may occur when selecting 1336 PLUS II Configured Drive Options Option Selection Rules Option Must Be Used With Cannot Be Used With Option Must Used With Cannot Be Used With A208 230V Base Drives 460 or 575V Base Drives AA AF 601 GD2C GUGC HAIC HA2C AA AF AJ HJ PC HJ 2C HJ PC HJ 2C AF AA AJ HABC HAPC HAIC 2 HAPC AA AF AJ GD1C GD2C GU6C HAIC HAZC AA AF HABC HA1C HA2C Hj PC Hj 2C 2 i A Bb p HAIC AA AF
89. 7 No Derate 156 486 642 m A010 3 Figure B 200 7 921 2 Rating is at 4 kHz 2 kHz 015 48 Figure D 205 819 1024 _ 020 65 No Derate 210 933 1143 for 224 448 kW 300 600 HP 005 7 Nene 25 111 1325 500 600V If Carrier o Derate A040 120 Figure G 361 1708 2069 bsc a 4 kHz A050 150 Figure H 426 1944 2370 j j A060 180 Figure J 522 2664 3186 are selected drive rating 075 240 Figure L 606 2769 3375 must be derated 00 291 Figure 755 3700 4455 12 325 Figure N 902 100 5002 Refer to Figure A AC SOLON DRIVES 3 Drive Ambient Temperature BRF05 12 Figure A Me BRFO7 17 Figure A 5 1s 38 Rating is 40 C If ambient BRFIO 23 Figure A 15 20 35 i BRFIS 30 Figure A 16 2 43 exceeds 40 C the drive BRF20 4 0 Figure A 19 36 55 must be derated BRF30 6 0 Figure A 23 54 7 BRF50 9 0 Figure A 29 84 113 Refer to Figure A AC BRF75 154 Figure A 58 186 244 BRF100 22 0 Figure A 68 232 300 4 Drive Rating is based on BRF150 24 0 Figure A 88 332 420 BRF200 27 0 Figure A 96 356 452 altitudes of 1 000 m 8015 27 No Derate 117 486 603 B020 34 Figure B 140 628 768 3 000 ft or less 8025 Figure 141 720 861 installed at higher altitude 8030 48 Figure D ul 820 961 59 Figure E 175 933 1108 drive must be derated 8040 65 Figure E 175 933 1108 Refer to Figure AD B050 7 Figure F 193 1110 1303 BX06 7 Figure F 193 1110 1303 5 8060 No Derate 361 1708 2069 Important Two 2 725 CFM 8075 120 Figure 361 1708 2069 fans are re
90. 71 Settings Selection Paramete Slip Comp Slip FLA 42 O 1Hertz 0 0 10 0 Hz 1 0 Hz Slip Comp Gain 195 None 1 40 1 Run On PowerUp 14 Settings Selection Paramete Disabled Reset Run Tries 85 1 Try 0 9 0 Tries Reset Run Time 15 0 1 Second 0 5 30 0 Sec 1 0 Sec S Curve Enable 57 Settings Selection Paramete Disabled S Curve Time 56 0 1 Second 0 0 1800 0 Sec 0 0 Sec Language 47 Settings Selection Paramete English Flying Start En 155 Settings Selection Paramete Disabled FStart Forward 156 1Hz 0 400 Hz 60 Hz FStart Reverse 157 1Hz 0 400 Hz 0 Hz LLoss Restart 228 Settings Selection Paramete Track Volts LLoss Mode 256 Settings Selection Paramete LoBus gt 0ff LLoss Volts 320 1 Volt 40 80 100 Volts 200 400 500 Volts 59 117 146 Volts Loss Recover 321 1 Volt 20 40 50 Volts 200 400 500 Volts 29 59 73 Volts Ride Thru Volts 322 1 Volt 40 80 100 Volts 200 400 500 Volts 29 59 73 Volts in Bus Volts 323 1Volt 100 200 250 Volts 200 400 500 Volts 194 388 485 Volts Traverse Inc 78 0 01Sec 0 00 30 00 Sec 0 00 Sec Traverse Dec 304 0 01 Sec 0 00 30 00 Sec 0 00 Sec ax Traverse 79 0 01 Hz 0 00 50 Maximum Freq 0 00 Hz P Jump 80 0 01 Hz 0 00 25 Maximum Freq 0 00 Hz Bus Regulation 288 Settings Selection Parameter Disabled Load Loss Det 290 Settings Selection Parameter Disabled Load Loss Level 291 1 0 100 0 Load Loss Time 292 1Second 0 30 Sec 0 Sec Bus Reg Level 358 716 895 Volts ax Bus Voltt 305 1900 403 807 1009 Volts SURE nput M ode 2
91. 8 3rd Fault Bast 2nd Fault Buffer 2 1st Fault Buffer 3 Parameter List The 1336 PLUS II uses an extensive set of parameters divided into groups for ease of programming Grouping replaces a sequentially numerical parameter list with functional parameter groups that increase operator efficiency and help reduce programming time Group Param No Disp Units Min Max Values Default Metering Output Current 54 01 0 200 Rtd Drv Out Current one Output Voltage 1 1 Volt 0 200 Rtd Drv Out Volts one Output Power 23 1kW 200 Rtd Drv Out Power one DC Bus Voltage 53 1 Volt 0 200 DC Bus Volt M ax one Output Freq 66 0 01 Hertz 3400 00 Hz one Freq Command 65 0 01 Hertz 3400 00 Hz one Anlg In 0 Freq 138 0 01 Hertz 0 00 400 00 Hz one Anlg In 1 Freq 139 0 01 Hertz 0 00 400 00 Hz one Anlg In 2 Freq 140 0 01 Hertz 0 00 400 00 Hz one Encoder Freq 63 0 01 Hertz 0 00 400 00 Hz one Pulse Freq 254 0 01 Hertz 0 00 400 00 Hz one OP Freq 137 0 01 Hertz 0 00 400 00 Hz one Heatsink Temp 70 0 255 Power OL Count 84 1 0 200 one otor OL Count 202 1 0 200 one Last Fault 4 Fault None one Torque Current 162 01 200 Drive Rating one Flux Current 163 01 200 Drive Rating one Output Power 3 1 200 Drv Rated Out Power one Output Curr 2 1 0 200
92. 8 0 1800 250 300 1250 450 450 250 075 15 238 0 2400 300 400 300 500 500 250 100 100 2890 2910 400 500 400 700 700 400 125 125 3220 3250 450 700 1450 800 800 600 Dual Element Time Delay Fuse Circuit Circuit Breaker Protector 140M Motor Starter with Adjustable Current Mins mps Available Catalog Numbers 140 7 Al M C2E B16 M C2E B25 C2E B40 D8E B40 M C2E B40 M D8E B40 A2 M C2E C63 M D8E C63 M C2E C10 M D8E C10 M F8E C10 A3 M 2 16 M D8E C16 M F8E C16 A4 M C2E C16 M D8E C16 M F8E C16 M C2E C25 M D8E C25 M F8E C25 CMN 2500 M C2E C25 M D8E C25 M F8E C25 CMN 2500 M F8E C32 M N 4000 B M F8E C32 M N 4000 M F8E C45 M N 4000 M F8E C45 CMN 6300 CM N 6300 M N 6300 M N 6300 M N 9000 M N 9000 D E F Semiconductor fuse supplied with drive 600 Refer to the 1336 Spare Parts list publication 1336 6 5 for replacement information 700 G 450 Bussmann Type FW P SPP or 170M Series Ferraz Shawmut Type A 70Q 7005 or A070URD Series 34 Pre Installation Recommended Protection Devices user supplied CT Ratings Dual Element Time Delay Fuse Non Time Delay Fuse 575 Volt Input
93. 80A 480V 30 112 kW 40 X150 HP 600V 37 93 kW 50 125 HP 1321 M 670 All 1336 PLUS Drives Rated Open Style 670A 480V 112 448 kW 150 600 HP 600V 149 448 kW 200 600 HP 53 Pre Installation Cable Termination Optional Cable Terminator Voltage doubling at motor terminals known as reflected wave phenomenon standing wave or transmission line effect can occur when using drives with long motor cables Inverter duty motors with phase to phase insulation ratings of 1200 volts or higher should be used to minimize effects of reflected wave on motor insulation life Applications with non inverter duty motors or any motor with exceptionally long leads may require an output filter or cable terminator A filter or terminator will help limit reflection to the motor to levels which are less than the motor insulation rating The tables on pages 52 and 53 list the maximum recommended cable length for unterminated cables since the voltage doubling phenomenon occurs at different lengths for different drive ratings If your installation requires longer motor cable lengths a reactor or cable terminator is recommended Also refer to these tables for frequency cable length and voltage restrictions of 1204 TFA1 or 1204 TFB2 terminators Optional Output Reactor Bulletin 1321 Reactors listed in the 1336 PLUS 3 0 Price Sheet can be used for drive input and output These reactors are specifically constructed to accommodate IGBT inverter
94. 81 2 78 00 1828 8 72 00 1676 4 66 00 1524 60 00 1371 6 54 00 1219 2 48 00 1066 8 42 00 9144 36 00 762 30 00 609 6 24 00 457 2 18 00 304 8 12 00 1524 6 00 0 100 F FRAME 2 BAY WITHOUT BYPASS 2286 90 00 2133 6 84 00 F FRAME 3 BAY WITH BYPASS 1981 2 78 00 DRIVE BRANCH FUSING IS RESIDENT ON THE DRIVE 1828 8 72 00 DRIVE BRANCH FUSING IS RESIDENT ON THE DRIVE TERMINAL BLOCK 1676 4 66 00 TERMINAL BTD 1524 60 00 1371 6 54 00 1336 PLUS DRIVE 5 e e 1219 2 48 00 1066 8 42 00 9144 36 00 762 30 00 609 6 24 00 457 2 18 00 0 1524 3048 4572 6096 762 6 00 1200 18 00 24 00 30 00 36 00 42 00 4800 9144 1066 8 12192 304 8 12 00 1524 6 00 0 0 1524 3048 4572 609 6 762 914 4 10668 12192 13716 1524 16764 1828 8 19812 6 00 12 00 18 00 24 00 30 00 36 00 42 00 48 00 54 00 60 00 66 00 72 00 78 00 All dimensions in milli
95. 8V DC Maximum input frequency is 250kHz Scale factor Pulse Enc Scale must be set ATTENTION If input voltages are maintained at levels above 12V DC signals may be degraded and component damage may result Pulse Output Provides a TTL pulse train suitable for driving up to three 1336 PLUS II pulse inputs or a separate 125 ohm load at TTL levels AV at 32 mA source 0 8V at 3 2 mA sink The digital outputs are at terminals 10 through 18 of TB2 Digital Outputs TB2 1 cR CR3 CR3 CR4 Only Present on B Frame amp Up Drives 10 11 12 13 14 15 16 17 18 Al A2 Contacts Shown in Unpowered State Y Y or Powered State with Fault Alarm Present Reserved for Terminal Signal Future Use TE True Earth Shield Termination 10 11 CR1 Programmable Contact 11 12 CR2 Programmable Contact 13 14 Resistive Rating 115V AC 30V DC 5 0A 14 15 Programmable Contact Inductive Rating 115V AC 30V DC 2 0A 16 17 17 18 CR4 Programmable Contact Al A2 Reserved for Future Use 46 Pre Installation Analog Inputs Outputs The 1336 PLUS analog 1 0 configuration provides a standard set of inputs and outputs with the capability to install up to 2 option boards thus replacing the standard 1 0 with a variety of options All connections are performed at TB2 Installing an option board in the slot A or B l
96. 9 1829 1829 182 9 30 5 30 5 914 61 0 182 9 229 182 9 1 25 40 375 600 600 600 600 100 100 300 200 600 75 600 0 37 1 6 122 1143 1829 1829 1829 182 9 30 5 30 5 91 4 61 0 182 9 229 182 9 0 5 25 40 375 600 600 600 600 100 100 300 200 600 15 600 22 22 1 6 122 914 914 1829 1829 182 9 229 1829 3 3 25 40 300 300 600 600 600 75 600 15 7 6 12 2 1143 182 9 1829 1829 182 9 22 9 102 9 2 25 40 375 600 600 600 600 75 600 0 75 1 6 122 143 1829 1829 1829 182 9 229 1829 1 25 40 375 600 600 600 600 75 600 0 37 7 6 122 1143 1829 1829 1829 182 9 229 1829 0 5 25 40 375 600 600 600 600 75 600 37 37 7 6 12 2 1143 1829 1829 182 9 22 9 1829 5 5 25 40 375 600 600 600 75 600 22 1 6 122 1143 1829 1829 182 9 229 1829 3 25 40 375 Note 600 600 600 75 600 15 1 6 122 1143 ANE 1829 1829 182 9 229 1629 2 25 00 8675 600 600 600 75 600 075 8 02 1143 1829 1829 1829 Use 1204 2 23 1829 1 25 40 375 in ie 600 600 600 75 600 0 37 1 6 122 1143 length due to 1829 1829 182 9 229 1829 0 5 25 40 375 voltage reflection 600 600 600 75 600 A4 55 15 5 5 15 7 6 122 143 are necessary You 1829 1829 182 9 244 1829 1 5 20 15 20 25 40 375 should observe 600 600 600 80 600 11 22 11 22 1 6 122 1143 standard practices 182 9 1820 182 9 244 1829 15 30 15 30 25 40 375 for voltage drop 600 600 600 80 600 C 30 45 30 45 1 6 122 1143 cable capacitance 1829 1829 182 9 762 1829 X40 X60 40 60 25 40 375 and other issues 600 600 600 250
97. 99 238 96 240 120 289 116 291 134 322 129 325 480V Drives 11 14 10 12 17 21 14 1 7 2 2 2 8 18 23 2 8 3 5 24 3 0 3 8 4 8 32 4 0 5 7 7 2 48 6 0 8 5 10 7 7 2 9 0 13 15 7 12 3 154 18 6 224 175 22 20 4 24 5 19 1 24 23 28 22 27 23 28 22 27 29 35 27 34 36 43 33 42 41 49 38 48 50 61 47 59 52 63 52 65 62 75 61 71 62 75 61 71 TI 93 16 96 99 119 96 120 124 149 120 150 148 178 143 180 148 178 143 180 198 238 191 240 241 290 233 292 268 322 259 325 297 357 287 360 297 357 287 360 350 421 339 425 350 421 339 425 392 471 378 475 392 471 378 475 433 521 418 525 438 527 424 532 486 585 470 590 438 521 424 532 552 664 534 670 552 664 534 670 Input kVA Variable Torque Input Amps Output kVA Output Amps Lu FS gt tO 10 1 33 1 89 2 55 3 33 4 44 6 66 9 99 19 43 22 00 24 00 27 75 29 97 37 74 46 62 53 28 66 60 72 15 83 25 85 47 106 56 133 20 166 50 199 80 199 80 266 40 324 12 360 75 399 60 399 60 471 75 471 75 527 25 527 25 582 75 532 05 654 90 532 00 743 70 743 70 Specifications Input Output Ratings continued Cat Input Input Output Output Input Input Output Output No Amps X Amps kVA Amps Amps 500 600V Drives 600V Drives CWF10 2125 24 2 1 2 0 25 2 4 2 1 2 0 CWF20 42 50 48 42 40 5 0 48 42 4 0 CWF30 62 15 7 2 6 2 6 0 75 7 2 6 2 6 0 CW F50 8 3 10 0 9 6 8 3 8 0 10 0 9 6 8 3 8 0 CWF75 9 11 10 10 10 11 10 10 10 CW 100
98. A AAS 3 3 600 448 600 600 C600 A C600A AA 3 3 Language Group Used Option Code Description With Language All Drives English EN French FR German DE Italian IT J apanese JP Spanish ES Dynamic Brake Kits Used Catalog Number Catalog Number Description With Complete Brake Brake Chopper for 200 240V AC Drives 0 37 3 7 kW 0 5 5 HP 6 KA005 WA018 5 5 7 5 kW 7 5 10 E KA010 WA018 11 22 kW 15 30 HP NA WA070 30 56 kW 40 75 HP 6 NA WA115 for 380 480V AC Drives 0 37 3 7 kW 0 5 5 HP 6 KB005 WB009 5 5 7 5 kW 7 5 10 Hn KB010 WB009 11 37 kW 15 50 HP KB050 WB035 45 149 kW 60 200 HP 6 NA WB110 for 500 600V AC Drives 0 37 3 7 kW 0 5 5 HP 6 KC005 WC009 5 5 7 5 kW 7 5 10 HP KC010 W C009 11 30 kW 15 40 HP KC050 WC035 37 149 kW 50 200 HP 6 NA W085 1 Drive rating is based on nominal voltage and carrier frequency at altitudes of 1000 meters or less Refer to the Derating Guidelines on Pages 57 61 2 VT HP ratings are valid for 240V or 480V only 3 Not available in this rating 480 Volts only 5 A Language Group must be specified with each drive for User M anual 6 Multiple kits may be utilized together to obtain higher ratings Refer to the appropriate brake publication 1336 5 64 or 5 65 for further information 7 A Common M ode Choke option CM or No Common M ode Choke option NCM must be specified with each F Frame Drive 8 These units include as standa
99. A guidelines of 1 519 1992 at the drive input terminals provided the input power phases are balanced to within 1 18 Pulse Front End w ith Isolation Transformer This option provides an 18 pulse drive front end fed by an 18 pulse isolation transformer It will meet Option M P18N the guidelines of IEEE519 1992 at the drive input terminals provided the input power phases are balanced to within 296 Motor Interface Options Blower Motor Starter This option provides blower motor fusing an Allen Bradley Bulletin 100 contactor and an Allen Bradley Option M B Bulletin 193 Class 10 thermal overload relay The blower starter is electrically interlocked with the drive enable function or the bypass contactor if bypass is provided and selected The blower motor will be assumed to be 1 HP unless motor data is supplied with the order Motor Heater Control This option provides the drive control circuitry for an existing motor heater The heater is interlocked Option M H with the drive run relay and will be energized whenever the motor is not running Option includes a Option M H2 4 white M otor Heater On pilot light mounted on the enclosure door Option MH Customer supplied remote 120VAC 360W power Option M H2 120VAC supplied from drive package RTD Protection Module This option provides a door mounted RTD sensing module for over temperature and under temperature protection Each unit will monitor up to 8 motor mounted RTD s and has 3
100. A Type 1 enclosure Figure U 1336F CW F10 through CW F200 Figure V 1336 150 Figure W 1336F C200 of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps 100 90 80 70 60 50 1 4 Carrier Frequency in kHz 100 90 80 70 60 50 I 4 Carrier Frequency in kHz 100 90 80 70 60 60 Hz 50 Hz 60 Hz 50 Hz 50 4 Carrier Frequency in kHz 100 98 96 Not 94 Recommended 92 90 7 I I I I 1 2 4 6 8 10 12 Carrier Frequency in kHz 100 95 90 85 80 75 70 65 2 1 1 Carrier in kHz 100 90 80 70 60 50 40 4 Carrier Frequency in kHz Pre Installation Derating Guidelines mamam Standard Rating for Enclosed Drive 40 C Ambient amp Open Drive in 502C Ambient mamam Derating Factor for Enclosed Drive in Ambient between 412 C amp 50 Figure X mee 90 1336F C250 ad 70 of Drive N Rated Amps 60 50 40 2 Figure Y us 1336F CX300 Eee of Drive P n Rated Amps 60 50 40 2 Figure Z 100 1336F CP350 CPR350 90 of Drive Rated Amps 70 60 50 Ti I 2 4 6 Carrier Frequency kHz Figure AB mL 1336F C300 of rive 90 thro
101. A door mounted Drive Off Bypass selector switch is provided Optional Drive M ode and Bypass M ode pilot lights are available option D41 4 Options Bypass Options continued Automatic Bypass 1 2 3 Option BA This option provides a means to manually or automatically upon a drive fault switch a single motor from drive control to bypass across the line operation Separate Bulletin 100 where available contactors are provided for drive output and bypass operation and are electrically interlocked A Bulletin 193 Class 10 overload is also provided for motor protection while operating in the bypass mode refer to M otor Thermal Overload Data in the Selection Guide section Door mounted Drive Off Bypass and Auto Bypass Off On selector switches are provided Optional Bypass M ode and Auto Bypass Enable On pilot lights are available option D42 Manual Bypass with SMC Plus 1 2 3 Option BS This option provides a means to manually switch a single motor from drive control to bypass across the line operation An SM C Plus solid state controller provides soft start capability when first switching to bypass operation Separate Bulletin 100 where available contactors are provided for drive output SM C output and total bypass All contactors are electrically interlocked A door mounted Drive Off Bypass selector switch is provided Optional Drive M ode and Bypass M ode pilot lights are avai
102. All dimensions in millimeters and inches WITHOUT OPTION BAY 900 35 43 762 30 00 1336 PLUS II STD 610 24 00 457 18 00 305 12 00 152 6 00 TERNINAL BLOCK STD 0 152 305 457 610 6 00 12 00 18 00 24 00 762 800 30 00 31 50 INPUT ISOLATOR Q DRIVE INPUT CONTACTOR DRIVE OUTPUT CONTACTOR BYPASS CONTACTOR NEXT PAGE Panel Layouts C Frame Drives 230V 15 22 kW 20 30 HP 460V 30 45 kW 40 60 HP 575V 18 5 45 kW 25 60 HP IP54 NEMA Type 12 IP65 NEMA Type 4 Consult Allen Bradley when adding additional heat producing components to existing NEM A Type 4 or 12 rated drives 1930 76 00 1829 72 00 1676 66 00 1524 60 00 1372 54 00 1194 48 00 1067 42 00 914 36 00 7622 30 00 610 24 00 457 18 00 305 12 00 152 6 00 WITH OPTION BAY 1336 PLUS II DRIVE 5TD TERMINAL 0 BLOCK STD 152 6 00 305 457 610 762 918 12 00 18 00 24 00 30 00 36 15 PREVI
103. Allen Bradley Technical Data 1336 PLUS II Adjustable Frequency AC Drive gt a zm gue mum ge um um a a a aut a R R en Allen Bradley n i RELIANCE dm DOGE ELECTRICM Rockwell Automation Bringing Together Leading Brands in Industrial Automation A Complete Line of Drives for a Complete Family of Products Available in ratings from 0 37 to 448 kW 0 5 to 600 horsepower the drive helps to provide a single solution for virtually all of your speed control requirements Commonality of design across the entire range coupled with identical control interface functions device communications training and maintenance provide you with a tremendous advantage in your control needs Add that to integration with Allen Bradley SM C and SM P power products the 1305 drive the 1336 IM and 1336 FORCE field oriented control drives all of which T use the same control interface and communication options and you ve just gained significant advantage in system design component integration operator training and maintenance Il m ihre oe Table of Contents 1336 PLUS II Product Data Product Description cete Pee et edt 4 Sp cifications c cess eee hr 6 Function Description sisi a aaa a satu ee 11 Fault and Parameter list aa sse 18 1336 PLUS IT 21 IP 20
104. B2 Enclosures A1 A3 0 37 3 7 kW 0 37 3 7 kW _ 655 0 630 0 600 0 500 0 1000 0 415 0 975 0 35 65 0 5 5 HP 0 5 5 HP _ 25 79 24 80 23 62 19 69 39 37 18 70 38 39 75 140 Mor B 5 5 11KW 5 5 22kW 0 75 15 kW 655 0 630 0 600 0 650 0 1150 0 625 0 1125 0 60 110 or 7 5 15 HP 7 5 30 HP 1 20 HP 25 79 24 80 23 62 25 59 45 28 24 61 44 29 130 243 15 22 kW 30 45kW 19 45 kW 855 0 830 0 800 0 900 0 1550 0 875 0 1525 0 95 145 20 30 HP 40 60 HP 25 60 HP 33 66 32 68 31 50 35 43 61 02 34 45 60 04 210 320 86 Dimensions IP54 NEMA Type 12 and IP 65 NEMA TYPE 4 Dimensions For A C Frame Drives 12 70 _ 3484 gt 0 50 gt 125 21 59 gt 0 49 20 00 Y 2 gt 10 49 268 d Cl lt 2 gt j A Mounting Holes 2 _ Lifting Holes 2 see detail q Frames M B amp C Only O Q9 T G EXPANDED OPTION ENCLOSURE ERR M DRIVEJOPTION OU a DRIVE OPTION ENCLOSURE gt O I ENCLOSURE Additional Mounting Holes q Not Present When EXPANDED OPTION ENCLOSURE Is Required Allen Bradley od a5 i NOTE IP 65 NEMA Type 4 will have i waterproof gask
105. C Leakage current must be less than Option L9EC With Encoder Feedback 10 mA into a 6 5k ohm load In the high state circuits must generate a voltage of 90 115V AC 10 and source a current of approximately 20 mA for each input The L6C L9EC option is compatible with the following Allen Bradley PLC modules 1771 0W 1771 0WN 1771 0A 1771 0AD Contact Factory for Recommended Series Rev Level 1 Rack size will impact enclosure size Contact Allen Bradley for possible enclosure size changes Actual hardware list will be determined at time of order entry 3 For more information refer to the Standard Drives section Options Human Interface Modules NEMA Type 1 and 12 Door Mounted HIMS Programming Panel Control Panel with Analog Speed Pot Control Panel with Digital Speed Pot Standard on all Human Interface modules Option HA1C Option HA2C and 2 LCD Display Analog Speed Pot JogKey X Start Key Up Down Arrow Keys Speed Indicator Jog Key Start Key Stopped 0 06 Hz Escape Key Select Key Increment Decrement Keys Enter Key Direction LEDs Reverse Key Stop Key Direction LEDs Reverse Key Stop Key NEMA Type 1 Drive Mounted HIM S Option HNSBC Blank No Functionality Option HNSPC Program Only Option HNS1C Program Control with Analog Speed Pot Option HNS2C Program Control with Digital Speed Pot NEMA Type 1 Door Mounted HIMS Option HABC Blank No Functionality Option HAPC Program On
106. E CROSS REFERENCING NUMBERS ADJACENT TO SOURCE INDICATES TBA TERMINAL BLOCK AND DESTINATION SYMBOLS INDICATE SHEET AND LINE NUMBERS FROM 1 24 OM T 2 1 24 INDICATES LINE NO 24 4 INDICATES TERMINAL ON INDIVIDUAL lls COMPONENTS TO 1 24 INDICATES SHEET NO 1 e N N N N N N N M N 2 D gt oa gt o gt o on on EN S 9 6 8 G G NB Ga aig o R FGF S 4090 G N The Drive and Power Distribution page of the drawings contains the 1336 PLUS II drive the heart and brains of the system and all the power related components The power distribution scheme is determined by the catalog number options chosen Any Human Interface Modules or drive mounted options located within the drive package will also be shown on this page M otor data will be shown if supplied with the order or if an Allen Bradley motor is ordered 112 Drawing Sample Page 2 Control Interface SQNV9 SNOILdO 91907 TONLNOD 19 dHO BAIN OV 9ESl NILATING OLLWNSHOS e N B5 INPUT O 10V TX 20M INPUT INPUT INPUT 1 SIGNAL COMMON 0 1ov INPUT 2 POT L 0 20MA OM OUTPUT 0 0 10V OUTPUT 1 0 10V SIGNAL COMMON LOGIC EARTH GND CUSTOMER INTERLOCK 8 _ 2204 OFF HAND AUTO 2203 TERMINAL BLOCK TB2 CR1 commonp CR2 CR7 CR7 e ho N CR7 CR7 51
107. ED SEL 1 DEFAULT BREAK FREQUENCY 25 MAX FREQ DEFAULT CR OUT SEL AT SPEED DEFAULT ANLG IN 2 LO 0 DEFAULT BREAK VOLTAGE 25 RATED V DEFAULT DIG OUT FRE DEFAULT ANLG IN 2 HI 100 DEFAULT STOP SELECT 2 COAST DEFAULT DIG OUT CURRENT DEFAULT ANLG SIGNAL LOSS X0000000 DEFAULT S CURVE TIME 0 0 SECS DEFAULT DIG OUT TORQUE LINE LOSS MODE LOBUS gt OFF DEFAULT S CURVE ENABLE DISABLED DEFAULT SPEED DEFAULT PULSE IN SCALE 64 DEFAULT PRESET FREQ 4 0 0 HZ DEFAULT SPEED KI DEFAULT DSP COMM FAULT ENABLED DEFAULT E PRESET FREQ 5 0 0 HZ DEFAULT BOOST SLOPE 15 DEFAULT DIG AT TEMP 120 DEGC DEFAULT PRESET FREQ 6 0 0 HZ DEFAULT CR2 OUT SELECT RUNNING DEFAULT MOTOR THERM FLT ENABLED DEFAULT PRESET FREQ 7 0 0 HZ DEFAULT OUT SELECT FAULT DEFAULT ALARM MASK 2 1111111111171111 DEFAULT SPEED CONTROL SLIP_COMP DEFAULT CR4 OUT SELECT ALARM DEFAULT ANLG OUT 1 SEL CURRENT DEFAULT TRAVERSE PERIOD 0 00_ SECS DEFAULT MOTOR NP RPM 1750 RPM DEFAULT ANLG OUT 1 LO 0 0 DEFAULT MAX_TRAVERSE 0 00 HZ DEFAULT MOTOR NP HERTZ 60 HZ DEFAULT ANLG OUT 1 HI 100 0 DEFAULT P_JUMP 0 00 HZ DEFAULT PROCESS 2 PAR 54 DEFAULT ANLG OUT 1 ABS ENABLED DEFAULT BLWN FUSE FLT ENABLED DEFAULT PROCESS 2 SCALE 1 00 DEFAULT ANLG OUT 1 OFFST DISABLED DEFAULT CUR LIM TRIP EN DISABLED DEFAULT PROCESS 2 TXT 1 A DEFAULT PULSE OUT SELECT OUTPUT FREQ DEFAULT RUN BOOST 0 VLTS DEFAULT PROCESS 2 TXT 2 DEFAULT PULSE OUT SCALE 64 DEFAULT F RESET RUN TRIES 0 DEFAULT PROCESS 2 TXT 3 DEFAULT ENCODER LOSS S
108. EL DISABLED DEFAULT ANALOG TRIM EN DISABLED DEFAULT PROCESS 2 TXT 4 DEFAULT QUICK STOP LIMIT 150 DEFAULT LOW BUS FAULT ENABLED DEFAULT PROCESS 2 TXT 5 DEFAULT BUS REGULATION DISABLED DEFAULT LOGIC_MASK 11111111 DEFAULT PROCESS 2 TXT 6 M P 5 DEFAULT PHASE LOSS DET DISABLED DEFAULT LOCAL MASK X1111111 DEFAULT PROCESS 2 TXT 7 DEFAULT LOAD LOSS DETECT DISABLED DEFAULT NOTE THE READ ONLY PARAMETERS NOT LISTED FOR MORE INFORMATION REFER TO PUBLICATION 1336 PLUS 5 3 N m o o R oo 8 m 075 Q LOAD LOSS LEVEL 50 DEFAULT LOAD LOSS TIME 0 SEC DEF AULT w ACAD s 08 28 98 TRS wm 07 02 98 wm BAH we 07 02 98 REFERENCE DWG L DM 1336F MASTERF INDEX WS SAMPLE 0001 SH1 6 o o Q N N m mm CONFIGURATION PARAMETER LISTING V1 004 FOR BULLETIN 1336 PLUS Il AC DRIVE PROJECT B8 0 o F g mo m om m Configured Drive factory default values Extra room parameter settings The Parameter Settings page provides a list of the parameters the normal Standard Drive factory default values and the specia 117 Packaging Programs When Allen Bradley Manufactures Yo ur Enclosure Sizing Factory Wired Options Dr
109. EMA Type 1 12 40001 109 02 ASA 49 GRAY Enclosures Specifications Mounting and Spacing Requirements Approved Mounting Methods for Wall M ounting Enclosures CEILING 1524 mm oO 6 01n Approved Mounting Methods for Floor Mounting Enclosures Not Acceptable All Floor Mounting Style Enclosures can be mounted tight against the back wall NEMA Type 1 Floor M ounting Style Force ventilated as standard may be mounted side by I side with zero clearance D e NEMA 12 Floor ounting Style Enclosures Approved Mounting will require six inch clearance on the sides E 152 4 mm o 1 6 0 in S 101 6 mm 4 0 in NOT ACCEPTABLE Approved Mounting Method Approved Mounting Method Um 1 Some horizontal mounting conventions are acceptab 6 0 In FLOOR BUTS provided the application and packaging is reviewed with Allen Bradley Input Conditioning In general the 1336 PLUS II drive is suitable for direct connection to a correct voltage AC line that has a minimum impedance of 1 3 for 0 37 22 kW 0 5 30 HP drives relative to the rated drive input KVA If the line has a lower impedance a line reactor or isolation transformer must be added before the drive to increase line impedance If the line impedance is too low transient voltage spikes or interrupti
110. F15 A 38 2 40 2 3 8 15 4 0 15 BRF20 AN BRF20 AA BRF20 AE BRF20 AF BRF20 A 53 3 60 3 53 22 6 0 22 BRF30 BRF30 AA BRF30 AE BRF30 AF BRF30 A 84 5 90 5 84 37 9 0 37 BRF50 AN BRF50 AA BRF50 AE BRF50 AF BRF50 A 133 75 154 10 133 5 5 154 15 BRF75 AN BRF75 AA BRF75 AE BRF75 AF BRF75 A 161 10 220 15 16 1 15 22 0 1 BRF100 AN BRF100 BRFIOO AE BRF100 AF BRF100 AJ 240 15 240 15 24 0 11 24 0 BRF150 150 BRF150 AE 150 AF BRF150 270 20 27 0 20 21 0 15 210 15 BRF200 AN BRF200 AA BRF200 AE BRF200 AF BRF200 AJ 242 15 27 20 24 2 11 27 15 B015 A B015 AA B015 AE B015 AF B015 AJ 3 2 34 25 31 15 34 18 5 B020 A B020 AA B020 AE B020 AF B020 AJ 39 2 42 30 39 18 5 42 22 B025 A B025 AA B025 AE B025 AF B025 AJ 45 30 48 30 45 22 48 22 B030 A B030 AA B030 AE B030 AF B030 AJ 59 40 59 40 50 30 59 30 BX040 BX040 AA BX040 AE BX040 AF BX040 60 40 65 50 60 30 65 37 B040 A B040 AA B040 AE B040 AF B040 AJ 75 50 75 60 75 37 75 45 B050 A B050 AA B050 AE B050 AF B050 AJ 7 60 7 60 7 45 7 45 BX060 AN BX060 AA BX060 AE 4 BX060 AF 4 BX060 AJ 4 85 60 96 75 85 45 96 56 B060 A B060 AA B060 AE 3 3 106 75 120 100 106 56 120 75 B075 A B075 AA B075 AE 3 3 138 100 150 125 138 75 150 93 8100 A B100 AA B100 AE 3 3 13 125 180 150 173 93 180 112 B125 A B125 AA B125 AE 3 3 180 150 180
111. GM 5C GM S2C Frame A Drives MQ2 MQ GM5C GM1C GM2C GM S5C Frame A Drives MQ3 MQ2 GM6C GM 1C GM 2C GM 5C GU6C GM S6C Frame A Drv MX3C GMSIC GDIC GM 1C GM S2C GM S5C HNSBC HNSPC N3 LA2C LA6C LA7C NAT N5C N5T HNSIC HNS2C NAC LA2C LAGC LA7C N3 N4T NSC NST GMS2C GD2C GM 2C GM S1C GM S5C HNSBC HNSPC LA2C LA6C LA7C N3 N4C N5C N5T HNSIC HNS2C NSC LA2C LAGC LATC NAT NST GM S5C pum pem GM S2C HNSBC HNSPC NST LA2C LATC N3 NAC NSC GMS6C GM6C GMS1C GMS2C GM S5C HNSBC GU6C NGA NTA N8A HNSPC HNS1C HNS2C NTA NGA NBA GU6C 24V DC user supplied power GM 6C GM S6C GDIC GD2C N8A N6A N7A HAIC 2 HJ BC HJ PC HJ 2 UL 111 Drawing Sample Page 1 Drive and Power Distribution Each Configured Drive ships with a set of order specific computer generated schematics Though a given drive package may be configured and ordered as desired by the customer the drawing information remains consistent This is especially helpful when multiple drive ratings and or different configurations are ordered The following pages illustrate a typical set of 1336 PLUS II Configured Drive schematics 2 u st O10 2 V Ol V ohn AC LINES 3 5 47 60 UNE O 480V PE CHASSIS ADAPTER 1 18 45 TERMINAL BLOCK 1 TER
112. HP 1016 AL IP 54 NEMA 12 350 450 HP gt 4 00 lt gt 2032 0 IP 20 NEMA Type 1 pP 381 254 0 80 00 IP 54 NEMA Type 12 250 300 HP Y lt 15 0 gt lt 0 0 gt 1 O A h e BIS BB F Q 0 r 2286 0 90 00 DRIVE OPTION DRIVE OPTION BYPASS OPTION ENCLOSURE ENCLOSURE ENCLOSURE low lt 152 4 6 00 for e Air x Flow 762 0 508 0 762 0 z 635 0 30 00 20 00 30 00 25 00 26 00 lt 2 00 l lt 16 00 gt nm 7 20 Option Mounting Location Y N Mountable Option Codes From Previous m 750 Option List Page Plus BA BM CC D41 D42 DT FM ZA Consult Factory Option Codes From Previous Option List Page Plus BC BD BP BS MP12A 400 gt I lt 1600 gt lt 400 MP12N MP18A MP18N MQ2 n Removable Lifting Angle 11 56 Y 7 50 Vented Areas 1 20 NEMA Type 1 Only Air Conditioner 1 54 NEMA 12 A N 350 450 HP Only I A 350 HP Dimension is actually 139 7 5 50 1 69 3 50 4 0 625 DIA 6 MTG HOLES 15 00 lt 25 00 25 00 Approximate Shipping Weights All Weights in Kilograms and Pounds Three Phase Ratings All Dimensions in Millimeters and Inches Drive Drive Option and Bypass Option Enclosures 460V CT 460V VT 575V Al A2 20 NEMA 1 1 54 NEMA Type 12 F 187 224 224kW NOT APPLICABLE 139 7 1066 1066 250
113. Hz Encoder Counts 283 1 Count 82767 0 Enc Count Scale 282 0 4096 one Encoder Loss Sel 284 Settings Selection Paramete Disabled Encoder Freq 63 0 01 Hertz 0 00 400 00 2 one axEncCounts 328 1 Count 0 32767 0 Process PI Speed Control 71 Settings Selection Parame Slip Comp PI Config 213 Bit 1 0 0 1 00000000 PI Status 214 Bit 1 0 Read Only None PI Ref Select 215 Settings Selection Paramete Preset 1 PI Fdbk Select 216 Settings Selection Paramete Analog In 1 PI Reference 217 0 01 Hertz 400 00 Hz None P Feedback 218 0 01 Hertz 400 00 Hz None PI Error 219 0 01 Hertz 3400 00 Hz None PI Output 220 0 01 Hertz 400 00 Hz None KI Process 221 N A 0 1024 128 KP Process 222 N A 0 1024 256 PI Neg Limit 223 0 01 Hz 3400 00 Hz 8 33 Max Freq PI Pos Limit 224 0 01 Hz 3400 00 Hz 8 33 Freq PI Preload 225 0 01 Hz 38 33 Max Freq 0 00 Hz Motor Control Control Select 9 Settings Selection Parameter Sens Vector Flux Amps Ref 192 01 0 0 75 Drive VT Rtd Amps 0 0A R Drop Volts 194 1Volt 0 25 Drive Rated Voltage 0 Volts Flux Up Time 200 0 1 Sec 0 0 5 0 Sec 0 0 Sec Start Boos 48 1Volt 0 9 5 Drive Rated Voltage 0 Volts Run Boos 83 1Volt 0 9 5 Drive Rated Voltage 0 Volts Boost Slope 169 one 1 0 8 0 15 Break Voltage 50 1 Volt 0 50 Drive Rated Voltage 25 Drive Rtd V Break Frequency 49 1 Hertz 0 120 Hz 25 M ax Freq Base Voltage 18 1 Volt 25 120 Drive Rated Voltage Drive Rtd Volts Base Frequency 17 1 Hertz 25 400 Hz 60 Hz aximum
114. M 14 10 00 87 F Page 52 3 303 6 2 1 600 M CM 14 23 00 200 G Page 52 303 6 2 1 600 M CM 14 23 00 200 1 Wire sizes given are maximum minimum sizes that TB1 will accept these are not recommendations 2 Applies to 30 kW 40 HP 200 240V 45 amp 56 KW 60 amp 75 HP 380 480V 56 kW 75 HP 500 600V drives only 3 These configurations of TB1 are stud type terminations and require the use of lug type connectors to terminate the field installed conductors a Pre Installation Power Wiring TB1 1 Fane 200 240V 0 37 3 7 kW 0 5 5 HP Terminal Designations 380 480V 0 37 3 7 kW 0 5 5 HP Terminal Designations amp lelelelelelelelele GRD GD R S T DO DO U V W L1 L2 L3 T T2 T3 Y A Dynamic Brake E Option To Motor Taisi o Motor T Required 1 Required Branch Input Fusing Circuit Disconnect T AC Input Line Er 200 240V 5 5 kW 7 5 HP Terminal Designations 380 480 500 600V 5 5 11 kW 7 5 15 HP Terminal Designations PE PE DC DC R S T U w 2 3 T T2 T3 i Dynamic Brake To Motor 1 Required Branch Required I Circuit Disconnect Input Fusing AC Input Line r 200 240V 15 22 kW 20 30 HP
115. MINAL BLOCK TB2 INTERFACE CONTROL BOARD FOR DETAILED INFORMATION REFER TO PAGE 2 TERMINAL BLOCK TB3 INTERFACE BOARD FOR DETAILED INFORMATION REFER TO PAGE 2 BULLETIN 1336 PLUS Il DIGITAL AC DRIVE 30 HP CT FOR FURTHER DRIVE INFORMATION REFER TO 460 VOLTS INSTRUCTION MANUAL PUBLICATION 1336 PLUS 5 3 45 0 AMPS 3W 0Zv1 0x Wn on sn 3n 92vH 91N9 W3 LSO L Q ZZO 210 19 99 82 v8 vV20 08 49cc1 FLV x RIO ADAPTER FROM PREVIOUS SHO 7 RACK OR PLC BACK TO NEXT RACK A TER GM1 OR TERMINATING DETAILED INFORMATION RESISTOR REFER TO PUB 1203 5 1 ADAPTER 2 TERMINAL BLOCK TB HUMAN INTERFACE MODULE sc set a J v H D 0 MOTOR DATA HP VOLTS FLA RPM BASE 193rOud NOLLRBIMISIO M3MOd LO dH0 3AlO OV 91 NILATING OLVW3HOS REFER TO MOTOR NAMEPLATE FOR DATA MOTOR FLA MUST NOT EXCEED DRIVE AMP RATING GENERAL NOTES 4 COIL AND CONTACT CROSS REFERENCING NUMBERS ADJACENT TO COIL AND UNDER CONTACT INDICATE SHEET AND LINE NUMBERS BUILDING GROUND TO BE GROUNDED z R BY CUSTOMER SIGNAL COMMON 5 O4 123 INDICATES LINE NO 3 voc E INDICATES SHEET NO 1 POWER EQUIPMENT GROUND 248 7H CHASSIS CONNECTION X UNDERSCORED TEXT LINE INDICATES NORMALLY CLOSED CONTACT INDICATES COMPONENTS SUPPLIED BY OTHERS OFF PAG
116. N 555 DRIVE FAULT PL4 15 DRV OFF BP 554 NOT USED 16 RUN TIME EA6 23 62 NOT USED 17 DRIV DISABLE PBI 24 77 DIMENSIONS ARE IN MILLIMETERS INCHES 25 78 1125 44 275 7 95 0 313 WIDE mo NOTE ENCLOSURE WATTS LOSS IS BASED ON THE CARRIER FREQUENCY OF 4KHZ OPERATION AT HIGHER FREQUENCIES MAY REQUIRE ADDITIONAL COOLING CHASSIS LAYOUT S LALLA LALLA LAL 31 883 ON 9 1 5 1000 7 60 23 82 162560 DATA NAMEPLATE amp 1336 F BO3OCAA BA CB CC CT D12 D22 D41 D5i FM GMIC HAZC JF JR JC JM KD 40 LAZC ME ERS 15 75 WZ SAMPLE 0001 ZZ SAMPLE 0001 SAMPLE 0001 2 193OYd VIVO INNLNO JYNSOTONI LO dHOC 3AING OV 9EEL NLL3TI08 1000 31 5 9 20 7 87 MOUNT BUSS LEFT OF OTHER COMPONENTS 200 7 87 400 15 75 600 23 62 U G G N N 2 O N 92 sec vC gc ee r4 02 This page of drawing package provides all the necessary enclosure information including dimensions conduit access operator devices and location and panel layout The actual drive system data nameplate is also shown on this sheet t
117. OUS PAGE OVERLOAD RELAY BYPASS CIRCUIT BREAKER OR DISCONNECT SWITCH BYPASS MOTOR FUSES All dimensions in millimeters and inches 1194 48 00 1067 42 00 914 36 00 7622 30 00 610 24 00 457 18 00 305 12 00 152 6 00 WITHOUT OPTION BAY 1336 PLUS II DRIVE 5TD TERMINAL 0 BLOCK STD 152 6 00 305 457 610 762 918 12 00 18 00 24 00 30 00 36 15 AUTO BYPASS LOGIC MOTOR GROUND TERMINAL LINE GROUND TERMINAL SIGNAL GROUND TERMINAL 97 Panel Layouts D Frame Drives 230V 30 45 kW 40 60 HP 460V 45 112 kW 60 150 HP 180A 575V 56 93 kW 75 125 HP IP20 or IP54 NEMA Type 1 or NEMA Type 12 Consult Allen Bradley when adding additional heat producing components to existing NEMA Type 12 rated drives WITH OPTION BAY WITHOUT OPTION BAY 2286 2286 90 00 90 00 2133 6 2133 6
118. P54 NEMA Type 12 350 450 HP Only 350 HP Dimension is actually 139 7 5 50 6 Special Smaller Enclosure A single 762 mm 30 In wide enclosure may be used if the option list requirements below are met Consult factory for custom quotation in all cases Any combination of CM D10 D91 EC EP ET GD1C GD2C GM1C GM2C GM5C J C JR JT LAC L5C L4EC L5EC L6EC LA C ME all HIMs and a max of 1 CF EB N3 NAT N5C NST or Approximate Shipping Weights All Weights in Kilograms and Pounds Drive and Drive Option Enclosures 460V CT 460V VT 575V Al A2 C1 20 NEMA Type 1 IP54 NEMA Type 12 F 187 224 kW 224 kW 1397 624 624 250 300 HP 300 HP _ NO Na CEDERE 5 50 1375 1375 325 360 A 360 A REQUIRED 261 336 kW 261 336 KW 261 298 kW 16574 14224 234 9 2159 624 805 350 450 HP 350 450 350 400 HP 65 25 56 0 9 25 8 50 1375 1775 425 525 A 425 525 A 425 475 A 89 Dimensions IP20 NEMA Type 1 and IP54 NEMA Type 12 Dimensions for F Frame Drives with Bypass lt IP 54 NEMA Type 12 350 450
119. Preset Freq 6 Closed Closed Closed Preset Freq 7 Important The final speed command may be affected by the type of modulation selected with Speed Control parameter 77 Example Application is to follow a local HIM unless a preset speed is selected The drive is programmed as follows Freq Select 1 Adapter 1 1 Tao Freq Select 2 Preset Freq 1 SS RN esl Preset Freq 1 2 10 Hz 2 eal Speed Select 2 Preset Freq 2 20 Hz Table 28 IKN peed Select 1 Preset Freq 3 30 Hz rac Contact operation for the speed select switch is described in the table below If the user does not select an input as Speed Select 3 Preset Freq 4 7 would not be available Speed Select Input Parameter Used for Programmed Position 1 28 2 27 Speed Ref Setting Local Open Open Freq Select 1 Adapter 1 1 Closed Open Freq Select 2 Preset Freq 1 2 Open Closed Preset Freq 2 20 Hz 3 Closed Closed Preset Freq 3 30 Hz 44 Pre Installation Encoder Inputs Encoders must be line driver type quadrature or pulse 5V DC or 8 15V DC output single ended or differential and capable of supplying a minimum of 10mA per channel Maximum input frequency is 250 kHz Encoder inputs are available at TB3 The interface board is jumper selectable to accept a 5V TTL or 12V DC square wave with a minimum high state voltage of 3 0V DC TTL or 7 0V DC 12 volt encoder M aximum low s
120. RS232 422 485 DF1 GM1C Single Point RIO GM2C RS232 422 485 DFI GM5C DeviceNet 6C Enhanced DeviceNet GMS1C Single Point RIO GM S2C RS232 422 485 DFI GMS5C DeviceNet GMS6C Enhanced DeviceNet HABC HIM Blank NEMA Type 1 Programmer NEM A Type 1 M Analog NEMA Type 1 M Digital NEMA Type 1 Programmer NEM A Type 12 M Digital NEMA Type 1 M Blank Open M Programmer Open M Digital Open ontacts Control Power On ontacts Fault LC Hardware amp M ounting ontacts Alarm ontacts Run SLC Hardware amp Mounting Contacts At Speed KD Contactor Drive Input KM Contactor Drive Output LAIC Two Analog Outputs One Input LA2C Two Analog Inputs Two Analog Outputs LA4C One Analog Input and Output LA5C Two Analog Outputs One Input LA6C Two Analog Inputs LATC Two Analog Inputs L4C Control Interface TTL NOTE Not all options are available with all ratings MP18A 18 CODE DESCRIPTION L5C Control Interface 24V L6C Control Interface 115V AC Std L7EC Control Int TTL Encoder L7EC Control Int TTL Encoder L8EC Control Int 24V Encoder L9EC Control Int 115V Encoder LQ Output Reactor NEMA 1 LR Input Reactor NEMA 1 LT Input Reactor NEM A 4 12 LW Output Reactor NEMA 4 12 MB Blower Motor Starter ME Motor Time Run M eter MH Motor Heater Control Remote Power MH2 Motor Heater Control Local Power MK Thermal
121. V 341438 527 424 532 B500C 372 470 565 454 590 500 B450V 372 470 565 454 590 B600C 431 552 664 534 670 600 B500V 431 552 664 534 670 Constant Torque Input Input Output Output Cat No kVA Amps kVA Amps CF1OC 2125 24 21 2 CF20C 42 5 48 42 4 CF30C 62 215 72 62 6 CF50C 8 3 10 9 6 8 3 8 C007C 9 11 10 10 10 C010C 11 13 12 12 12 C015C 17 20 19 19 19 020 21 26 25 24 24 025 27 32 31 30 30 C030C 31 37 36 35 35 C040C 38 45 44 45 45 C050C 48 57 55 57 57 C060C 52 62 60 62 62 C075C 73 88 84 85 85 C100C 94112 108 109 109 125 118 142 137 137 138 C150C 14 173 167 167 168 C200C 216 260 250 252 252 C250C 244 293 282 283 384 CX300C 256 307 295 297 300 C300C 258 300 297 299 300 C350C 301 361 347 349 350 C400C 343 412 397 398 400 C450C 386 464 446 448 450 C500C 429 515 496 498 500 C600C 515 618 595 598 600 STV ee 1 Drive ratings are at nominal values Refer to the Drive Derating Guidelines in the Standard Drives section 2 480V only Drive Specifications Standard AC Line Fusing Drive input fuses are supplied as standard with any configured drive package The fuses provide branch circuit protection for the drive Generally fuses and fuse blocks are supplied F frame drives will have the fuses mounted internally to the drive itself If a Drive Disconnect Switch option is supplied the fuses will be resident on that switch except F frame drives Configured drives may have different input fu
122. W 250 600 HP Terminal Designations Oo FX 22 AN Z Z Fx 3 2 L Q K 4 C Re uired Brake Fusing 5 U V w c Required Branch M1 M3 ircuit Disconnec AC Input Line Brake terminals are located L behind the U terminal To Motor e Access terminals from side of chassis typical terminal layout 1 User supplied located at top of drive located at bottom of drive 39 Pre Installation Control and Signal Wiring General Wiring Information General requirements for analog signal wire include stranded copper 0 750 0 283 mm 18 22 AWG twisted pair 100 shield with drain wire 300V minimum insulation rating and a temperature rating suitable for the application not less than 60 degrees C The recommended signal analog 1 0 wire is Belden 8760 9460 or equiv 0 750 mm 18 AWG twisted pair shielded Belden 8770 or equiv 0 750 mm 18 AWG 3 conductor shielded for remote pot only The recommended wire for encoder inputs outputs is Lengths less than or equal to 30 meters 98 feet Belden 9730 or equiv 0 196 mm 24 AWG individually shielded Lengths greater than 30 meters 98 feet Belden 9773 or equiv 0 750 mm 18 AWG twisted pair shielded Signal Connections If the drive control connections are to be linked to an electronic circuit or device the common or OV line shoul
123. able from 20 to 160 of rated output current Independently programmable proportional and integral gain Inverse Time Overload Capability Class 10 protection with speed sensitive response Investigated by U L to comply with N E C Article 430 ULL file 59272 volume 4 6 Display Specifications Local Programming and Display Panel Backlit Supertwist LCD display 2 lines 16 characters each M ulti lingual display of status faults and programming Process Display provides 2 lines any 2 parameters scalable with user text Selectable Power Up display Load Specifications Requirements A balanced 3 phase inductive motor load is typical Drive power rating is based on a typical NEMA Design B 4 or 6 pole motor 10 1 second increments using a HIM or 0 01 with serial communications Specifications Input Output Ratings Requirements Each 1336 PLUS II Drive has constant and variable torque capabilities Note Drive ratings are at nominal values Refer to Derating Guidelines on Pages 56 60 Constant Torque Cat Input Input Output Output No Amps Amps REI 200 240V Drives AQF05 11 2 8 0 9 2 3 AQFO7 1 4 3 5 1 2 3 0 AQF10 2 2 5 4 1 8 45 AQF15 2 9 13 24 6 0 AQF20 3 9 9 7 3 2 8 0 AQF30 5 7 143 48 12 AQF50 8 5 21 3 7 2 18 AQF75 9 0 22 6 8 8 22 A007 10 12 28 8 8 22 A010 12 14 35 14 34 A015 17 20 49 19 48 A020 22 26 63 26 65 A025 26 31 31 77 A030 27 33 79 32 80 040 41 49 119 48 120 A050 52
124. actory mounted options than what is normally available with a standard product Ratings are provides for 0 37 93 kW 0 5 125 HP at 230V 0 37 448 kW 0 5 600 HP at 460V or 0 75 448 kW 1 600 HP at 575V Separate constant torque and variable torque ratings are available for 460V applications Packaging Removable common Human Interface Module Provides simplicity of programming and flexibility of operation Thermal dissipation management Design and extensive infra red testing minimizes hot spots to maximize reliability Modular enclosure Design to accommodate a wide variety of drive ratings and option combinations IP 20 IP65 amp IP54 NEMA Type 1 4 amp 12 configurations Accommodated with heat sink through the back design wherever possible Standardization Pre defined to reduce cost and time By using pre defined and in most cases pre engineered options standardization provides consistency of product offering resulting in reduced costs shorter delivery time and ease of product installation Even in the case of custom designed drive packages generally 80 of the engineering already exists Drive Specifications General Specifications In most cases the general specifications of a configured drive package will match those of a stand alone drive refer to pages 18 and 19 Some items such as Agency Certification and M aximum Short Circuit Protection will be specific to the configured drive options chosen A
125. ailable and mounting convention panel layouts customer wiring connection locations and extra customer mounting area terminal block descriptions what connections land where and catalog number definition how do order exactly what need Pay special attention to all footnotes and carefully read all warnings ATTENTION The following information is merely a guide for proper installation The Allen Bradley Company cannot assume responsibility for the compliance or the noncompliance to any code national local or otherwise for the proper installation of this drive or associated equipment ALLEN BETATE Y A hazard of personal injury and or equipment exists if codes are ignored during installation contactor Both functions disable inherent or optional dynamic braking effects If hazards of injury due to contact with moving machinery or unintentional flow of liquid gas or solids exist it is the user s responsibility to provide an additional hardwired stop circuit in accordance with applicable codes and standards ATTENTION The drive disable circuitry only shuts off the power transistors or opens an output Configured Drives are packaged in NEMA Type 1 4 or 12 enclosures with the heatsinks mounted out the back wherever possible G frame drives and certain special NEMA ratings will require internally mounted heatsinks Each enclosure type lends itself to a particular type of protection and environment The enclosures
126. ame size Frame Shipping Reference A B C Max E Y Z AA Weights Al 215 9 290 0 160 0 185 2 275 0 15 35 75 130 0 4 31 8 50 11 42 6 30 7 29 10 83 0 60 0 30 5 12 3 00 3 36 9 5 A2 215 9 290 0 180 5 1852 215 0 15 35 75 130 0 76 2 85 3 5 49 8 50 11 42 7 10 7 29 10 83 0 60 0 30 5 12 3 00 3 36 12 1 A3 215 9 290 0 207 0 185 2 275 0 15 35 75 130 0 76 2 85 3 6 71 8 50 11 42 8 15 7 29 10 83 0 60 0 30 5 12 3 00 3 36 14 8 A4 260 0 350 0 212 0 230 0 320 0 15 35 15 35 130 0 133 0 86 0 15 90 10 24 13 78 6 35 9 06 12 60 0 60 0 60 5 12 5 23 3 39 35 0 1 Refer to the Derating Guidelines on Pages 56 60 for derating information 2 KW HP are constant torque CT ratings 22 Pre Installation IP 20 NEMA Type 1 Dimensions Frames B C D gt a A A AB Allen Bradley A AA Y A BB Mounting Holes 4 See Detail Frames B amp C All Dimensions in Millimeters and Inches All Weights in Kilograms and Pounds Frame Reference A Z Y A lt C Max gt G gt F gt 00000 Mounting Hole Detail O Frames B amp C 7 1 0 28 7 4 0 28 12 7 0 50 E 4 12 7 0 50 Mounting Hole Detail Frame D 10 4 0 41 Dia N 147 0 58 O
127. available adapter ports while B Frame amp larger drives have 6 ports With the possibility of many devices able to issue drive control functions start stop reverse speed reference etc the 1336 PLUS II offers a mask for each control function that gives the user complete flexibility to lock out any function except stop from any port M EN EU RC EE E os jog from Adapter 1 Denies jog from Adapter 3 Typical J og M ask 15 Function Description Traverse Function The 1336 PLUS I output frequency can be programmed to modulate e Traverse Period P J urp 4 around a set frequency This is accomplished by programming three 40 parameters to develop an inertia compensated triangular waveform Traverse Period M ax Traverse and P J ump In surface driven winding applications the waveform developed can be used by traverse drives to perform the traverse function electronically A traverse drive will move the thread back and forth in a diamond i pattern to distribute the thread evenly across a tube surface To prevent a build up of thread at the same points on the surface this P J ump pattern must be altered This can be accomplished by continuously varying the speed of the traverse in a cyclical manner over a Specified speed range W ith the use of inertia compensation 20 Pi the result is a series of distributed diamond patterns over the Seconds entire tube surface _ P J
128. awings Cat No 1301 APPDWG Black amp Whites Cat No 1301 APPRV Velumes One set 11 x 17 electrical schematics and enclosure outlines see sample drawings at the back of this publication Further engineering and manufacture of drive held until drawings are returned approved by the customer and any changes are approved by the manufacturer Manufacturing Drawings Cat No 1301 M FDW G Black amp Whites Cat No 1301 M FRV Velumes One set 11 x 17 electrical schematics and enclosure outlines see sample drawings at the back of this publication Information Only Does not affect drive manufacturing Availability is typically 2 3 weeks prior to shipment of the drive s Final Drawings Cat No 1301 FINDWG Black amp Whites Cat No 1301 FINRV Velumes Cat No 1301 FINRM M ylar One set 11 x 17 electrical schematics and enclosure outlines see sample drawings at the back of this publication Same drawings as shipped with the configured drive instruction book Special Drawings and Reports Cat No 1301 TESTR Cat No 1301 CERM TR Cat No 1301 CERXFR Cat No 1301 CERLR Cat No 1301 DISK Cat No 1301 HARM 1 Cat No 1301 HARM 2 Cat No 1301 HARM 3 Cat No 1301 WT Test Report Configured Drive Only Certifies that the configured drive has gone through test Certified M otor Dimension Drawing Certified Transformer Dimension Drawing Certified Line Reactor Dimension Drawing Not a
129. ch as reverse preset speed access jog second accel decel time access and local control selection The function of each input is defined through programming For Configured Drives functions are pre programmed at the factory for a Specific application and configuration and should not require field re programming A variety of combinations made up of the following inputs are available Control Interface Options Start 2Accel Decel Rates 2 Stop Mode Selects 115V 24V TTL Stop Clear Fault 3 Speed Selects Run Forward AC AC DC Contact Reverse Enable Run Reverse ER Std L5C LAC Digital Potentiometer MOP Auxiliary Local Control ith E NERO loc Gu routinely disconnects then reapplies line power to the drive for the purpose of starting and stopping the motor is not recommended If this type of circuit is used a maximum of 3 stops in any 5 minute period with a minimum 1 minute rest between each cycle is required These 5 minute periods must be separated by 10 minute rest cycles to allow the drive precharge resistors to cool Refer to codes and standards applicable to your particular system for specific requirements and additional information ATTENTION The drive is intended to be controlled by control input signals that will start and stop the motor A device that ATTENTION User remote speed reference signals are terminated to logic common at TB2 terminals 3 amp 4 This puts t
130. control adjustable frequency PWM AC drive Its advanced design provides Simplicity Design and programming simplicity is evident in An easy to read Supertwist Liquid Crystal Display gives Condensed packaging that allows for easy mounting 2 lines of 16 characters each for easy one finger installation and wiring in all types of applications programming and drive monitoring Common assembly parts that reduces the need to stock Serial communications that provide easy integration and a multitude of parts access to peripheral equipment Fully compatible with all Allen Bradley PLC SLC equipment Easy to program parameters that are organized in a group and element structure for quick access to related functions Common options that are used throughout the entire Simple tuning for optimum torque performance Flexibility Digitally programmable to help provide precise and Configurable 1 0 allows simple connection to many accurate control customer preformed control schemes The 1336 PLUS II uses digitally programmable features to achieve Control inputs and outputs can be programmed to meet nearly precise and consistently accurate control setup and operation every application requirement The drive can be programmed locally from the Human Interface M odule or through a serial communications port using a PLC SLC or DriveTools programming software Performance Powerful algorithms provide unparall
131. current of approximately 10 mA to pull Option L7EC With Encoder Feedback the terminal voltage low to 3 0V DC or less In the high state external circuits must allow the terminal voltage to rise to a voltage of 4 0 5 0V DC Note Reed type input devices are recommended The L4C L7EC option is compatible with the following Allen Bradley PLC modules 1771 0YL 1771 0ZL 24V AC DC Control Interface 3 Circuits used with Option L5C or L8EC must be capable of operating with high true logic Option L5C Without Encoder Feedback DC external circuits in the low state must generate a voltage of no more than 8V DC Option L8EC With Encoder Feedback Leakage current must be less than 1 5 mA into a 2 5k ohm load AC external circuits in the low state must generate a voltage of no more than 10V AC Leakage current must be less than 2 5 mA into a 2 5k ohm load Both AC and DC external circuits in the high state must generate a voltage of 20 to 26 volts and source a current of approximately 10 mA for each input The L5C L8EC option is compatible with the following Allen Bradley PLC modules 1771 0B 1771 0BN 1771 0016 1771 0ZL 1771 0B16 1771 0BD 1771 0Q 1771 0YL 1771 0BB 115V AC Control Interface Circuits used with the standard L6 interface or Option L9EC must be capable of operating with high true logic Standard L6 Interface W ithout Encoder Feedback In the low state circuits must generate a voltage of no more than 30V A
132. d if possible be grounded at the device source end only Important Signal Common User speed reference signals are terminated to logic common at TB2 terminal 5 This puts the negative or common side of these signals at earth ground potential Control schemes must be examined for possible conflicts with this type of grounding scheme Shield Termination TE True Earth The TE terminal block not available on 0 37 7 5 kW 0 5 10 HP A Frame drives provides a terminating point for signal wiring shields The maximum and minimum wire size accepted by this block is 2 1 and 0 30 mm 14 and 22 AWG M aximum torque is 1 36 N m 12 Ib in Use Copper wire only and always separate control and power cabling Cable Routing If unshielded cable is used control signal circuits should not run parallel to motor cables or unfiltered supply cables with a spacing less than 0 3 meters 1 foot Cable tray metal dividers or separate conduit should be used Important W hen user installed control and signal wiring with an insulation rating of less than 600V is used this wiring must be routed inside the drive enclosure and separated from any other wiring and or uninsulated live parts Pre Installation Terminal Block TB2 TB2 is located at the bottom of the M ain Control Board 0 37 7 5 kW 0 5 10 HP A Frame drives have 18 positions Remaining frame sizes from 5 5 KW 7 5 HP and up have 22 positions The maximum and minimum wire size accepted b
133. des 1336F TD001A EN P March 2001
134. detailed below do not normally protect electrical equipment from condensation corrosion or contamination which may occur within the enclosure or enter via the conduit or unsealed openings Users must make adequate provisions to safeguard against such conditions and satisfy themselves that the equipment is properly protected Other enclosure types are available by custom quotation For further information on criteria associated with NEMA enclosure ratings refer to NEM A Standards Publication NO 250 1991 nclosure Types IP20 NEMA Type 1 Type 1 enclosures are intended for indoor use primarily to provide a degree of protection against contact with the enclosed equipment in locations where unusual service conditions do not exist The enclosures are designed to meet the rod entry and rust resistance design tests Slotted openings in the enclosure sides or door s allow for free exchange of inside and outside air IP54 NEMA Type 12 Type 12 enclosures are intended for indoor use primarily to provide a degree of protection against dust falling dirt and dripping non corrosive liquids They are designed to meet drip dust and rust resistance tests There are no ventilation openings within the enclosure to allow free exchange of inside and outside air Closed loop auxiliary cooling may be required for higher HP ratings Specifications calling for NEM A 12 ventilated enclosures should be reviewed with the factory IP65 NEMA Type 4 Type 4 enclosures a
135. e drive has been removed and bus voltage has decayed completely W hen changing either parameter it is important to note that the functions of the Start and Stop inputs will change when power is reapplied to the drive 43 Pre Installation Digital 1 0 Default Settings TB3 The programming options of the Control Interface Option allow the user to select an input combination to meet the needs of a specific installation The firmware will verify programming to assure an appropriate combination has been selected Speed Select Frequency Reference The drive speed command can be obtained from a number of different sources The source is determined by drive programming and the condition of the Speed Select Inputs on TB3 or reference select bits of command word if PLC controlled Refer to Appendix A in Publication 1336 PLUS 5 3 The default source for a command reference all speed select inputs open is the selection programmed in Freq Select 1 If any of the speed select inputs are closed the drive will use other parameters as the speed command source Refer to the table below and the examples that follow Speed Select Input State vs Frequency Source Open Open Open Freq Select 1 Open Open Closed Freq Select 2 Accessed through Freq Select 2 parameter Preset Freq 1 Open Closed Open Preset Freq 2 Open Closed Closed Preset Freq 3 Closed Open Open Preset Freq 4 Closed Open Closed Preset Freq 5 Closed Closed Open
136. e low state must generate a voltage of no more than 8V DC Leakage current must be less than 1 5 mA into a 2 5k ohm load AC external circuits in the low state must generate a voltage of no more than 10V DC Leakage current must be less than 2 5 mA into a 2 5k ohm load Both AC and DC external circuits in the high state must generate a voltage of 20 to 426 volts and Source a current of approximately 10 mA for each input The L5E L8E options are compatible with these Allen Bradley PLC modules 1771 08 1771 0016 1771 0B16 1771 0BD 1771 0YL 1771 0BN 1771 02L 1771 00 1771 0BB Note Option 15 is the same as Option L5E but without encoder feedback terminals Option L6E L9E or L6 115V AC Interface Board Requirements Circuits used with Option L6E L9E must be capable of operating with high true logic In the low state circuits must generate a voltage of no more than 30V AC Leakage current must be less than 10 mA into a 6 5k ohm load In the high state circuits must generate a voltage of 90 115V AC 10 and source a current of approximately 20 mA for each input The L6E L9E options are compatible with these Allen Bradley PLC modules 1771 0W 1771 0A 1771 OWN Note Option L6 is the same as Option L6E but without encoder feedback terminals 1771 0AD IThe encoder loss detection feature of the 1336 PLUS Irequires the use of L7E L8E or L9E wo Specifications Flexible Analog Inputs a
137. e to the motor This minimizes flux current in a lightly loaded motor and results in a lower kW usage M any applications require a holding brake function to stop motor rotation between operations The 1336 PLUS II provides a programmable DC Hold level and DC Hold time to develop holding torque in the motor after a ramp to stop For applications that require a quick stopping time the 1336 PLUS II can inject a DC voltage into the motor for a programmed time to brake the motor to a stop While this does not take the place of an external brake for emergency stopping it is an effective stopping method under normal operation The drive is capable of extended or unlimited injection braking for both stopping and holding a motor It provides Injection braking at selectable levels for extended periods up to 90 seconds Extended Hold Braking up to 90 seconds Continuous event ended Hold Braking This is accomplished by setting the Stop mode to Ramp to Hold In this mode the drive will decelerate according to the programmed decel ramp W hen the drive reaches zero Hertz output it will supply programmed current for hold braking per the DC Hold Level parameter limited to 70 of drive rating until a a Start command is issued or b the Enable input is opened Reset Run Function Description Ramp to Stop 4 Volts Speed KA DC Hold Time DC Hold Level Time p Stop Comma
138. el u Overloading beyond FLA will move the value towards tripping level 100 based on Trip curves are provided for both hot and cold states Parameter settings include of Load Overload Amps from the motor nameplate FLA Min Derate 100 Motor OL Fault parameter to disable the fault condition In addition Bit 14 M otor OL Trip of the Drive Alarm parameter is of Load 5 888 Time to Trip Seconds Cold high 1 any time the existing level of output current will cause an Overload Fault to occur The overload feature remains speed sensitive with Max erai 2 a 3 derating choices 100 Max Derate is used for motors not designed for variable speed 1 dm Min Derate is used for motors with a 4 1 speed range not o intended for operation below 2596 of base Speed Loss No Derate is used for variable speed motors with a speed range of Base Speed Multiple of Overload Amps capability of 10 1 or better Auto Economizer This feature combines stator flux control with an economizer routine to help the end user save energy costs The Auto Economizer monitors drive current and compares it against the full load amps Overload Amps that the user has programmed into the drive In load situations i e idle where the actual current draw of the motor is significantly less than the programmed overload amps the drive will automatically begin reducing the output voltag
139. eled sss vecron performance Starting acceleration and running torque in excess of 250 combined with a constant torque speed range of 120 1 allow the 1336 PLUS II to handle the tough applications other drives can t DriveTools PLC SLC and SCAN port are registered trademarks of Rockwell Automation Specifications AC Input Overvoltage Trip AC Input Undervoltage Trip Bus Overvoltage Trip Bus Undervoltage Trip Nominal Bus Voltage Heat Sink Thermistor Protection Specifications 200 240V Drive 380 480V Drive 500 600V Drive 285V AC 570VAC 690V AC 138V AC 280V AC 343V AC 405V DC 810V DC 1013V DC 200V DC 400V DC 498V DC 324V DC 648V DC 810V DC M onitored by microprocessor overtemp trip Drive Overcurrent Trip Software Current Limit 20 to 160 of VT rated current Hardware Current Limit 180 to 250 of VT rated current dependent on drive rating Instantaneous Current Limit 220 to 300 of VT rated current dependent on drive rating Line transients Up to 6000 volts peak per IEEE C62 41 1991 Control Logic Noise Immunity Showering arc transients up to 1500 volts peak Power Ride Thru 15 milliseconds at full load refer to Page 13 Logic Control Ride Thru 0 5 seconds minimum 2 seconds typical refer to Page 13 Ground Fault Trip Phase to Ground on Drive Output Short Circuit Trip Phase to Phase on Drive Output Environmental Specifications Altitude 1000 m 3300 ft maxi
140. es both a start command and a reverse command to the drive Opening the input issues a stop command to the drive Speed Select 1 2 3 These inputs choose the frequency command source for the drive See following pages for details Stop Type Closing this input selects the stop mode in Stop Select 2 as the method of stopping when a stop command is issued Opening this input selects the stop mode in Stop Select 1 as the method of stopping Sync Normally wired to multiple drives When the Sync input is low the drive operates normally W hen the input is high the speed of the drive will be held constant and the speed command will have no effect During this period the speed input of the drive will normally be changed to a different source and or value Allows Synchronized change of frequency command to multiple drives Traverse Setting this input low disables the traverse function W hen the input is high the traverse function will be active Speed Control must also be set to P J ump for the function to be active Important If a Control Interface Option is not installed the Input M ode parameter must be set to Status default and jumpers must be installed If the drive was shipped from the factory without the option these jumpers will have been installed Important The Input M ode and TB3 Term 22 28 Sel parameters can be changed at any time but the change will not affect drive operation until power to th
141. es the input to be treated as a 0 10V frequency reference only Negative analog signals are treated as zero Failure to set the M ask will generate a Bipolar Direction F16 fault Configured Drives Program options which are typica similar poroduct 48 of North America Other locations should contact their local Rockwell Automation office for availability of Pre Installation Standard Analog 1 0 Setup The 1336 PLUS II has a series of jumpers to connect the standard 1 0 to TB2 when no analog options LA1 LA2 etc are present Connectors J 9 and J 10 see below each have four jumpers connecting pins 1 2 3 4 5 6 and 7 8 These jumpers must be in place for the inputs and outputs to be active at TB2 Connector J 9 Input Configuration J 8 J 11 J 13 0 10V OP g J 13 TB2 3 Input 1 Oo B Pot Configuration Shown TB2 4 8 O Common 0 20 mA TB2 3 6 Cis Input 1 TB2 2 4 O Oa Input 0 TB2 1 2 1 Pot Ref 5V 0 10V Q QO TB2 5 Common g J8 TB2 2 Input 0 O QO 0 10V Configuration Shown 0 20 mA 0 10V TB2 9 8 7 Common O_O i J 11 TB2 6 Input 2 182 8 6 5 Output 1 O O 0 20 mA Configuration Shown TB2 7 3 Output 0 TA TB2 6 2O Input 2 Connector J 10 In addition each input can be configured see figure above for 0 10V 0 20 mA or potentiometer Placing a j
142. eting system and Dl D Q Q Q Q KD aE B1 drive option mounting chassis O O aoa s ag V J Mounting Slots 2 Y y f lt Eee deal Inl Ini Y Y lt 710028 lt 79031 a s 135 Door Radius 12 7 0 50 12 7 0 50 y 14 3 0 56 A Mounting Slots Mounting Holes CONDUIT ACCESS Option Mounting Location or Bottom DRIVE OPTION Codes Not Listed Below ENCLOSURE EXPANDED OPTION Option Codes BA BM CC D41 D42 DT J S ENCLOSURE CONSULT Option Codes BC BD BP BS CM JL LQ LR MP12A FACTORY MP12N MP18A MP18N MQ2 MQ3 Approximate Shipping Weights Eos All Weights in Kilograms and Pounds Three Phase Ratings All Dimensions in Millimeters and Inches Drive Option _Drive Option and Enclosure Only Expanded Option Frame 230V 460V 575V A2 B1 B2 1 C2 Enclosures 1 0 37 3 JkW 0 37 3 7 kW _ 664 7 6398 6096 685 8 11938 407 9 100 1 6609 11689 50 79 0 5 5 HP 0 5 5 HP _ 26 17 25 19 24 00 2700 47 00 16 06 3 94 26 02 4602 110 175 AdorB 5 5 kW 5 5 22kW 0 75 15 kW 9187 8938 863 6 9398 15494 3759 1320 9149 15245 77 129 75 15HP 75 30HP 1 20HP 36 17 35 19 34 00 37 00 61 00 14 80 5 20 36 02 60 02 170 285 C 15 22kW 30 45 19 45kW 9187 8938 8636 13208 19304 3759 1320 1295 9 1905 5 116 166 20 30 HP 40 60HP 25 60 36 17 35 19 34 00 52 0 760 14 80 520 51 02 75 02
143. ever only Stop Fault Reset and Enable will have control function 3 These inputs must be present before drive will start Bit 0 of Direction M ask must 1 to allow TB3 direction change 5 The encoder loss detection feature of the 1336 PLUS II requires the use of L7E L8E or L9E Stop contact terminal 20 will stop the drive If this contact is reclosed any fault will be reset If a valid Start ATTENTION Two wire control uses maintained Run contacts that act as both Run closed and Stop open devices Opening the command is still present the drive will restart If a three wire device i e HIM is also used pressing the HIM Stop key will also stop the drive Releasing the Stop key will clear any faults that are present but the drive will not restart without cycling the Start contact Pre Installation Digital 1 0 Default Settings TB3 Available Functions for Inputs 3 through 8 A variety of combinations made up of the following inputs are available 1st 2nd Accel Closing these inputs 1st or 2nd Accel 1st or 2nd Decel commands the corresponding 1st 2nd Decel rate If both inputs are open or both are closed the current rate is maintained 1st 2nd Accel Decel Allows selection of the accel or decel time used by the drive 1 2nd 0 15 Auxiliary Faults the drive via external devices i e motor thermoswitch O L relays etc Opening this contact will fault
144. evices w 1204 TFB2 Terminator w 1204 TFA1 Terminator Reactor at Drive 2 Motor Motor Motor Motor 1600V or 1600V or 1600V or 1329R L5 1329R L5 1329R L5 A B 1329R L A B 1850V A B 1850V A B 1850V Drive Drive kW Motor kW Any Any Any Any Any Any Any Any Any Any Any Any Frame HP HP Cable Cable Cable Cable Cable Cable Cable Cable Cable Cable Cable Cable M 0 75 0 75 R R A R 182 9 335 3 R 61 0 A 1 1 600 1100 200 0 37 R R A R 182 9 335 3 R 61 0 182 9 0 5 600 1100 200 600 15 15 R R A R A 33513 R 61 0 A 2 2 1100 200 12 R R A R 182 9 3353 R 61 0 182 9 15 600 1100 200 600 0 75 R R 182 9 R 182 9 335 3 R 61 0 182 9 1 600 600 1100 200 600 0 37 R R 182 9 R 182 9 335 3 R 61 0 182 9 0 5 600 600 1100 200 600 3 3 600 1100 200 15 R R A R 182 9 335 3 R 61 0 A 2 600 1100 200 0 75 R R 182 9 R 182 9 335 3 R 61 0 182 9 1 600 600 1100 200 600 0 37 R R 182 9 R 182 9 335 3 R 61 0 182 9 0 5 600 600 1100 200 600 37 37 R R A R 182 9 A R 61 0 A 5 5 600 200 2 2 R R A R 182 9 A R 61 0 A 3 600 200 15 R R 182 9 R 182 9 A R 61 0 A 2 600 600 200 0 75 R R 182 9 R 182 9 335 3 R 61 0 182 9 1 600 600 1100 200 600 0 37 R R 182 9 R 182 9 335 3 R 61 0 182 9 0 5 600 600 1100 200 600 5 5 15 5 5 15 R 91 182 9 91 4 182 9 182 9 R 61 0 182 9 30 5 914 182 9 75 20 7 5 20 30 600 300 600 600 200 600 100 300 600 18 5 45 18 5 45 R 91 182 9 91 4 182 9 182 9 R 61 0 182 9 30 5 91 4 182 9 25 60 25 60 30 600 300 600 600 200 600 100 300 600 D 56 93 56 93 R 91
145. gency Certification Refer to the Codes and Standards in the Options section Maximum Short Circuit Drive Package The short circuit interrupt capability of any configured drive package will be based upon the specific Current Rating combination of power options chosen a Drive Specifications Input and Output Ratings Each 1336 PLUS II Drive has constant and variable torque capabilities In the case of 230V and 575V ratings the constant torque and variable torque ratings will be the same The listings on this page provide input and output current 230V Constant Torque Input Input Output Output Cat No kVA Amps kVA Amps AF05C 11 28 0 9 2 3 AF07C 14 35 12 30 AF10C 2 2 54 18 45 AF15C 2 9 73 24 6 0 AF20C 39 97 32 8 0 AF30C 5 7 143 48 12 AF50C 85 213 72 18 A007C 10 12 28 11 27 010 12 14 35 14 34 A015C 17 20 49 19 48 A020C 22 26 63 26 65 A025C 26 31 15 31 71 A030C 27 33 79 32 80 A040C 41 49 119 48 120 A050C 52 62 149 60 150 A060C 62 74 178 72 180 A075C 82 99 238 96 240 A100C 100 120 289 116 291 A125C 112 134 32 129 325 460V Constant Torque Variable Torque Input Input Output Output Input Input Output Output Cat No kVA Amps kVA Amps HP Cat No kVA Amps kVA Amps BFOSC 0 9 1 13 0 9 11 5 BFOSV 09211 1 1 12 BFO7C 13 16 2 13 16 75 BFO7V 1417 21 14 17 BF10C 16 2 28 16 21 BFLOV 1822 28 18 23 BF15C 2226 33 22 2 8 5 BFISV 23228 35 2 4 3 BF20C 30 37 46 3 3 8 BF20V 32 38 48 3 2 4 BF30C 4251 64 42 53 BF3
146. gi I 17 0 0 6 C EB A Ded 19 0 0 75 Dia BB See Bottom View Dimensions for Details i i OO x oo OOO OO Omn m o O dv I T U Y zi Y Y W N Mounting Holes 4 See Detail All Dimensions in Millimeters and Inches All Weights in Kilograms and Pounds Frame Shipping Reference A B C Max D E Y Z AA BB Weight E Enclosed 511 0 1498 6 424 4 411 5 1447 8 16 8 40 1 195 0 901 4 151 9 186 20 12 59 00 16 71 18 80 57 00 0 66 1 61 7 68 35 49 5 98 410 E Open 511 0 1498 6 372 6 411 5 1447 8 16 8 40 1 1384 680 0 126 3 163 20 12 59 00 14 67 18 80 57 00 0 66 1 61 5 45 26 77 4 97 360 Pre Installation IP 20 NEMA Type 1 amp Open Dimensions Frame F Removable Lifting Angle 762 0 lt 30 00 e Allen Bradley L L L 2748 gt 1082 e 698 5 2 27 50 635 0 63 5 2 50 Y 2286 0 37 9 90 00 149 L gt 193 0 7 60 Y n 1219 2 48 00 527 1 20 75 19 1 075 ovv Y EE Y Conduit Access Area Bottom View 25 00 Open Chassis 487 7 19 20 2527 9 95 lt gt
147. he negative or common side of these signals at earth ground potential Control schemes should be examined for possible conflict with this grounding scheme and possible equipment damage 2 E s ew lt m e g B B lt Eg 8 2 gt s 3 8 3 s n Z Z lt 8 O g 9 E E 2 9o G 90 BTS E B E P s ES E P B E 8 B B BA E b 6 P S 266 amp SF O FF O n n n S i E co n2 _ amp N e a PO Co RB co co INCLUDED ONLY ON x L7EC L8EC amp L9EC OPTIONS 1 q y 3 3 The maximum and minimum wire size accepted by TB3 is 2 1 and 0 30 mm2 14 and 22 AWG Maximum torque for all terminals is 1 36 N m 12 Ib in 1 Configured drives will generally be factory programmed for the control scheme shown Parameter 241 set to 2 which is a 3 wire control and all other inputs set to default Refer to publication 1336 PLUS 5 3 for further information 104 Selection Guide Catalog Number Definition ALLES Base Drive Options as Required 1336F 020C BM GMIC HAIC Product Bulletin No VOLTAGE CODE DUTY ENCLOSURE CODE DESCRIPTION CODE DESCRIPTION CODE DESCRIPTION gt HORSEPOWER The chart shown on the next page details the segments that make up a Configured Drive Catalog Nu
148. hed T3 and bus voltage rises above the 85 level T4 the drive will restore output power to the motor and resume running With the Line Loss Fault parameter enabled if input power is lost T1 the drive will continue to operate until the bus voltage falls below 85 of nominal T2 At this point the drive output is turned off and a 500 mS timer is started One of the following conditions will then occur 1 The bus voltage will fall below minimum before the time expires T6 This will generate an Undervoltage Fault 2 The bus voltage will remain below 8596 but above minimum and the timer expires T5 This will generate a Line Loss Fault 3 The input power is restored T3 and the bus voltage rises above the 8596 level before the timer expires T4 This allows the drive to turn its output on and resume running Power Loss Ride Thru Function Description DIAGRAM 1 100 Vaus 85 Veus ed Minimum Vaus _ Undervoltage Fault EA depends on Low Bus Fault 1 1 l l 1 1 I 1 1 1 1 1 1 1 1 1 1 l l l 1 2 T3 TA T5 T1 Loss of Power 2 Bus Level at 85 of Nominal Outputs Shut Off T3 Power Returned T4 Outputs Turned On T5 Minimum Bus Voltage Level Undervoltage Fault Point DIAGRAM 2 Off Output 100 Vaus 85 Veus Line Loss Fault Minimum Veys P j Undervoltage Fault depends on Low Bus Fault T1 Loss of Power T2 Bus Level at 85 of Nominal Output
149. hey provide full functionality including Start Boost and Run Boost Boost Slope and Full Custom V Hz operation Process Control Simple process control monitoring a feedback device and adjusting drive output according to feedback requirements can be accomplished with the 1336 PLUS II Proportional and integral gain adjustments plus feedback scaling error inversion output clamping and integrator reset functions allow the Process PI function to control the output of the 1336 PLUS II based on the PI reference setpoint and the PI feedback If the feedback device indicates that the process is moving away from the desired setpoint the PI software responds by adjusting the drive output until the feedback again equals the setpoint Selectable inputs provide auto manual capability for open loop threading operation Programmable presets and preloads assure smooth transitions PI Reference Select Integral Term 0 pi reference PI Reference Feedback Select gt NI pi feedback PI Feedback Speed Adder PI Config sqrt_fdbk PI Config inv error Parameter 65 PI Output Freq Command Master Frequency Reference t T Spei x 432767 Compute peed Accel pee gt command e A E gt PI Config zero_clamp Output Frequency Function Description Encoder Feedback For those applications that require excellent speed regulation iio
150. his is helpful for customers who might have multiple drives in one location and need to quickly match up the correct documentation for each actual drive by comparing nameplates 115 Drawing Sample This page provides a list of the non drive peripheral components contained in the system package The A B part number vendor and vendor s part number are included Also provided is a list of remote wiring interconnections required and the acceptable wire gauges 9 LHS LO00 TINS SA ON 6 1000 31dAVS 2 C N 151 SLYVd 9 34IM 193NNOOM3LNI LO BAIN OV 9 L NILATING 1O3NNOON3LNI a E 86 82 80 uva Qvov N MANUFACTURER PART NO FUSE 172343 DRIVE UNIT N A 115VAC CNTRL 161428 CIRCUIT PROT 160912 FUSE 149859 FUSE 142917 CTRL TFMR 162174 H SEL SW N A A M SEL SW N A PILOT LIGHT N A PILOT LIGHT PILOT LIGHT PILOT LIGHT N A PILOT LIGHT N A PILOT LIGHT N A PILOT LIGHT N A DRIVE DISABLE N A HIM MODULE 171754 RELAY 101215 RELAY 101215 RELAY 101215 RELAY 101215 DRV OFF BYP N A AUT BYP ENABL N A RELAY 101215 CONTACTOR 120482 CONTACTOR 120482 OVERLOAD 138475 TIMING RELAY 190475 MOTOR FUSE N A CONTACTOR 119058 CIRCUIT PROT 160912 SINGL PNT RIO 161455 ANLG OPT BRD 188604 EL TIME MTR 165413 BUSSMANN JKS70 1336F BO30 AN EN AB 1336 L6 WES I GMCP060J2C BUSSMANN KLDR7 5 BUSSMANN FNM8 HEAVY DUTY E850 3PBX AB 800EP SM32C
151. ifting bar on large drives Power Distribution Bypass Mode Smart M otor Terminal Block Controller SM C id ow ypass Um ontactor E SM C Output Contactor M otor Ground Terminal 500 HP 6 Pulse 460V AC NEMA Type 1 Floor Mounted Configured Drive with SMC Style Bypass 119 Integrated Architecture Superior Value Added Complete Services amp Global Automation Expertise Supply amp Local Capabilities World Class Products The 1336 PLUS II is a world class product that will help to provide you with a single solution for virtually all of your speed control requirements Its common design and control interface functions will help save you time and money in set up integration and maintenance of your automation system For Allen Bradley Drives support there are specialists at local sales offices and distributor locations across North America and around the world We also offer Global Technical Services specializing in a full spectrum of value added services and expertise to help simplify maintenance and enhance productivity Rockwell Automation is committed to helping you meet ever changing customer demands for more less expensive product in less time Our capabilities enable us to become your Complete Automation partner 1336 FORCE 1336 IM PACT DriveTools32 Flex SLC SCAN port SMC SM C Dialog Plus SM P CENTERLINE Complete Automation and the Comple
152. igured by programming TB3 Term 22 Sel through TB3 term 28 Sel Refer to the Digital 1 0 parameter group in Chapter 6 of Pub 1336 PLUS 5 3 for programming information 1 Uses internal 45V DC supply 2 The encoder loss detection feature of the 1336 PLUS Irequires the use of L7E L8E or L9E 41 Pre Installation Digital 1 0 Default Settings TB3 Input 1 Input 2 Common Input 3 Input 4 Input 5 Common Input 6 Input 7 Input 8 Common Input 9 Encoder B Encoder NOT A Encoder NOT B Encoder A 12V 200mA max Encoder Common Status Factory Default Status Stop Fault Reset Status Only Default Mode shown at right is not active when Input Mode is set to Status KN Included on hes L4E L7E L5E L8E amp NV L6E L9E 2 Wire Control Single Source Control 3 Wire Control Single Source Reversing Run Forward Start Stop Fault Reset Individually Programmable Inputs Common Stop Fault Reset Rev For Factory Default programmable J og Factory Default programmable Auxiliary Factory Default programmable Common Speed Select 3 Factory Default programmable Speed Select 2 Factory Default programmable Speed Select 1 Factory Default programmable Common Enable not programmable 1 See Speed Select Table 2 f this mode is selected the status of all inputs can be read at the Input Status parameter How
153. ion Schemes The power distribution schemes shown below are for typical configurations and offered as suggestions only Actual specified configurations may vary with accepted design practices or code restrictions B Circuit Breaker Option CB Drive Branch Fusing Std Output Contactor T Option KM Thermal Overload Relay Option MK or MT H Input Contactor T Option Circuit Breaker Option CB Drive Branch Fusing Std Thermal Overload Relay Option MK or MT1 5 i Id Circuit Breaker Motor Branch Option CB Fusing H l Option FM2 SMC Fusing Drive Branch Fusing Std Input Contactor T Option KD SMC ERES PLus jt Ee ae T ES 6 l USA H Disconnect O 4d Option DS Drive Branch Fusing Std L Output Contactor T Option KM amp Thermal Overload Relay Option MK or MT E o MILLE Motor Branch Fusing H Option FM SMC Fusing SMC e PLUS PERROS Bypass System Bypass System Non Fused o creut a Disconnect Option DT O Option CC p Drive Circuit Breaker Motor i Drive ORUM Circuit ted H O Drive Breaker xum ee Drive Branch Fusing Option CB ge Std Pied H Drive Branch Drive Branch
154. ion through programmable carrier frequency Third Generation devices Reduced switching and conduction losses Used on complete line 0 37 448 kW 0 5 600 HP Status LEDs Four status indicators located on the control board Dynamic Current Control Multiple sensors Exceptional torque production through erer Control Proactive current limit control Reduces trips Ability to start low inductance motors Independent Certification C UL Listed for dual U S and Canadian Certification Designed to meet EN IEC VDE and other international standards Isolated Power and Logic eliminates noise to provide reliable and stable operation DC Cooling Fan on many ratings eliminates the need for a transformer and voltage tapping accommodates global usage Internal Logic Supply from DC Bus does not require separate control power wiring improved ride thru capability Communications Designed to accommodate on board communications for all ratings Product Description The 1336 PLUS II The standard solution to your application needs exceptional reliability when controlling 3 phase motors The output The 1336 PLUS II provides ratings from 0 37 448 kW 0 5 600 HP can be tuned to provide optimum performance for virtually any load in three voltage ranges 200 240V 380 480V AC and condition Selectable V Hz operation provides 500 600V AC The 1336 PLUS II is a micro processor based outstanding motor
155. iscrete transfer RS232 422 485 DFI Protocol DH485 Protocol Customer Specific Protocol DeviceNet DeviceNet to SCANport module Available for all drive ratings Flex 1 0 Flex 1 0 to SCANport module Available for all drive ratings SLC SLC to SCAN port module Available for all drive ratings Function Description Sensorless Vector Motor Control New vector control adds exceptional torque performance to the 1336 PLUS II RW WX This powerful algorithm provides the following performance enhancements SENSORLESS VECTOR Outstanding low speed torque at speeds as low as 15 rpm providing a 120 1 constant torque speed range Improved acceleration control can provide up to 250 breakaway acceleration torque to move the toughest loads with ease Solid out of the box performance Enhanced performance can be gained by programming the setup parameters with actual motor nameplate values Optimum results can be achieved by programming the actual amps required to generate no load flux and the actual voltage needed for IR compensation If these values are not known setup procedures can determine the exact values A fast accel mode is provided Disabling the Adaptive Current Limit feature provides the lowest possible acceleration time for low inertia applications A fast flux up mode is programmable to aid in acceleration with large motors Selectable Volts Hertz modes are also available When selected t
156. isted for 208 W ye or Delta 240 W ye or Delta 480Y 277 or 600Y 347 Not UL listed for use on 480V or 600V Delta Delta systems The AIC ratings of the Bulletin 140M M otor Protector may vary See publication 140M SG001B EN P 35 Pre Installation Power Wiring TB1 Input and output power connections are performed through terminal block TB1 For maintenance and setup procedures the drive may be operated without a motor connected The most common causes are Wiring AC line to drive output or control terminals e Improper bypass or output circuits not approved by Allen Bradley Output circuits which do not connect directly to the motor Contact Allen Bradley for assistance with application or wiring ATTENTION An incorrectly applied or installed bypass system can result in component damage or reduction in product life Terminal Description Potential Earth Ground TE L Shield Termination True Earth R L1 S L2 T L3 AC Line Input Terminals DC DC DC Bus Terminals U T1 V 2 W T3 Motor Connection Terminal Wire Size 1 Maximum Torque Block Type mm AWG N m Ib in A1 A4 Page 50 5 3 0 8 10 18 1 81 16 B1 Page 50 8 4 0 8 8 18 1 81 16 82 Page 50 13 3 0 5 6 20 1 70 15 C Page 50 26 7 0 8 3 18 5 65 50 D Page 513 127 0 2 1 250 M CM 14 6 00 52 67 4 2 1 0014 6 00 52 E Page 51 3 253 0 2 1 500 MC
157. ive Package Us Proper wire type and size Neatly bundled and routed Sufficient heat dissipation Separated power control ou n unt and signal Drive Input Output and Bypass Contractors Bypass System Circuit Breaker Door M ounted Operator Devices Bypass Mode M otor Fusing Drive Mechanical Door Interlock Drive M ode Circuit Breaker Digital M eter HIM Cable Drive Input Fusing Door M ounted Operator Devices TB2 Control Terminal Block Control Power TB3 Control Interface Transformer with Fusing Terminal Block Auxiliary Control Terminal Block TB1 Power Relay Logic Terminal Block 60 HP 6 Pulse 460V AC NEMA 1 4 or 12 Wall Mounted Configured Drive with Bypass 118 Proper electrical mechanical clearances Lower cost customer interface wiring Faster troubleshooting Enclosure Exhaust Fans Drive Input a P d Pl J Terminal Block Auxiliary Control Relay Logic Slotted tabs on small drives Floorplate holes on larger drives Door M ounted Drive Circuit Operator Devices Breaker gt Easier operator training Functionality is consistent Aesthetically ergonomically pleasing Control Power Transformer with Fusing Line Ground Terminal Drive Output Contactor Drive Input Contactor Motor Thermal Overload Relay Slotted chassis holes on small drives Removable l
158. kers specified in the table on pages 34 35 also provide branch short circuit protection Because circuit breakers are typically slower than fuses and those listed are magnetic trip only they may not be as effective in offering short circuit protection to the drive in the event of an internal drive short circuit They may not be as effective in limiting damage to the drive IEC Installations Fuses For those installations that are not required to meet the U S NEC UL CSA the specified fuses are sutiable for branch short circuit protection and provide excellent short circuit protection for the drive The fuses offer a high interrupting capacity and are fast acting Refer to the European selections in the table on page 37 Circuit Breakers For those installations that are not required to meet the U S NEC UL CSA requirements additional devices are available as input circuit breakers The Bulletin 140 and KTA3 devices meet the circuit breaker requirements of IEC947 2 but do not meet UL CSA circuit breaker requirements They can be used in non U S installations where local national codes allow if they are installed per their installation instructions ATTENTION The 1336 PLUS II does not provide input power short circuit protection Specifications for the recommended fuse or A circuit breaker to provide drive input power protection against short circuits are provided 33 Pre Installation Recommended Protection Devices user supplied
159. l and signal wiring This page has a lot of useful contractor installer type information 116 D Drawing Sample D wn i g L o D 10 11 12 13 14 15 16 17 18 19 20 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 4 talled Ins is own as ded for the user to enter h is provi STANDARD SHIPPED NSTALLED STANDARD SHIPPED INSTALLED STANDARD SHIPPED INSTALLED DESCRIPTION DEFAULT SETTING SETTING PARAMETER DESCRIPTION DEFAULT SETTING SETTING PARAMETER DESCRIPTION DEFAULT SETTING SETTING FREQ SELECT 1 ADAPTER 1 ADAPTER 2 DIRECTION MASK 11111110 DEFAULT 189 PROCESS 2 1X1 8 n DEFAULT FREQ SELECT 2 PRESET 1 ADAPTER 6 START MASK X1111111 DEFAULT 190 MOTOR NP VOLTS MAX RATED DEFAULT ACCEL TIME 1 10 0 SECS DEFAULT JOG MASK 1111111 DEFAULT 191 MOTOR NP AMPS MAX RATED DEFAULT DECEL TIME 1 10 0 SECS DEFAULT REFERENCE MASK 1111111 DEFAULT 192 FLUX AMPS REF 0 0 AMPS DEFAULT A CONTROL SELECT SENS VECTOR DEFAULT ACCEL MASK X1111111 DEFAULT 193 KP AMPS 100 DEFAULT STOP SELECT 1 COAST DEFAULT DECEL MASK X1111111 DEFAULT 194 IR DROP VOLTS 0 VOLTS DEFAULT BUS LIMIT EN DISABLED DEFAULT FAULT MASK 1111111 DEFAULT 195 SLIP COMP GAIN 1 DEFAULT DC HOLD TIME 0 SEC
160. lable option D41 Automatic Bypass with SMC Plus 2 3 Option BD This option provides a means to manually or automatically upon a drive fault switch a single motor from drive control to bypass across the line operation An SMC Plus solid state controller provides soft start capability when first switching to bypass operation Separate Bulletin 100 where available contactors are provided for drive output SMC output and total bypass All contactors are electrically interlocked Door mounted Drive Off Bypass and Auto Bypass Off On selector switches are provided Optional Bypass M ode and Auto Bypass Enable On pilot lights are available option D42 Manual Bypass with SMC Plus Pump Option 2 3 Option BP This option provides a means to manually switch a single motor from drive control to bypass across the line operation An SM C Plus with the pump control option solid state controller provides soft start and smooth acceleration capability when first switching to bypass operation and smooth deceleration when stopping in bypass Separate Bulletin 100 where available contactors are provided for drive output SM C output and total bypass All contactors are electrically interlocked A door mounted Drive Off Bypass selector switch is provided Optional Drive M ode and Bypass M ode pilot lights are available option D41 Automatic Bypass with SMC Plus Pump Option 2 3 Option BC This
161. le trays or large conduits are to be used to distribute the motor leads for multiple drives shielded cable is recommended to reduce or capture the noise from the motor leads and minimize cross coupling of noise between the leads of different drives The shield should be connected to the ground connections at both the motor and drive end Armored cable also provides effective shielding Ideally it should be grounded only at the drive PE and motor frame Some armored cable has a PVC coating over the armor to prevent incidental contact with grounded structure If due to the type of connector the armor is grounded at the cabinet entrance shielded cable should be used within the cabinet if power leads will be run close to control signals In some hazardous environments it is not permissible to ground both ends of the cable armor because of the possibility of high current circulating at the input frequency if the ground loop is cut by a strong magnetic field This only applies in the proximity of powerful electrical machines In such cases consult factory for specific guidelines Conduit If metal conduit is preferred for cable distribution the following guidelines must be follow ed Drives are normally mounted in cabinets and ground connections are made at a common ground point in the cabinet Normal installation of conduit provides grounded connections to both the motor frame ground junction box and drive cabinet ground These ground connecti
162. ly Option HA1C Program Control with Analog Speed Pot Option HA2C Program Control with Digital Speed Pot NEMA 12 Door Mounted HIM S 1 Option HJ PC Program Only Option HJ 2C Program Control with Digital Speed Pot Handheld A separate handheld module may be connected to the drive M aximum cable length is 33 feet 10 meters 1 Not removable from the door as with NEMA Type 1 HIM S 79 Options Door M ounted Operator Devices Operator devices specified in the drive catalog number are supplied mounted and wired on the enclosure door The Standard Door Layouts shown indicate the mounting locations of door mounted options or option groups Standard Door Layout Drive Enclosure Standard Door Layout ame Option Enclosure am Meter OO O OO Human OO The operator device options listed below are logically grouped into sets Mn Only one option code selection may be made from each set W here possible Module OO O OO OO Allen Bradley Bulletin 800E style operator devices will be supplied O Description Code Pushbutton SS Selector Switch D5 PL Pilot Light POT Potentiometer MHPB Mushroom Head Pushbutton Legend plates will be 30 mm x 50 mm black with white lettering Option Set D1 Option 011 Option 013 Option 015 Option 017 Option 019 Di
163. m View Di mensions Frames D G All Dimensions in Millimeters and Inches Frame D 62 7 76 2 2 47 3 00 3439 13 54 gt Conduit Knockout 2 Plcs lt 4 261 4 10 29 34 9 1 38 144 0 5 67 b 52105 Conduit Knockout 3 Plcs Muere TLE Conduit Knockout 1 Plc e O 61 198 1 780 4 0 2045 169 4 me 8 05 oy i i 9 153 7 1316 6 05 5 18 E Frame E lt 432 3 17 02 gt 305 3 12 02 178 3 7 02 1 gt 88 9 101 6 3 50 4 00 38 6 1 52 50 8 2 0 Conduit Knockout 3 Plcs 12 7 0 50 Conduit Knockout 6 Plcs E TORD E a 2 12 35 one 260 4 T 209 6 8 25 Y 660 4 26 00 50 8 2 00 Frame G 547 6 56 42 9 1 1 69 29 0 1 14 1700 i i o Conduit Access Area 254 0 10 00 381 0 gt gt 15 00 Bottom 298 5 11 75 Y 15 9 0 63 Dia 2 Mtg Holes Pre Installation Mounting Requirements 152 4 mm 152 4 mm 6 0 in 6 0 in 101 6 mm 4 0 in 55505 Olmo JE oH UP 152
164. mber This chart should be used to understand the scope of the overall product offering and assembling a specific catalog number Care should be taken to verify that the assembled catalog number qualifies as an available configuration option combination by referring to all pages of this section 105 Selection Guide VOLTAGE 230VAC HORSEPOWER CODE CTHP VTHP DUTY F05 F07 F10 F15 F20 F30 F50 007 010 015 020 025 030 040 050 060 075 100 125 0 5 0 7 1 5 ENCLOSURE C zConstant AA NEMA Torque Type 1 AF NEMA Type 4 A NEMA Type 12 460V AC F05 F07 F10 F15 F20 F30 F50 F75 F100 F150 F200 015 020 025 030 X040 040 050 X060 060 075 100 125 X150 150 200 250 P250 X250 300 P300 350 P350 400 P400 450 P450 500 600 250 300 300 350 350 400 400 450 450 0 5 0 75 100 125 150 200 250 250 300 300 350 350 400 400 450 450 500 600 C Constant AA NEMA Torque V Variable Torque Type 1 AF NEMA Type 4 A NEMA Type 12 C 575V AC 106 F10 F20 F30 F50 FI5 F100 F150 F200 025 030 040 050 060 075 100 125 150 200 250 300 X300 350 400 450 500 600 100 125 150 200 250 300 300 350 400 450 500 600 C zConstant AA NEMA Torque Type 1 AF NEMA Type 4 A NEMA Type 12 CODE DESCRIPTION A208 208V AC Input BA Bypass Auto BC Bypass Auto SM C Pump BD Bypass Au
165. meters and inches DRIVE CIRCUIT BREAKER OR DISCONNECT SWITCH CONTROL TRANSFORMER RELAY LOGIC VARIES INPUT ISOLATOR DRIVE INPUT CONTACTOR DRIVE OUTPUT CONTACTOR COMMUNICATION OPTION CARD DRIVE OR PANEL MOUNTED OVERLOAD RELAY G Frame Drives 460V 224 448 kW 300 600 HP IP20 or IP54 NEMA Type 1 or NEMA Type 12 Panel Layouts 5V 224 448 kW 300 600 HP Consult Allen Bradley when adding additional heat producing components to existing NEMA Type 12 rated drives 2286 90 00 2133 6 84 00 1981 2 78 00 1828 8 72 00 1676 4 66 00 1524 60 00 1371 6 54 00 1219 2 48 00 1066 8 42 00 914 4 36 00 762 30 00 609 6 24 00 457 2 18 00 304 8 12 00 152 4 6 00 0 2 BAY WITHOUT BYPASS 2286 90 00 2133 6 84 00 BRANCH FUSING IS ON THE DRIVE 1981 2 78 00 1828 8 72 00 TERMINAL BLOCK 1676 4 66 00 1336 PLUS 1524 60 00 DRIVE STD 1371 6 54 00 1219 2 48 00 1066 8 42 00 914 4 36 00 762 30 00 609 6 24 00 457 2 18 00 1524 3048 4572 914 4 304 8 12 00 152 4 6 00 0 1066 8 12192 6 00 1200 18 00 2400 30 00 36 00 42 00 4800 PREVIOUS PAGE
166. mum without derating refer to the Derating Guidelines on Pages 56 60 Ambient Operating Temperature IP00 Open 0 to 50 degrees 32 to 122 degrees IP20 NEMA Type 1 0 to 40 degrees 32 to 104 degrees IP54 NEMA Type 12 0 to 40 degrees 32 to 104 degrees IP65 NEMA Type 4 0 to 40 degrees C 32 to 104 degrees F refer to the Derating Guidelines on Pages 56 60 Storage Temperature all constructions 40 to 70 degrees C 40 to 158 degrees F Relative Humidity 5 to 95 non condensing Shock 15G peak for 11 ms duration 1 0 ms Vibration 0 006 inches 0 152 mm displacement 1G peak Agency Certification T U L Listed TS j CSA Certified UL o O co Com M arked for all applicable directives C Emissions EN 50081 1 EN 50081 2 EN 55011 Class A EN 55011 Class B Immunity EN 50082 1 EN 50082 2 IEC 801 1 2 3 4 6 8 per EN 50082 1 2 Low Voltage EN 60204 1 PREN 50178 1Note Installation guidelines called out in Appendix C of the 1336 PLUS IIUser M anual publication 1336 PLUS 5 3 must be adhered to c Input Data Electrical Specifications Specifications Voltage Tolerance 10 of Minimum 10 of Maximum Frequency Tolerance 48 62 Hz Input Phases Three Phase input provides full rating for all drives Single Phase operation is possible for A amp B Frame drives at a derating of 50 refer to frame designations on Page 22
167. n Set D6 e iit Option SetD5 Drive Disable push pull MHPB puen pact oss Option D51 5 For Use with Drive Output Contactor amp Drive Enable Option D52 6 For Use with Drive Enable Only Drive Drive Disable Disable Speed Opti i ption Set D6 CYS 508 D Option D61 Speed 1 Turn NEMA Type 1 4 12 1 Refer to Operator Device Function Guide in the Options section Option Set D9 2 D22 must be used in conjunction with a Thermal Overload or Bypass Option Option D91 Convert the normally supplied A B Bulletin 800E Style 3 D41 must be used with a M anual Bypass Option 4 D42 must be used with an Auto Bypass Option 5 D51 must be used in conjunction with an Output Contactor or Bypass Option 6 D52 cannot be used with a Bypass Option Operator Devices to A B Bulletin 800T Style Options Operator Device Function Guide Drive Start Control Drive Stop Control Drive Speed Reference Pushbutton HIM Device or Selector With Option Mode Switch Control Remote Contact Defined by Drive Parameter Pushbutton HIM or Selector With Switch Control H L M Options With Control Parameter Adapter 1 Remote None Contact None None D10 Start D Stop 0g i A uto M anual Hand D Off Auto A uto M anual 13 Hand D Off 14 Auto 5 1 A uto M anual org 16 1 The functi
168. nd Brake to Stop Voltage Volts Speed Stop Command Time Ramp to Hold Reissuing a Start Command at this point will cause the drive to Restart and Ramp as shown Volts Speed Opening Enable Input instead of reissuing a Start Command will cause drive to Stop The 1336 PLUS II offers the ability to automatically reset a fault if the condition that causes the fault is no longer present and restart Both the number of reset attempts 0 9 and the time between reset attempts 0 30 Sec are programmable If the condition causing the fault is still present when the number of reset run tries is exceeded the drive will shut down and issue a M ax Retries Exceeded Fault This feature will not operate for ground faults or shorted output faults The 1336 PLUS II displays which of the available adapters currently owns certain control functions To avoid conflict some owners are exclusive only one device can issue a direction command while others can have multiple control many devices can simultaneously issue a start command Owner displays are excellent diagnostic tools displaying precisely where drive control commands are coming from EE EON EON HUN x Adapter 1 currently Typical Owner Direction Command controlling direction All external control connections to the 1336 PLUS II are made through a multi connection communication bus called SCAN port A Frame drives have 5
169. nd Outputs Analog Option Card Slot A No Option Card Two single ended non isolated inputs configurable for a potentiometer reference 0 10V or 0 20 mA signal LA2 Dual Isolated Input Card LA6 Isolated Bipolar Isolated Thermistor Input Card LAT Isolated Bipolar Input Isolated Input Card Analog Option Card Slot B No Option Card One single ended non isolated input configurable for a potentiometer reference 0 10V or 0 20 mA signal and two single ended non isolated 0 10V only outputs 1 Dual Analog Output Card LA3 Dual Isolated Output Card LA4 Isolated Input Isolated Output Card 45 Analog Output Pulse Output Pulse Input Card Digital Inputs and Outputs Digital Input Specifications Frequency Resolution Maximum frequency programmed divided by 32767 15 bits 60 Hz 0 0018 Hz 100 Hz 0 003 Hz 400 Hz 0 012 Hz Contact Outputs 115V AC 30V DC 5 0 Amp Resistive 2 0 Amp Inductive 2 Form C Contacts 2 Form A Contacts All contacts are fully programmable for closure relative to 17 different drive variables selected through the CR1 4 Out Select parameters Encoder Inputs Requirements Line Driver Encoder 5V DC or 8 15V DC Output Minimum Current 10mA per Channel Quadrature or Pulse Single Ended or Differential M aximum Input Frequency 250 kHz Serial Communications Options Remote 0 Single drop remote 1 0 to Allen Bradley PLCs and SLC 500 Supports full block transfer and link mode d
170. ocation will change the function of those terminals on TB2 from standard Only one option board can be installed in each slot The standard and optional 1 0 configurations are shown below Analog 1 0 TB2 Only Present on B Frame I Signal amp Up Drives Common TE Pot Single Ended Single Ended Signal Single Ended Single Ended Single Ended Signal Reference nput 0 nput 1 Common Input 2 Output 0 Output 1 Common 5V1 Pot 10Vor20mA Pot 10V or 20mA Pot 10 20 0 10VOnly 0 10V Only or select 1 or select 1 solated solated solated solated 5 Single Ended Single Ended Single Ended 0 20mA Input 0 nput 0 nput 1 Input 1 G WX Input22 Output 0 Output 1 Outpu 10Vor20mA 10Vor20mA 10Vor 20mA l0Vor20mA Pot 10Vor20mA 10Vor20mA 20mAOnly Return solated solated Thermistor Thermistor Isolated Isolated Isolated Isolated nput 0 nput 0 solated solated Output 0 Output O 1 Output 1 10V 20mA 10V 20mA nput Input 10V or 20 10Vor20mA 10Vor20mA 10Vor20mA 0 solated solated solated solated M Isolated Isolated Isolated Isolated Input 0 nput 0 nput 1 nput 1 M Input 2 Input 2 Output 1 Output 1 10V 20mA 10V 20mA 10V or 20mA 10V or 20mA 10V or 20mA 10Vor20mA 10Vor20mA 10Vor20mA 1 f an Option Board is installed in
171. on a Start PB Stop PB J og PB amp Auto M an al SS Option D11 Hand Off Auto start stop only SS amp Auto M anual speed reference only SS oes P Stop Stop Option 012 1 011 Options plus Hand PL amp Auto PL Q Q Option D13 1 Hand Off Auto start stop speed ref SS Option D12 Option D14 OptionD16 Option D18 Option D10 DE 09 a ids x amp Auto im Hand Auto Hand Auto Auto Stat Jog Star ption uto M anual speed rererence only i 1 D15 Option plus Auto PL amp Manual PL G A Option D16 ption p m o Option D17 Start PB amp Stop PB Manual Auto Mana Manual stop P Stop Option D18 Start PB Stop PB amp Auto M anual SS Option D19 Start PB Stop PB amp J og PB Option Set D2 Option Set D3 Option Set D4 Option Set D2 m eee wa reet oe Option D21 Control Power On PL Run PL amp Drive Fault PL Option D22 2 D21 Options plus M otor Fault PL Drive Motor Drive At Drive Off Fault Fault Fault Speed Fwd Rev Bypass Option Set D3 G 0 Option D31 At Speed PL Standard with Standard with Standard with Any Option D42 Option D32 Forward Reverse SS Option MH and MH2 Option EH Auto Bypass Option A B Bypass Enabled Mode Motor Enclosure AB o o Option Set D4 jd a Option D41 3 Drive Mode PL amp Bypass M ode PL Option D42 4 Auto Bypass Enabled On PL amp Bypass M ode PL Option Set D5 tio
172. on of the Auto M ode speed reference is dependent upon the programming of Freq Select 2 parameter 6 in the drive The use of an Analog Input Card is recommended for any analog signal being fed to the drive The function of the J og mode is dependent upon the programming of J og Freq parameter 24 in the drive Meter Options Motor Run Time M eter Option ET Elapsed Time M eter This option provides a digital non resettable door mounted elapsed time meter The meter is electrically interlocked with the Drive Run relay and Bypass contactor if supplied to indicate actual motor operating hours Note The standard internal drive elapsed time meter requires a HIM for viewing and is not operable in the bypass mode Line Metering System Deluxe Option M Q2 This option provides a Powermonitor II unit at the point of incoming power to the drive package Option includes a powermonitor and a single display Current transformers are supplied as necessary Line Metering System Basic Option M Q3 This option provides a Powermonitor 3000 unit at the 5 pont of incoming power to the drive package Option includes a powermonitor and a single display urrent transformers are supplied as necessary Enclosure Options Voltage Barriers Protective covers for line side of disconnect switch door mounted devices above 50V Option EB except for devices with finger safe terminals and any foreign voltage s
173. ons can create excessive current spikes that will cause nuisance input fuse blowing and may cause damage to the drive power structure The basic rules for determining if a line reactor or isolation type transformer is required are as follows 1 If the AC input power system does not have a neutral or one phase referenced to ground Refer to Ungrounded Distribution Systems an isolation transformer with the neutral of the secondary grounded is highly recommended If the line to ground voltages on any phase can exceed 125 of the nominal line to line voltage an isolation transformer with the neutral of the secondary grounded is always required 2 If the AC line supplying the drive has power factor correction capacitors that are switched in and out an isolation transformer or 5 reactors are recommended between the capacitors and drive If the capacitors are permanently connected and not switched the general rules for impedance mismatch above apply 3 If the AC line frequently experiences transient power interruptions or significant voltage spikes an isolation transformer or 5 reactors are recommended Line reactors and isolation transformers can be ordered as loose items or installed in the drive enclosure D 85 Dimensions IP20 NEMA Type 1 Dimensions For A C Frame Drives
174. ons help minimize interference This is a noise reduction recommendation only and does not affect the requirements for safety grounding No more than three sets of motor leads can be routed through a single conduit This will minimize cross talk that could reduce the effectiveness of the noise reduction methods described If more than three drive motor connections per conduit are required shielded cable as previously described must be used If practical each conduit should contain only one set of motor leads ends For the same reason if a drive sharing a conduit is being serviced or installed all drives using this conduit ATTENTION To avoid a possible shock hazard caused by induced voltages unused wires in the conduit must be grounded at both should be disabled This will eliminate the possible shock hazard from cross coupled drive motor leads 50 Pre Installation Motor Cables Motor Lead Lengths Installations with long cables to the motor may require the addition of output reactors or cable terminators to limit voltage reflections at the motor Refer to the following tables for the maximum length cable allowed for various installation techniques For installations that exceed the recommended maximum lengths listed contact the factory MAXIMUM MOTOR CABLE LENGTH RESTRICTIONS IN METERS FEET 380V 480V DRIVES 1
175. or maintenance of the drive or entry into the enclosure with power applied while operating in the bypass mode Bypass Options do not include the required 120V AC control power Control power may be supplied remotely by the user or as part of the drive package by ordering a Control Power option CF CP or CT see Options section 3 Where branch circuit protection is required in the drive option FM should be specified see Options section Requires a control power transformer option CF CP or CT 5 Contact Allen Bradley for possible drive enclosure size changes when selecting this option 6 GM Series Options are drive mounted maximum of one GD Series Options are panel mounted and require 120V AC power GU Series Options are panel mounted and require 24V DC power 7 For more information refer to the Standard Drives section Options PLC and SLC Control Options PLC Hardware and Mounting 1 2 This options provides PLC hardware mounted in the drive or option enclosure Option J L Option includes a maximum of 4 Position Rack 1771 A1B 16 Amp Power Supply 1771 P1 no programming included SLC 500 Hardware and Mounting 2 2 This options provides SLC 500 hardware mounted in the drive or option enclosure Option 5 Option includes a maximum of 4 Position Rack 1746 A4 Power Supply 1746 P1 No programming included Control Interface Options All 1336 PLUS II Configured Drives come with a 115V AC Control Interface Ca
176. ources Floor Stand This option converts a wall mounted enclosure to a floor mounted enclosure and adds 12 or 24 to Option EF1 12 High the height of the enclosure Special consideration should be given to the final height of the drive Option EF2 24 High package and corresponding operator devices Nameplate Pin or screw mounted 6 25 x 2 door mounted white lamacoid nameplate with black letters The message Option ET is defined by the customer at order entry if no definition is supplied the nameplate is shipped blank for customer engraving Special Paint Option EP1 1 color Option EP2 2 color Option EP3 3 color Special color s and or type of paint A manufacturer s specification number and or paint chip will be required at order entry Note A special primer specification is considered as one color Space Heater Remote Pow ered Option EH Provides 1 enclosure space heater to help prevent condensation inside the enclosure during periods of drive inactivity Space heater is energized whenever drive power is removed requires a remote 120V AC power source Option includes a 180W fin strip type heater and a white Enclosure Space Heater On pilot light mounted on the enclosure door If remote power is not available refer to option EH2 Space Heater Locally Pow ered Option EH2 Requires a control power transformer option CF CP or CT Provides 1 enclosure space heater to help prevent condensation inside
177. quired if an open B100 150 Figure H 426 1944 2370 RE B125 180 Figure J 522 2664 3186 type drive is mounted in a BX15 180 Figure J 606 2769 3375 j B150 240 Figure L 606 2769 3375 user supplied enclosure B200 292 Figure M 755 3700 4455 8250 325 Figure N 902 4100 5002 6 Important 1336F BPRxxx BP BPR250 322 Figure 0 491 4658 5149 i BX25 360 No Derate 902 4100 5002 drives require tw 0 2 fans B3005 125 No Derate 1005 4805 5810 capable of producing greater BP BPR300 357 Figure P 619 5342 5961 83505 175 No Derate 1055 5455 6510 than 450 if an open BP BPR350 6 421 Figure Q 733 6039 6772 type drive is mounted ina 8400 525 No Derate 1295 6175 7470 I BPJBpR400 6 471 Figure 193 6329 n2 user supplied enclosure 590 No Derate 1335 6875 8210 527 Figure 5 931 7000 7931 B500 670 Figure T 1395 1525 8920 B600 5 670 Figure T 1485 8767 10252 500 600V DRIVES CWFI0 24 Figure U 25 29 54 CWF20 48 Figure U 29 57 86 CWF30 72 Figure 0 32 87 119 CWF50 9 6 Figure U 35 117 152 CWE75 10 Figure U 38 148 186 CWF100 12 Figure U 41 177 218 CWFI50 19 Figure U 52 286 338 CWF200 2 Figure U 60 358 418 C025 30 No Derate 141 492 633 C030 35 No Derate ul 526 667 C040 45 No Derate 175 678 853 C050 57 No Derate 193 899 1092 C060 62 No Derate 193 98 1174 C075 85 Figure G 361 1533 1894 C100 109 Figure 426 1978 2404 C125 138 Figure K 522 2162 2683 C150 168 Figure V 606 2315 2921 C200 252 Figure W 755 3065 3820 C250 284 Figure X 890 3625 4515 CX30 300 Figure
178. rcuitry or may be alternately controlled by customer supplied remote contact closure logic Drive Output Contactor An Allen Bradley Bulletin 100 contactor where available is provided between the drive output Option KM and the motor The contactor will close on power up and open after a drive fault or loss of power Control Power Options Drive Only Control Power Option CF This option provides a control power transformer mounted and wired inside the drive enclosure The transformer is rated for drive and options power only There is no additional capacity for customer use Drive Plus 250VA Control Power Option CP This option provides a control power transformer mounted and wired inside the drive enclosure The transformer is rated for drive power plus an additional 250VA at 120V AC for customer use Drive Plus 500VA Control Power Option CT This option provides a control power transformer mounted and wired inside the drive enclosure The transformer is rated for drive power plus an additional 500VA at 120V AC for customer use Thermal Overload Relay Options Class 10 Motor Thermal Overload Relay Option MT This option provides an Allen Bradley Bulletin 193 bi metallic thermal overload relay The Bulletin 193 contains an integral heater element with an adjustable trip setting refer to M otor Thermal Overload Relay Selection in the Selection Guide section No additional heater elements are required A Class 10
179. rd Option L6 as standard unless otherwise specified 24V AC DC control and Contact Closure control are available as options Encoder feedback is also available as an option with any of the three control methods All control interface cards provide input terminals for access to fixed drive functions that include start stop auxiliary fault line loss output contactor close speed select sync traverse reset and enable Additional inputs are programmed for functions such as reverse preset speed access jog second accel decel time access and local control selection The function of each input is defined through programming For Configured Drives functions are pre programmed at the factory for a specific application and configuration and should not require field programming Operator control devices provided as part of the drive package will be interfaced to these same input terminals All control input terminals are optically isolated from the drive internal control logic Optional encoder feedback is available for use with single ended or differential type encoders When using a single ended encoder there is a 12V DC power supply available for customer use Differential encoders will require a user supplied power supply Contact Closure Control Interface 3 Circuits used with Option LAC or L7EC must be capable of operating with low true logic Option L4C Without Encoder Feedback In the low state external circuits must be capable of a sinking
180. rd an integral EM C filter 9 This drive will not accept a Snap In HIM HASP HAST HAS2 HCSP HCS1 HCS2 65 1336 PLUS II Selection Guide Factory Installed Options Used Option Code Description With Installed Communication Options Frames B amp Up Single Point RIO Adapter 6 Only GM 3 RS232 422 485 DF1 amp DH485 Protocol GM 23 DeviceNet GM 53 Enhanced DeviceNet GM 63 Communication Options All Frames Single Point RIO with Snap In Cradle Adapter 1 Only GM 513 RS232 422 485 DF1 amp DH485 Protocol w Snap In Cradle GM 523 DeviceNet GM 553 Enhanced DeviceNet GM 563 Snap In Cradle Blank Plate HASB3 Control Interface All Drives Contact Closure L4 24V AC DC L5 115V AC L6 Control Interface with Encoder Feedback All Drives Contact Closure L4E 24V AC DC L5E 115V AC L6E Control Interface with Encoder Feedback All Drives Contact Closure L7E 24V AC DC L8E 115V AC L9E Analog Interface Port A Choose One All Drives Two Isolated Configurable Inputs LA2 One Isolated Bi Polar Input 10V and One Isolated Themistor Input LA6 One Isolated Bi polar Input 10V and One Isolated Configurable Input LAT Analog Interface Port B Choose One All Drives Single ended Non isolated Input Configurable or Pot amp 2 Single ended Non isolated 0 20mA Outputs LA1 Two Isolated Configurable Outputs LA3 One Isolated Configurable Input amp Outp
181. re condition is when the total resistance of the sensor chain exceeds 3 3k ohms with reset from the over temperature condition occurring when the resistance is less than 2 2k ohms LA7 Isolated Bipolar A LA7C 2 Input Isolated Input This option replaces the two standard analog inputs with two galvanically isolated analog inputs Analog Input 0 is configurable for 10V or 20 mA operation with polarity determining forward or reverse operation while Analog Input 1 is configurable for 0 10V or 0 20 mA operation 1 If a bi polar input option LA6 or LA7 is installed th e signal is designated Analog Input 0 Note the following 3 Wire Control If Input M ode is set to 3 Wire and the bi polar input is selected as the active frequency reference Freq Select 1 or 2 it is assumed that direction control is desired via analog polarity If another source has control of direction a Bipolar Direction fault F16 will occur If direction control via polarity is not required bit 7 of Direction M ask should be set to 0 This causes the input to be treated as a 0 10V frequency reference only Negative analog signals are treated as zero and direction control must come from another source 2 Wire Control If Input M ode is set to 2 Wire i and Run Reverse Bit 7 of Direction M ask must be t is assumed that direction control is provided via the 2 wire inputs Run Forward Set to 0 This caus
182. re intended for indoor or outdoor use primarily to provide a degree of protection against windblown dust and rain splashing water and hose directed water and to be undamaged by the formation of ice on the enclosure They are designed to meet hose down dust external icing and rust resistance design tests Doors and openings will be gasket sealed There are no ventilation openings within the enclosure to allow for free exchange of inside and outside air Closed loop auxiliary cooling may be required for higher HP ratings 83 Enclosures Specifications Material Specifications 84 gt Back Plate Chassis for Heatsink Frame Material Finish Finish Spec 1 12 GA Sheet Steel A B Standard Light Gray Paint NEMA Type 1 Low Gloss 40001 109 08 ASA 61 GRAY A B Standard Light Gray Paint NEMA Type 4 12 Powder Coat Low Gloss 40001 108 04 D E 12 GA Sheet Steel A B Standard Gray Paint NEMA Type 1 12 40001 109 02 ASA 49 GRAY F G 12 GA Sheet Steel A B Standard Gray Paint NEMA Type 1 12 40001 109 02 ASA 49 GRAY Heatsink Frame Material Finish Finish Spec A G Aluminum Bronze Chromate 40001 058 Enclosure Frame Material Finish Finish Spec 1 14 GA Sheet Steel A B Standard Light Gray Paint NEMA Type 1 40001 109 08 ANSI 49 GRAY NEMA Type 4 12 40001 108 04 D G 12 GA Sheet Steel A B Standard Light Gray Paint N
183. rive branch fusing except F or G Frame drives or any drive with bypass 3 f a drive output power option is not supplied motor connections are made directly to drive terminals U V and W 102 Wire Terminations Control and Signal Wiring Drive Terminal Block TB2 The TB2 Terminal Block connections shown below are a generic representation intended to show the interface of internal or remote signal and control devices to the terminal block This terminal block is located on the bottom of the main control board Specific TB2 terminal locations may vary by standard drive rating For more information refer to the Standard Drives section The location of user control wire connections to a configured drive will vary with the particular control options chosen After an order is entered Approval Drawings or Manufacturing Drawings may be ordered prior to shipment and specific customer interconnection information is supplied Programmable Run Fault Fault Alarm Alarm ONLY PRESENT Installing an analog option board in the CR1 CR2 CR3 CR3 CR4 CR4 ON B FRAME DRIVES slot A or B location will change the N N AND LARGER standard function of these terminals r t t p 4 03 TE 12 14 15 16 17 Al 2 Bee standard Drive Contacts Shown In Unpowered State Qu s 7 t Note If S
184. rives Program 69 119 Product Description Features Protective Detection and Trip Undervoltage Special Function Auto Economizer Process PI Controller Overvoltage Drive Overcurrent Traverse Function Overtemperature Selectable Fault External Signal Reset amp Run Drive Output Short Auto Restart on Power Up Speed Sensitive Electronic Ground Fault Encoder Loss At temperature Overload Load Loss Auto tuning Single Phase Overcurrent Stall Operational Overvoltage Stall fR Control Selectable Volts Hertz M ode Multi lingual selection Six Drive Alarms Fault Reset Input 1 0 Interface Control Output Contacts 2 Form A N O 2 Form C N O N C Programmable to 17 different drive variables Flexible Analog Inputs Outputs Pulse Train Input Encoder Feedback Closed Loop Speed Control High Speed Input Programmable Dual Accel Decel Profiles Three Skip Frequencies DC Injection Braking Dynamic Braking Slip Compensation Negative Slip Compensation Droop S Curve Accel Decel Profile Line Loss Restart M ode Proactive Current Limit Last Four Event Fault M emory Flying Start Seven Preset Speeds Diagnostics Real time preventive maintenance coupled with customized status and fault reporting Depending upon your particular drive configuration status and fault conditions
185. rovide branch circuit protection in the drive mode of operation If a bypass option is included then separate branch circuit protection may be supplied by the customer or by specifying option FM Refer to AC Line Fusing in the Drive Specifications section for specific fuse rating information Drive Circuit Breaker Option CB This option is for disconnecting power only and is not intended for branch circuit protection The standard drive input fuses supply branch circuit protection M ost ratings will utilize a motor circuit protector M CP type breaker Where M CP s are not available a molded case switch will be provided All switches include handle operators door interlocking and are padlockable Thermal magnetic type breakers are not required since this type of protection is already supplied in the drive Drive Disconnect Switch An Allen Bradley Bulletin 194R rotary switch is provided on A C frame drives A flange mount or Option DS rotary style switch 1494 F where possible is provided on D frame drives and larger W ith the exception of the F frame drive the drive input fuses will be resident on the switch allowing it to meet the requirements for branch circuit protection All disconnect switches are door interlocked and padlockable Drive Input Contactor An Allen Bradley Bulletin 100 contactor where available is provided between the AC line and the Option KD drive The contactor will close on power up using A B ci
186. s Shut Off T3 Power Returned T4 Outputs Turned On T5 500mS Time Out Line Loss Fault T6 Minimum Bus Voltage Level Undervoltage Fault Point Line Loss Restart In the event that a line loss condition occurs the 1336 PLUS II provides a variety of programmable selections to control the timing and method of reconnecting the motor after power returns Choices include Use flying start to determine motor speed Check for motor terminal voltage to determine motor speed Read the encoder if present Reconnect at last known output frequency Function Description Volts per Hertz The 1336 PLUS II offers a fully programmable Volts per Hertz mode Maximum that allows maximum performance for applications requiring multiple motors on a common drive particularly if the motors are not of equal size and type i e a 3 7 KW 5 HP and 11 kW 15 HP Voltage motor on a 15 kW 20 HP drive Base Voltage Base Frequency v Maximum Voltage Maximum Frequency Motor Rated Break Voltage Start Boost P Break Frequency gt E os 0 Frequency Motor Rated Maximum Motor Overload Protection M otor 12 protection is separated from the drive power overload feature The electronic motor overload operates independently to Overload Patterns provide improved Class 10 protection Operation at full load amps No Derate WELL daas will raise the overload to approximately 70 80 of its trip lev
187. s open or malfunctioning 56 Precharge Open The precharge circuit was commanded to close but was detected to be open 57 Ground Warning A current path to earth ground in excess of 2A has been detected at one or more of the drive output terminals 58 Blwn Fuse Fit The bus fuse in 30kW 40 HP and up drives has blown 61 Mult Prog Input A single source input function has been programmed to more than one input or more than one Run Reverse input 62 III Prog Input Fault Data 98 3 Wire is selected as the Input M ode and one or more digital inputs are programmed to Run Reverse 63 Shear Pin Fault Programmed Current Limit amps has been exceeded 64 Power Overload The drive rating of 150 for 1 minute has been exceeded 65 Adptr Freq Err The SCAN port adapter sent an illegal frequency reference to the drive 66 EEPROM Checksum The checksum read from the EEPROM does not match the checksum calculated from the EEPROM data 68 ROM or RAM Fit Internal power up ROM or RAM tests have not executed properly Pre Installation 1336 PLUS II Pre Installation 7277772 UT ES X NI MIL k ATTENTION The following information is merely a guide for proper installation The Allen Bradley Company cannot assume responsibility for the compliance or the noncompliance to any code national local or otherwise for the proper installation of this drive or associated equipment A hazard of personal injury and or eq
188. se ratings than those recommended for equivalent standard 1336 PLUS II drives This is because configured drives are rated for a single input voltage as opposed to the voltage range of a standard product Drive Rating and Catalog Number 230V AC 230V AC 460V AC CT 460V AC CT 460V AC VT 460V AC VT 575V AC 575V AC Fuse Quantity Vendor HP Cat No HP Cat No HP Cat No HP Cat No Description Required Part Number _ 0 5 0 75 BFO5C BFO7C 0 5 0 75 BFO5V BFO7V 1 CF10C 3A 3 Bussmann LPJ 3 0 5 0 75 AF05C AF07C 1 1 5 BF10C BF15C 1 1 5 BF10V BF15V 2 CF20C 6A 3 Bussmann LPJ 6 1 AF10C 2 BF20C 2 BF20V 3 CF30C 10A 3 Bussmann LPJ 10 1 5 2 AFISCAF20C 3 BF30C 3 BF30V 5 7 5 CF50C CF75C 15A 3 Bussmann LPJ 15 _ 5 7 5 14 BF50C BF75C 5 10 17 5A BF50V BF75V 10 CF100C 20A 3 Bussmann LPJ 20 3 AF30C 15 CF150C 25 3 Bussmann LPJ 25 _ _ 10 17 5 BF100C 15 25A BF100V 20 CF200C 30A 3 Bussmann LP 30 15 BF150C 24A BF200C 20 BF200V 35 3 Bussmann LPJ 35 5 AF50C 40A 3 Bussmann LPJ 40 15 B015C 35A 3 Bussmann J KS 35 15 A007C 25 025 40 3 Bussmann J KS 40 20 B020C 25 B020V 45A 3 Bussmann J KS 45 10 A010C 30 C030C 50A 3 Bussmann J KS 50 25 B025C 40 C040C 60A 3 Bussmann J KS 60 15 A015C 30 B030C 30 B030V 70A 3 Bussmann KS 70 40 BX040C 40 5
189. tandard Drive Contacts CR2 amp are used A by 1336 PLUS II Configured Drive options J F and or ONLY PRESENT to 0 10 J R and or J M they will not be available for customer ON B FRAME DRIVES TE 4 20mA Input use Referto the 1336 PLUS TI Configured Drive AND LARGER to 5 Option Description section for additional information 10k Ohm TE e These contacts are reprogrammable by the user Remote Pot to to to TE TE TE Fi 0 10V Analog Out User speed reference signals Y Y Y Y negative or common side of these signals at earth ground potential Control schemes must be examined for ATTENTION Signal Common User reference signals are terminated to logic common at TB2 terminal 3 4 or 5 This puts the possible conflicts with this type of grounding scheme 103 Wire Terminations Control Interface Wiring Drive Terminal Block TB3 Control interface inputs are connected to terminal Block TB3 TB3 is located on the Control Interface Board installed in the drive All 1336 PLUS II Configured Drives come with a 115V AC Control Interface Card Option 16 unless otherwise specified 24V AC DC control and Contact Closure control are available as options Encoder feedback is available as an option with any of the three control methods All control interface cards provide input terminals for access to fixed drive functions that include start stop and enable Four additional inputs are programmed for functions su
190. tate voltage is 0 4V DC Encoder Signal Wiring Single Ended Dual Channel Single Ended Encoder Output Connections Power Supply Common Terminal 36 or External Differential Differential Encoder Output Connections 1 For Single Ended Single Channel pulse applications eliminate the B and B NOT connections Some encoders may label the A connection as Signal Important Correct direction of motor rotation as determined during start up may require that the A or B channel wiring be reversed Encoder Power Wiring Internal SEDE 38 8 es Y u 10 o EncoderPower Connections using 12V DC Internal Drive Power Source Minimum On Volts 7V DC Minimum Current 10mA External 31 32 33 34 35 36 External Common Power Supply o Encoder Power Connections using External DC Power Source Minimum On Volts 3V DC Minimum Current 10mA Important Control Interface Board jumpers JP3 amp JP4 must be set for the voltage level of the encoder output 45 Pre Installation Pulse Input Output Option Pulse Input The pulse input signal must be an externally powered square wave pulse at a 5V TTL logic level As measured at the terminal block circuits in the high state must generate a voltage between 3 6 and 5 5V DC at 8 mA Circuits in the low state must generate a voltage between 0 0 and 0
191. te Automation graphic are trademarks of Rockwell Automation DeviceNet is a trademark of the Open DeviceNet Vendor Association ControlNet is a trademark of ControlNet International Ltd www rockwellautomation com Corporate Headquarters Rockwell Automation 777 East Wisconsin Avenue Suite 1400 M ilwaukee W 53202 5302 USA Tel 1 414 212 5200 Fax 1 414 212 5201 Headquarters for Allen Bradley Products Rockwell Softw are Products and Global Manufacturing Solutions Americas Rockwell Automation 1201 South Second Street Milwaukee WI 53204 2496 USA Tel 1 414 382 2000 Fax 1 414 382 4444 Europe Rockwell Automation SA NV Vorstlaan Boulevard du Souverain 36 BP 3A B 1170 Brussels Belgium Tel 32 2 663 0600 Fax 32 2 663 0640 Asia Pacific Rockwell Automation 27 F Citicorp Centre 18 Whitfield Road Causeway Bay Hong Kong Tel 852 2887 4788 Fax 852 2508 1846 Headquarters for Dodge and Reliance Electric Products Americas Rockwell Automation 6040 Ponders Court Greenville SC 29615 4617 USA Tel 1 864 297 4800 Fax 1 864 281 2433 Europe Rockwell Automation Br hlstra amp e 22 D 74834 Elztal Dallau Germany Tel 49 6261 9410 Fax 49 6261 1774 Asia Pacific Rockwell Automation 55 Newton Road 11 01 02 Revenue House Singapore 307987 Tel 65 351 6723 Fax 65 355 1733 Publication 1336F TD001B EN P May 2002 Copyright 2002 Rockwell Automation All Rights Reserved Printed in U S A Superse
192. tection and phase to phase plus phase to ground protection which is designed to meet IEEE 587 The M OV circuit is designed for surge suppression only transient line protection not continuous operation With ungrounded distribution systems the phase to ground M OV connection could become a continuous current path to ground Energy ratings are listed below Exceeding published line to line and line to ground energy ratings may cause physical damage to the M OV R ules _ 1 Line to Line MOV Rating Three Phase 5 oules J Includes 2 Line Line MOVs SE T Joules 4 Line to Ground MOV Rating Ground Joules Includes Line Line amp Line Ground MOVs WW Frame Reference A B C D G Device Rating V AC 240 480 600 240 480 600 240 480 600 Line Line Total 160 320 280 320 280 300 Line Ground Total 220 380 360 410 360 370 Pre Installation Input Fuses and Circuit Breakers 1336 PLUS II can be installed with either input fuses or an input circuit breaker Local national electrical codes may determine additional requirements for these installations Installations Per U S NEC UL CSA Fuses In general the specified fuses are sutiable for branch short circuit protection and provide excellent short circuit protection for the drive The fuses offer a high interrupting capacity and are fast acting Refer to the North American selections in the table on page 37 Circuit Breakers The Westinghouse HM CP brea
193. the enclosure during periods of drive inactivity Space heater is energized whenever the drive is not in Run status If the space heater is required to run when drive power is removed refer to option EH Filtered Door Openings Only Option EC This option provides washable metal mesh filters on the outside of the enclosure door and over all other vented openings This option applies only to NEM A Type 1 drives Gasketed with Filtered Door Openings Option EG This option provides filtering as described in option EC In addition all doors and wall panels will be gasketed as necessary to prevent unfiltered air from entering the enclosure 81 Options Codes and Standards Code Standard Action CE C Consult the factory with requirements to meet the separate Low Voltage and or EM C directives European Conference Standard In most cases Configured Drives qualify for Restricted Industrial applications and will only require meeting the Low Voltage directive IEEE519 Provide a one line plant power distribution drawing and the associated harmonic specification to Harmonic Distortion Levels the factory for review A software based harmonic analysis will be performed to determine actual harmonic mitigation requirements AED 5o UL C UL CSA Tav Ta UL option to the catalog string at no charge This option provides UL panel recognition quj from the factory Drawing and Test Options Approval Dr
194. to SMC BM Bypass M anual BP Bypass M anual SM C Pump BS Bypass M anual SMC CB Circuit Breaker Drive CC Circuit Breaker Bypass Control Power Drive Only CM Common M ode Core CP Control Power Plus 250VA CT Control Power Plus 500VA DS Disconnect Switch Drive DT Disconnect Switch Bypass Start Stop J og A M H O A and A M Switches 2 D11 Plus Pilot Lights H O A Selector Switch D13 Plus Pllot Lights A M Selector Switch 5 Plus Pilot Lights Start amp Stop PBs Start Stop A M D19 Start Stop J og D21 Pilot Light Package D22 Pilot Light Package D31 At Speed Pilot Light D32 Fwd Rev Selector Switch D41 Drive amp Bypass Lights D42 Auto Bypass Enable Off On S S and Bypass P L Drive Disable PB Contactor D52 Drive Disable PB Enable D61 Speed Pot D91 800T Conversion EB Voltage Barrier EC Enclosure Filtered Door Openings EF1 Enclosure Floor Stand 12 EF2 Enclosure Floor Stand 24 EG Enclosure Filters and Gasketing EH Enclosure Heater Remote Power EH2 Enclosure Heater Local Power EP1 Enclosure Paint Special One Color mee CJ 000 3 4 5 6 7 8 e a H H H H H H H HNS1C HIM Analog Open H C C P C C CODE DESCRIPTION EP2 Enclosure Paint Special Two Color EP3 Encl Paint Special Three Color ET Enclosure Nameplate FM Fuse Block Motor GD1C Single Point RIO GD2C
195. transfer to other load surfaces The hardware supplied with this option will include line fusing phase shifting input transformer and an AC to DC diode type converter bridge The traditional AC fed 1336 PLUS II drive will be replaced by a DC common bus equivalent Guidelines for Harmonic Specification IEEE519 1992 This is a North American standard developed from input provided by utilities electrical equipment manufacturers and power consumers Total harmonic distortion limits are recommended based upon the type of installation Important For compliance to this standard refer to the description in the specific option detailed below For more information on harmonic mitigation and the IEEE519 1992 standard refer to publication Drives BR007A EN P 12 Pulse Front End w ith Auto Transformer This option provides a 12 pulse drive front end fed by a 12 pulse auto transformer It does not Option M P12A guarantee meeting the guidelines of harmonic specification IEEE519 1992 without a detailed harmonic analysis 12 Pulse Front End w ith Isolation Transformer This option provides a 12 pulse drive front end fed by a 12 pulse isolation transformer It does not Option M P12N guarantee meeting the guidelines of harmonic specification 5 19 1992 without a detailed harmonic analysis 18 Pulse Front End w ith Auto Transformer This option provides an 18 pulse drive front end fed by an 18 pulse auto transformer It will meet the Option M P18
196. two galvanically isolated LA3C 2 high resolution analog outputs Both analog output channels are configurable for 0 10V or 0 20 mA operation LA4 Isolated Input B This option replaces Analog Input 2 and both standard analog outputs with a galvanically isolated analog input and a galvanically isolated high resolution analog output Both analog channels are configurable for 0 10V or 0 20 mA operation LA5 Analog Output Pulse B LA5C 2 Output Pulse Input This option replaces Analog Input 2 and both standard analog outputs with a single ended high resolution analog output a single ended 5V pulse output and galvanically isolated 5V pulse input The analog output channel is configurable for 0 10V or 0 20 mA operation LA6 Isolated Bipolar A LA6C 2 Isolated Thermistor Input This option replaces the two standard analog inputs with agalvanically isolated analog input and a galvanically isolated thermistor input Analog Input 0 is configurable for 10V or 20 mA operation with polarity determining forward or reverse operation Analog Input 0 is suitable for use with PTC sensor chains with a maximum total resistance at normal operating temperature of 1 8k ohms An indication occurs in short circuit or over temperature conditions A short circuit condition is when the total resistance of the sensor chain is less than 60 ohms with reset from the short circuit condition occurring when the resistance exceeds 70 ohms An over temperatu
197. ugh C600 Rated Amps 80 C300 Enclosed Drive 70 C350 in 40 C Ambient 60 50 C500 Assumes two 2 125 CFM cooling fans for IP 20 NEMA Type 1 enclosure 40 C600 1 Carrier Frequency in kHz 4 Carrier Frequency in kHz 4 Carrier Frequency in kHz Figure AA 1336F CP400 CPR450 100 of Drive 80 Rated Amps 70 60 50 1 1 1 2 4 6 Carrier Frequency in kHz Fi gure AC 100 EZ Data Not Available at Time of Printing py 1336F C300 of Drive 90 ae through C600 Rated AMPS gos C450 Enclosed Drive 70 C500 in 41 50 C Ambient 60 C600 50 40 t Assumes two 2 125 CFM cooling fans for IP 20 NEMA Type 1 enclosure 3 Carrier Frequency in kHz Altitude High Input Voltage Figure AD E Altitude All Drive Ratings of Drive o Rated Amps SUE 80 I I I 1 0 1 000 2 000 3 000 4000 m 8 300 6600 9 900 13 200 ft Altitude Figure AE nne High Input Voltage Required Only ofDrive for the follow ing drives Rated Amps 50 1336F x025 18 5 kW 25 HP at 8 kHz 1336F x030 22 kW 30 HP at 6 or 8 kHz 1336F x060 45 kW 60 HP at 6 kHz 80 i T 1 1 1 1 240 480 or 600V Nominal 2 4 6 8 10 60 Input Voltage Pre Installation 1336 PLUS II Remote Device Distances Total cable length between each device and the drive
198. uidelines mamam Standard Rating for Enclosed Drive in 40 C Ambient amp Open Drive in 502C Ambient mem Derating Factor for Enclosed Drive in Ambient between 41 amp 50 Figure L 1336F A075 B150 Figure M 1336F A 100 B200 Figure N 1336F A125 B250 Figure O 1336F BP250 BPR250 Figure P 1336F B P300 BPR300 Figure Q 1336F B P350 BPR350 of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps of Drive Rated Amps 100 100 100 100 100 100 96 92 88 84 80 4 Carrier Frequency in kHz 95 90 85 80 15 70 65 2 4 Carrier Frequency in kHz 95 90 85 80 75 70 65 4 Carrier Frequency in kHz 96 92 88 84 80 i 4 Carrier Frequency in kHz 95 90 85 80 75 10 65 1 2 4 Carrier Frequency in kHz 90 80 70 60 50 4 Carrier Frequency in kHz Pre Installation Derating Guidelines mamam Standard Rating for Enclosed Drive in 40 C Ambient amp Open Drive in 509C Ambient mamam Derating Factor for Enclosed Drive in Ambient between 41 amp 50 Figure R 1336F B P400 BPR400 Figure S 1336F B P450 BP450 Figure T 1336F B500 and B600 Assumes two 2 725 CFM cooling fans for IP 20 NEM
199. uipment exists if codes are ignored during installation Pre Installation IP 20 NEMA Type 1 Dimensions Frames Al Through A4 A gt 7 Y lt D gt C Max A p 1 D Ia T H Is O u s Mounting Hole Detail O lt a Y r1 7 0 0 28 127 0 50 p pee 12 7 0 50 edi L y c Three Phase Rating 2 2 Frame Mounting Holes 4 See Detail 200 240V 380 480V 500 600V Reference 0 37 0 75 kW 0 37 1 2 kW Al 0 5 1HP 0 5 1 5 HP Bottom View Will Vary with HP See Bottom View Dimensions 12 15 kW 1522kW Lv S 1 5 2HP 2 3 HP 2 2 3 7 kW 3 7 kW 3 5 5 HP i 55 5kW 075150 M 7 5 20 HP 1 20 HP D 5 5 11 kW 11 22 kW B1 B2 7 5 15 HP 15 30 HP 15 22 kW 30 45 kW 18 5 45 kW C 20 30 HP 40 60 HP 25 60 HP 30 45 kW 45 112 KW 56 93 kW D 40 60 HP 60 150 HP 75 125 HP 56 93 kW 112 187 kW 112 187 kW E 75 125 HP 150 250 HP 150 300 HP 187 336 kW 261 298 kW F 250 450 HP 350 400 HP 187 448 kW 224 448 kW G 250 600 HP 300 600 HP All Dimensions in Millimeters and Inches Use care when choosing Frame Reference Some ratings may All Weights in Kilograms and Pounds exist in another fr
200. ump u dis Reference t Maximum Traverse Traverse Run On Power Up For applications that require unattended operation the 1336 PLUS II offers the ability to resume running once power is restored after a power outage If Run On Power Up is activated and input power is lost when power is restored the drive will automatically restart and run at current command speed if all required signals are present Enable Auxiliary Not Stop and Start Output Frequency Power Lost Power Restored Time 4 20mA Loss Select Many control systems issue a 4 20 mA control signal for the drive to use as a speed reference The drive will run at minimum speed with a 4 mA signal and maximum speed with a 20 mA signal The drive can also invert this signal to run minimum speed at 20 mA and maximum speed at 4 mA Since a minimum signal of 4 mA is Frequency required the drive must have a fall back instruction in the event of a signal loss failed transducer or broken wire The 1336 PLUS II contains a loss select parameter that offers five choices for signal failure mode Drive at Command Frequency pive Ramps to Preset Speed k Signal Loss Warning Issued Time 1 Stop the drive and issue a fault 2 Go to minimum speed and issue a warning 3 Go to maximum speed and issue a warning 4 Maintain speed and issue a warning 5 Go to a preset speed and issue a warning
201. umper across the top of the connector configures that input for 0 10V operation The bottom provides 0 20 mA and the right side provides potentiometer operation Analog Option Board Installation and Removal If the drive is not factory configured with Analog Options LA1 LA2 etc the desired option boards can be user installed Prior to installation the jumpers at J 9 and or 10 must be removed If a board is removed at a later time the jumpers must be reinstalled Refer to the detailed instructions supplied with the option boards Pre Installation Motor Cables A variety of cable types are acceptable for drive installations For many installations unshielded cable is adequate provided it can be separated from sensitive circuits AS an approximate guide allow a spacing of 0 3 meters 1 foot for every 10 meters 32 8 feet of length In all cases long parallel runs must be avoided Do not use cable with an insulation thickness less than or equal to 15 mils 0 4mm 0 015 in The cable should be 4 conductor with the ground lead being connected directly to the drive ground terminal PE and the motor frame ground terminal Shielded Cable Shielded cable is recommended if sensitive circuits or devices are connected or mounted to the machinery driven by the motor The shield must be connected to both the drive ground drive end and motor frame ground motor end The connection must be made at both ends to minimize interference If cab
202. ut LA4 One Isolated Pulse Input amp Non isolated Output and One Single ended Non isolated 0 10V Output LA5 Human Interface M odule Snap In IP20 1 00 Open A G Frame amp IP20 NEMA Type 1 NEMA Type 1 A D Frame Drives Snap In Cradle Blank Plate HASB Programmer Only HASP Programmer Only amp Upload Download Capability HCSP Programmer Controller with Analog Pot HAS1 Programmer Controller with Analog Pot amp Upload Download Capability HCS1 Programmer Controller with Digital Pot HAS2 Programmer Controller with Digital Pot amp Upload Download Capability HCS2 Human Interface M odule IP20 NEM A Type 1 IP20 NEM A Type 1 Programmer Only E G Frame Enclosures 2 Programmer Controller with Analog Pot 12 Programmer Controller with Digital Pot HA22 Human Interface M odule IP661 IP66 or IP54 Programmer Display Only NEM A Type 12 Drives HJ P Programmer Controller with Digital Pot HJ 2 1 This option may be used on an IP65 or IP66 rated enclosure to meet watertight indoor applications 2 Requires a Communication Option Cable 1202 Cxx to be functional maximum of one Communication Option may be ordered factory installed on A Frame drives 2 for B Frame drives and up limited to 1 Snap in and 1 M ain Control Board mount 4 Each Flex 1 0 SCAN port M odule requires 1 1203 FB1 and 1 1203 FM 1 5 The encoder loss detection feature of the 1336 PLUS II requires the use of L7E L8E or L9E 1
203. vailable if mounted in the drive enclosure AutoCAD Disk copy of order schematics after order has shipped Basic Harmonic Analysis Pre order review of customer s one line power distribution diagram Complete Harmonic Analysis Post order detailed Harmonic Spectrum Analysis followed up with a written report Deluxe Harmonic Analysis Post order site verification of actual harmonics detailed Spectrum Analysis and written report Witness Test Customer viewing of A B standard test procedures only Additional tests and documentation per customer requirements are also available Custom Drive Firmware Options 2 Second Power Loss Fault Delay Option EN910 Implementation of a 2 second power loss fault delay time The timer is engaged when the Line Loss Fault parameter is enabled and bus voltage drops below 8596 but above minimum bus voltage MOP Reset On Stop Option EN935 M OP frequency source is programmed to reset to zero following a stop 60 Hertz Maximum Frequency Option EN945 M aximum frequency of the drive is limited to 60 Hz 1 This option should not be used with other configured drive options that do not have power fault delay capability Enclosures Specifications Installation Guidelines The information in the remaining sections of this document is very useful in making pre installation decisions Consideration should be given to enclosure type environment enclosure size mounting area av
204. y TB2 is 2 1 and 0 30 mm2 14 and 22 AWG Maximum torque for all terminals is 1 36 N m 12 Ib in Use Copper wire only Terminal Block TB3 The Control Interface Option provides a means of interfacing various signals and commands to the 1336 PLUS II by using contact closures Six different versions of the option are available Contact Closure Interfacel L4E L7E2 Contact Closure Interfacel with Encoder Feedback Inputs 5 24V AC DC Interface L5E L8E2 24V AC DC Interface with Encoder Feedback Inputs 6 115V AC Interface 6E L9E2 115V AC Interface with Encoder Feedback Inputs The user inputs are connected to the option board through TB3 see Figure 2 1 for location The L4 L5 and L6 options each have nine control inputs The function of each input must be selected through programming as explained later in this section The L4E L7E L5E L8E and L6E L9E2 options are similar to L4 L5 and L6 with the addition of encoder feedback inputs Refer to Appendix A in Pub 1336 PLUS 5 3 for input impedance values The maximum and minimum wire size accepted by TB3 is 2 1 and 0 30mm 14 and 22 AWG Recommended torque for all terminals is 0 90 1 13 N m 8 10 Ib in Use Copper wire only Digital Inputs Digital inputs are connected at TB3 Input Mode Select A number of combinations are available by first programming Input M ode to the desired control scheme i e 2 wire 3 wire or Status The remaining inputs can then be conf
205. y style switch 1494 F where possible is provided on D frame drives and larger All disconnect switches are non fusible door interlocked and padlockable Bypass Mode Motor Fuse Block Option FM This option provides a fuse block only Fuses must be customer supplied and installed This option is used in conjunction with any bypass option for motor branch circuit protection 1 The Bypass Operation capability provided by this option is not intended for maintenance of the drive or entry into the enclosure with power applied while operating in the bypass mode M aintenance Bypass positive lockout is available as a custom option 2 Bypass Options do not include the required 120V AC control power Control power may be supplied remotely by the user or as part of the drive package by ordering a Control Power option CF CP or CT see Options section 3 SMC style bypass options will include short circuit fusing for the SMC Once the motor is up to speed it is transferred from the SM C control to total across the line operation which required option FM to have branch circuit protection 75 Options Multi Pulse Harmonic Mitigation Option This 1336 PLUS II drive may be quoted with a multi pulse front end option for use in harmonic mitigation This feature reduces drive harmonics at the drive input that could be reflected back to the power distribution system Excessive harmonics can cause component overheating nuisance tripping and noise
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