BenutzerhandbuchInhaltsverzeichnisContents3Important information4Before you begin5Using motors in parallel6Documentation structure7User manual7Quick Start7Modbus Communication manual7ATV12P manual7Software enhancements8Enhancements made to version V1.2 in comparison to V1.18Steps for setting up (also refer to Quick Start)9Setup - Preliminary recommendations10Prior to switching on the drive10Prior to configuring the drive10Using the drive with motor having a different size10Line contactor10Use with a smaller rated motor or without a motor10Drive ratings11(1) These power ratings are for a switching frequency of 4 kHz, in continuous operation. The switching frequency is adjustable from 2 to 16 kHz. Above 4 kHz, the drive will reduce the switching frequency if an excessive temperature rise occurs. The t...11(2) Reference description, example: ATV12HU15M3 ATV12: Altivar 12; H: product on heatsink; U15: drive power rating, see nCU parameter page 41; M3: drive voltage rating, see UCAL parameter page 41.11(3) Size description11Dimensions and weights12Mounting13Mounting and temperature conditions13Removing the vent cover(s)13Mounting types13Bus voltage measurement procedure14Installing the EMC plates151. 2 mounting screws152. 4 x M4 screws for attaching EMC clamps15Wiring16Recommendations16General wiring diagram18Wiring labels19Input 120 V19Input 240 V19Input 240 V19Power terminals20Access to the power terminals20Access to the line supply terminals to connect ring terminals20Access to the motor terminals if you use ring terminals21Characteristics and functions of power terminals21Arrangement of the power terminals22(1) The value in bold corresponds to the minimum wire gauge to permit secureness.22(2) 75°C (167 °F) copper cable (minimum wire size for rated use)22(3) Recommended to maximum value.22Control terminals23Access to the control terminals23Arrangement of the control terminals23(1) The value in bold corresponds to the minimum wire gauge to permit secureness.23(2) Recommended to maximum value.23Characteristics and functions of the control terminals24Control connection diagrams25Source - using external supply25Electromagnetic compatibility (EMC)261. Non-shielded wires for the output of the status relay contacts.272. Sheet steel grounded casing not supplied with the drive, to be mounted as indicated on the diagram.273. PA and PC terminals, to the braking module DC bus274. Shielded cable for connecting the control/signalling wiring. For applications requiring several conductors, use small cross-sections (0.5 mm2, 20 AWG). The shielding must be connected to ground at both ends. The shielding must be continuous and in...275. Shielded cable for motor connection with shielding connected to ground at both ends. This shielding must be continuous, and if there are any intermediate terminals, these must be in an EMC shielded metal box. The motor cable PE grounding conductor...276. Grounding conductor, cross-section 10 mm² (6 AWG) according to IEC 61800-5-1 standard.277. Power input (non shielded cable)27EMC conditions for ATV12ppppM228Internal EMC filter on ATV12ppppM228Check list29Factory configuration30Drive factory settings30Drive factory wiring diagram30Basic functions31Status relay, unlocking31Drive thermal detection31Drive ventilation31Motor thermal detection31Programming32HMI description321. Value LED (a) (b).322. Charge LED323. Unit LED (c)324. ESC button: Exits a menu or parameter, or aborts the displayed value to return to the previous value in the memory. In LOCAL configuration, 2 s press on ESC button switches between the control/programming modes.325. STOP button: stops the motor (could be hidden by door if function disabled). Note: See instructions for "RUN/STOP" cover removal.326. RUN button: Starts running in LOCAL configuration and in REMOTE configuration if the function is configured (could be hidden by door if function disabled).327. Jog dial - Acts as a potentiometer in LOCAL configuration and in REMOTE configuration if the function is configured. - For navigation when turned clockwise or counterclockwise - and selection / validation when pushed. This action is represented by...328. MODE button Switches between the control/programming modes. 3s press on MODE button switches between the REMOTE/LOCAL configurations.329. CONFIGURATION mode LED (b)3210. MONITORING mode LED3211. REFERENCE mode LED3212. Four "7-segment" displays32First power-up34Menus structure34Menu customization using SoMove34Structure of parameter tables35Configuration Mode - Complete menu (FULL)351. Name of mode352. Name of section, if any353. Menu code on 4-digit display, followed by a "-"354. Sub-menu code on 4-digit display, if any355. Parameter code356. Value code357. Name of menu358. Name of sub-menu359. Parameter description3510. Possible value(s) / state of parameter, if any.35Function compatibility table36Reference Mode rEF37Organization tree37Monitoring mode MOn38values38Configuration Mode ConF441. MyMenu includes 11 factory set parameters (among them 9 visible by default). Up to 25 parameters are available for user customization using SoMove software.442. store/recall parameter set: these 2 functions are used to store and recall customer settings.443. FULL: This menu provides access to all other parameters. It includes 6 sub-menus: - Macro-configuration CFG- page 47 - Input Output menu I_O- page 48 - Motor control menu drC- page 58 - Control menu CtL- page 62 - Function menu FUn- page 64 - Faul...44Organization tree44Configuration Mode - MyMenu45How to control the drive locally46LI assignment information46Configuration Mode - Complete menu (FULL)47(1) In = nominal drive current55(1) In = nominal drive current57Control menu61Preset speeds69PID diagram71Architecture of the pumping installation80Connection diagram82PI feedback supervision (MPI)83Pump sub-menu PMP84"Sleep" function/"Wake-up" function86Quick start function86Zero flow detection87(1) In = nominal drive current88High speed configuration90Motor thermal protection93(1) In = nominal drive current94Maintenance99Migration ATV11 - ATV12100Dimensions100Terminals101Settings102Functions - Comparison with ATV11pppE versions103Functions - Comparison with ATV11pppU versions104Functions - Comparison with ATV11pppA versions105Functions - Comparison with ATV11pppE327 versions106Diagnostics and Troubleshooting107Drive does not start, no error code displayed107Fault detection codes that cannot be cleared automatically107Fault detection codes that cannot be cleared automatically (continued)108Fault detection codes that can be cleared with the automatic restart function, after the cause has disappeared109Fault detection codes that can be cleared with the automatic restart function, after the cause has disappeared (continued)110Faults codes that will be cleared as soon as their causes disappear111(1)111Fault detection codes displayed on the remote display terminal112Application notes1132-wire control (source)1131. Connect the ground terminal to the grounding screws located below the output terminals.1132. Connect the power terminals.1133. Connect the logic inputs.1134. Turn on the drive without giving a run command.1135. Assign factory settings to the drive, Factory / recall customer parameter set FCS page 46 set to InI.1136. Set the motor parameters (in COnF mode) only if the factory configuration of the drive is not suitable.1137. Perform an auto-tuning.1138. Set Reverse direction rrS parameter page 66 to LI2H1139. Start1133-wire control (sink)1131. Connect the ground terminal to the grounding screws located below the output terminals.1132. Connect the power terminals.1133. Connect the logic inputs.1134. Turn on the drive without giving a run command.1135. Assign factory settings to the drive, Factory / recall customer parameter set FCS page 46 set to InI.1136. Set tCC to 3C see page 481137. Set the motor parameters (in COnF mode) only if the factory configuration of the drive is not suitable.1138. Perform an auto-tuning.1139. Set Logic inputs type nPL parameter page 51 to nEG11310. Start1132-wire control (sink)1141. Connect the ground terminal to the grounding screws located below the output terminals.1142. Connect the power terminals.1143. Connect the logic inputs.1144. Turn on the drive without giving a run command.1145. Assign factory settings to the drive, Factory / recall customer parameter set FCS page 46 set to InI.1146. Set tCC to 3C see page 481147. Set the motor parameters (in COnF mode) only if the factory configuration of the drive is not suitable.1148. Perform an auto-tuning.1149. Set Logic inputs type nPL parameter page 51 to EnEG11410. Start114Speed control 0-20 mA (source)1141. Connect the ground terminal to the grounding screws located below the output terminals.1142. Connect the power terminals.1143. Connect the logic input LI1 and analog input AI1.1144. Turn on the drive without giving a run command.1145. Assign factory settings to the drive, Factory / recall customer parameter set FCS page 46 set to InI.1146. Set the motor parameters (in COnF mode) only if the factory configuration of the drive is not suitable.1147. Perform an auto-tuning.1148. Set AI1 type AI1t page 52 to OA and AI1 current scaling parameter of 0% CrL1 page 52 to 0 A. Check that AI1 current scaling parameter of 100% CrH1 page 52 is set to 20 mA.1149. Start.1144 Preset speeds (source)1151. Connect the ground terminal to the grounding screws located below the output terminals.1152. Connect the power terminals.1153. Connect the logic inputs.1154. Turn on the drive without giving a run command.1155. Assign factory settings to the drive, Factory / recall customer parameter set FCS page 46 set to InI.1156. Set the motor parameters (in COnF mode) only if the factory configuration of the drive is not suitable.1157. Perform an auto-tuning.1158. Set 2 Preset speeds PS2 page 70 to L2H.115Applicative notes1164 Preset speeds (source) continued117Terminals command channel with Modbus reference channel1181. Connect the ground terminal to the grounding screws located below the output terminals.1182. Connect the power terminals.1183. Connect the logic input LI1 and plug RJ45 cable to the Modbus socket.1184. Turn on the drive without giving a run command.1185. Assign factory settings to the drive, Factory / recall customer parameter set FCS page 46 set to InI.1186. Set the motor parameters (in COnF mode) only if the factory configuration of the drive is not suitable.1187. Perform an auto-tuning.1188. Set Channel configuration CHCF page 62 to SEP. Set Reference channel 1 Fr1 page 62 to Mdb. Check that Command channel 1 Cd1 page 63 is set to tEr.1189. Start1181. Types of enclosures that can be used: 1, 12, 3, 3R, 4, and 4X-all non-ventilated.1192. The GV2Ppp self-protected manual combination starter must be used with the GV2GH7 insulating barrier to meet the UL 508 Type E rating.1193. The GV3Ppp self-protected manual combination starter must be used with the GV3G66 insulating barrier and the GVAM11 auxiliary contact block to meet the UL 508 Type E rating.1194. The line reactor is required when the ATV12 drive is used in a system with a current availability higher than the drive's SCCR design.1195. When fuse type is not specified any Class J or CC can be used. If fuse manufacturer is not specified any fuse manufacturer can be used.1196. Input withstand rating is that for which the product has been designed thermally. Installation on a supply greater than this level will require additional inductance to satisfy this level.1197. Output interrupt rating relies on Integral solid state short circuit protection. This does not provide branch circuit protection. Branch circuit protection must be provided in accordance with the National Electrical Code and any additional local c...119Wiring120Organization tree121Parameter index122(1) In = nominal drive current127Größe: 9,27 MBSeiten: 133Language: EnglishHandbuch öffnen