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Related Manuals for BONFIGLIOLI Vectron AEC Series
Summary of Contents for BONFIGLIOLI Vectron AEC Series
- Page 1 Device Series Active Energy Control AEC 401 Operating Instructions...
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Page 3: Table Of Contents
TABLE OF CONTENTS General Information about the Documentation ............6 Instructions ......................6 This document ....................6 Warranty and liability ..................7 Obligation ......................8 Copyright ......................8 Storage of documents ..................8 General safety instructions and information on use ............9 Terminology ...................... - Page 4 Block-shaped feedback ..................19 Storage and transport ....................20 Storage ......................20 Special safety instructions on transport of heavy devices ....... 21 Dimensions/weight ..................21 Transfer to place of installation ............... 21 Unpacking the device ..................22 Bringing the device into installation position ..........22 4.6.1 Sizes 3 through 6 .....................
- Page 5 Size 8 ........................ 49 Electrical installation ....................50 EMC-compliant installation ................50 Conductor cross-section ................... 51 Connection of device ..................53 8.3.1 Control connections ....................54 8.3.2 Connection of auxiliary voltage, size 8 ............... 56 8.3.3 Mains unit power connection ..................57 8.3.4 Feed-back unit power connection ................
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Page 6: General Information About The Documentation
1 General Information about the Documentation Instructions For better clarity, the documentation is structured according to the customer-specific requirements made on the device. Quick Start Guide The “Quick Start Guide” describes the basic steps required for mechanical and electrical installation of the device. -
Page 7: Warranty And Liability
“Mains Unit” and the “Feed-back Unit“. Wherever a certain description only refers to the mains unit or the feed-back unit, the device will be mentioned accordingly. The AEC series of devices can be identified by the corresponding rating plate. For the rating plate, refer to chapter Rating plate. -
Page 8: Obligation
Operating Instructions and, in particular, the safety instructions in order to prevent personal and material losses. Copyright Copyright to this document remains with Bonfiglioli Vectron MDS GmbH Europark Fichtenhain B6 47807 Krefeld Germany These Operating Instructions are intended for the operator of the AEC and for their staff. Any disclosure or copying of this document, exploitation and communication of its contents (as hardcopy or electronically) shall be forbidden, unless permitted expressly. -
Page 9: General Safety Instructions And Information On Use
2 General safety instructions and information on use The chapter "General safety instructions and information on use" contains general safety instructions for the Operator and the Operating Staff. At the beginning of certain main chapters, some safety instructions are included which apply to all work described in the relevant chapter. Special work-specific safety instructions are provided before each safety-relevant work step. -
Page 10: Designated Use
Expert The term Expert covers qualified and trained staff that have special technical know-how and experience relating to AEC. Experts must be familiar with the applicable government work safety directives, accident prevention regulations, guidelines and generally accepted rules of technology in order to assess the operationally safe condition of the AEC. -
Page 11: Safety And Warning Signs
Thermal hazards Risk of accidents by hot machine/plant surfaces, e.g. heat sink, transformer, fuse or sine filter. Charged capacitors in DC link The DC-link, depending on the device type, may have dangerous voltage levels even up to 8 minutes after shutdown. -
Page 12: Prohibition Signs
2.6.3 Prohibition signs Symbol Meaning No switching; it is forbidden to switch the machine/plant, assembly on 2.6.4 Personal safety equipment Symbol Meaning Wear body protection 2.6.5 Recycling Symbol Meaning Recycling, to avoid waste, collect all materials for reuse 2.6.6 Grounding symbol Symbol Meaning Ground connection... -
Page 13: Font Style In Documentation
Font style in documentation Example Font style 1234 bold Representation of parameter numbers inclined, font: Times New Roman Representation of parameter names Parameter 1234 font: Courier New Representation of parameter values and other values P.1234 bold Representation of parameter numbers without name, e.g. in formulas Q.1234 bold... -
Page 14: Ear Protectors
2.11.2 Use in combination with third-party products Please note that Bonfiglioli Vectron MDS GmbH will not accept any responsibility for compatibility with third-party products (e.g. motors, cables or filters). In order to enable optimum system compatibility, Bonfiglioli Vectron MDS GmbH offers components facilitating commissioning and providing optimum synchronization of the machine/plant parts in operation. -
Page 15: Electrical Connections
2.11.5 Electrical connections The five safety rules must be complied with. Never touch live terminals. The DC-link may have dangerous voltage levels even up to 8 minutes after shutdown. When performing any work on/with the AEC, always comply with the applicable national and international regulations/laws on work on electrical equipment/plants of the country in which the AEC is used. -
Page 16: Maintenance And Service/Troubleshooting
2.11.8 Maintenance and service/troubleshooting Visually inspect the device when carrying out the required maintenance work and inspections at the machine/plant. Perform the maintenance work and inspections prescribed for the machine carefully, including the specifications on parts/equipment replacement. Work on the electrical components may only be performed by a qualified electrician according to the applicable rules of electrical engineering. -
Page 17: Description Of Function
3 Description of function In many processes, the energy produced by generator operation, cannot be fed-back into the supply mains by frequency inverters directly. Instead of losing the energy that is converted to unusable heat, the energy can be fed back into the supply mains by the AEC for re-use. Depending on the chosen configuration, the energy generated in this way can be recovered in sine or block form. - Page 18 Frequency inverter Line choke Mains unit Radio interference filter Motor Contactor Sine filter Supply mains Direction of energy flow Operating Instructions AEC 11/17...
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Page 19: Block-Shaped Feedback
Block-shaped feedback In the case of this type of feedback, the available recuperated energy is fed back into the connected mains as required for a short time. The drive inverters are supplied with energy from the connected mains. The amount of energy recovered by the AEC device may be significantly lower than the amount of energy tapped from the mains by the frequency inverter. -
Page 20: Storage And Transport
4 Storage and transport NOTICE Draining the heat sink Liquid cooled devices may be transported and stored only with the heat sink completely drained of the coolant. Use compressed air to drain the heat sink radiator. Storage NOTE Damage caused by incorrect storage Wrong or inappropriate storage may result in damage, e.g. -
Page 21: Special Safety Instructions On Transport Of Heavy Devices
Special safety instructions on transport of heavy devices WARNING High weight and unusual center of gravity! Tilting the device may result in death or serious injuries. Due to the size and weight of the device, there is the risk of accidents during transport. The center of gravity may be not in the middle of the device. -
Page 22: Unpacking The Device
Unpacking the device Carefully remove packaging. Check if the delivered devices corresponds to the order. Check the device for transport damage and completeness. Any defects/damage must be reported to the supplier immediately. Ensure that all packaging materials are disposed of in an environmentally compatible manner. - Page 23 Use appropriate lifting means and a crane to lift the device up carefully. Bring the device into vertical position by turning it up on the pallet via the rear lower edge of the case. NOTE Do not leave the device standing in upright position. ...
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Page 24: Scope Of Supply
5 Scope of supply Thanks to the modular hardware components, the mains unit can be integrated in the automation concept easily. The scope of delivery described can be supplemented by optional components and adapted to the customer-specific requirements. Size 3 and Size 4 Scope of supply Terminal strip X10 (Phoenix ZEC 1.5/3ST5.0) Plug-in terminals for the relay output Standard fittings with fitting screws (M4x20, M4x60) for vertical assembly... -
Page 25: Size 5
Size 5 Scope of supply Terminal strip X10 (Phoenix ZEC 1.5/3ST5.0) Plug-in terminals for the relay output Standard fittings with fitting screws (M4x20, M4x70) for vertical assembly Quick Start Guide and Operating Instructions Control terminals X210A / X210B (Wieland DST85 / RM3.5) Plug-in terminal for connection of the control signals Please check incoming goods for quality, quantity and nature without delay. -
Page 26: Size 7
Size 6 Scope of supply Terminal strip X10 (Phoenix ZEC 1.5/3ST5.0) Plug-in terminals for the relay output Air-cooled devices only: Standard fixtures with fixing bolts ( M5x20) for vertical assembly Quick Start Guide and Operating Instructions Control terminals X210A / X210B (Wieland DST85 / RM3.5) Plug-in terminal for connection of the control signals Please check incoming goods for quality, quantity and nature without delay. - Page 27 Size 7 Scope of supply Terminal strip X10 (Phoenix ZEC 1.5/3ST5.0) Plug-in terminals for the relay output Control terminals X210A / X210B (Wieland DST85 / RM3.5) Plug-in terminal for connection of the control signals Quick Start Guide and Operating Instructions Please check incoming goods for quality, quantity and nature without delay.
- Page 28 Size 8 Scope of supply Terminal strip X10 (Phoenix ZEC 1.5/3ST5.0) Plug-in terminals for the relay output Control terminals X210A / X210B (Wieland DST85 / RM3.5) Plug-in terminal for connection of the control signals Quick Start Guide and Operating Instructions Please check incoming goods for quality, quantity and nature without delay.
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Page 29: Technical Data
Up to 1000 m at nominal specifications. Up to 4000 m at reduced power. Storage Storage according to EN 50178. Bonfiglioli Vectron recommends that the unit be connected to nominal voltage for 60 minutes after one year, at the latest. Overload capacity Continuous operation 100% I... -
Page 30: Technical Data - Control Electronic Equipment
Technical Data – Control Electronic Equipment Control terminal X210A Control terminal X210B X210A.1 DC 20 V output (I =180 mA) or DC X210B.1 Digital inputs 24 V ±10% input for external power supply X210A.2 GND 20 V/ GND 24 V (ext.) X210B.2 Digital input S7IND X210A.3... -
Page 31: Technical Data
Technical data 6.4.1 Sizes 3 and 4 Type AEC 401 Size Output, mains side, at 400 V mains voltage Output power 12.5 15.2 17.3 22.2 Nominal output current Voltage 320 … 460 Frequency 45 … 66 Protection Short circuit / earth fault proof Switching frequency 4, 8, 12, 16 Line fuses... -
Page 32: Size 5
6.4.2 Size 5 Type AEC 401 Size Output, mains side, at 400 V mains voltage Output power 27.7 31.2 41.6 Nominal output current Voltage 320 … 460 Frequency 45 … 66 Protection Short circuit / earth fault proof Switching frequency 4, 8 Line fuses external... -
Page 33: Size 6
6.4.3 Size 6 Type AEC 401 Size Output, mains side, at 400 V mains voltage Output power 52.0 62.3 76.2 86.6 Nominal output current Voltage 320 … 460 Frequency 45 … 66 Protection Short circuit / earth fault proof Switching frequency 4, 8 Line fuses external... -
Page 34: Size 7
6.4.4 Size 7 Type AEC 401 Size Output, mains side, at 400 V mains voltage Output power 103.9 124.7 145.5 173.2 Nominal output current Voltage 320 … 460 Frequency 45 … 66 Protection Short circuit / earth fault proof Switching frequency 4, 8 Line fuses external... -
Page 35: Size 8
6.4.5 Size 8 Type AEC 401 (400 V) Size Output, mains side, at 400 V mains voltage Output power 211.4 263.3 329.1 412.3 447.0 509.4 Nominal output current Voltage 320 … 528 Frequency 45 … 66 Protection Short circuit / earth fault proof Switching frequency 4, 8 Line fuses... -
Page 36: Operation Diagrams
Operation diagrams The technical data of the mains unit refer to the nominal point which was selected to enable a wide range of applications. A functionally and efficient dimensioning (derating) of the mains unit is possible based on the following diagrams. Installation altitude max. -
Page 37: Extension Modules
Extension modules Thanks to the modular hardware components, the AEC can be integrated in the automation concept easily. The standard and optional modules are recognized during the initialization, and the controller functionality is adjusted automatically. For the information required for installation and handling of the optional modules, refer to the corresponding documentation. -
Page 38: Application Components Required
Use a sine filter as per the following table. Bonfiglioli Vectron recommends using the following accessories in combination with AEC mains units. These accessories are available at Bonfiglioli Vectron MDS GmbH 6.7.1 Fuses The fuses to be used with AEC mains units must be selected considering the type and power requirements. -
Page 39: Line Choke
In mains unit mode, a central DC-link can be powered via the AEC mains unit. The cables in the DC-link of the connected frequency inverters are to be fused properly. When dimensioning the DC-fuses, the derating factors specified by the fuse manufacturer must be considered in addition to the specified DC-link voltage setpoint. -
Page 40: Sine Filter
Mains unit/feed-back unit Line choke Type AC mains current [A] Part number Inductance [mH] AEC 401-53 184 525 350 0.084 AEC 401-55 184 525 440 0.068 AEC 401-57 184 525 550 0.052 AEC 401-59 184 400 690 0.046 AEC 401-61 184 400 690 0.046 6.7.3 Sine filter... - Page 41 Mains unit/feed-back unit EMC mains filter Type AC mains nominal current [A] Part number AEC 401-33 AEC 401-35 AEC 401-37 189 430 150 AEC 401-39 AEC 401-43 AEC 401-45 AEC 401-47 189 430 300 AEC 401-49 AEC 401-51 AEC 401-53 185 400 401 AEC 401-55 AEC 401-57...
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Page 42: Mechanical Installation
7 Mechanical installation The AEC of degree of protection IP20 are designed, as a standard, for stationary installation in electrical cabinets. Other installation variants are available apart from the air-cooled standard installation variant described in these Operating Instructions: Feedthrough assembly for sizes 1 through 8, see "Installation Instructions – Feedthrough Assembly"... -
Page 43: Air Circulation
Air circulation For cooling air-cooled mains units, air is taken in through openings in the bottom plate. The air coming from below heats up and escapes through openings in the top of the case. The illustration shows the air flow from below in the case of a device of size 8. 11/17 Operating Instructions AEC... -
Page 44: Size 3 And Size 4
Size 3 and Size 4 The frequency inverter is mounted in a vertical position on the assembly panel by means of the standard fittings. The following illustration shows the standard fitting. Standard installation 100 mm fixing bracket top (fixing with screws M4x20 fixing bracket bottom (fixing with screws... -
Page 45: Size 5
Size 5 The following illustration shows the standard fitting. Standard installation 100 mm fixing bracket top fixing bracket bottom (fixing with screws M4x20 (fixing with screws M4x70 Assembly is done by screwing the two fixing brackets to the heat sink of the device and the assembly panel. The devices are provided with fixing brackets, which are fitted using four thread-cutting screws. -
Page 46: Size 6
Size 6 The frequency inverter is mounted in a vertical position on the assembly panel by means of the standard fittings. The following illustration shows the standard fitting. Standard installation x 100 mm Befestigungswinkel oben Befestigungswinkel unten (Befestigung mit Schrauben M5x20 (Befestigung mit Schrauben M5x20... -
Page 47: Size 7
Size 7 The frequency inverter is mounted in a vertical position on the assembly panel. The following illustration shows the standard fitting. Standard installation 300 mm 300 mm 11/17 Operating Instructions AEC... - Page 48 Assembly is done by screwing the back wall of the device to the assembly panel. The dimensions of the device and the installation dimensions are those of the standard device without optional components and are given in millimeters. The diameter of the fixing holes is 9 mm. Dimensions [mm] Assembly dimensions [mm] AEC 401...
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Page 49: Size 8
Size 8 The frequency inverter is mounted in a vertical position on the assembly panel. The following illustration shows the standard fitting. Standard installation The diameter of the fixing holes is 9 mm. Screw the rear wall of the device heat sink to the mounting plate. Dimensions in mm Assembly dimensions in mm AEC 401/601... -
Page 50: Electrical Installation
8 Electrical installation WARNING Dangerous voltage! When the device is disconnected from power supply, the mains, DC-link voltage and motor terminals may still be live for some time. Work on the device may only be started once the DC link capacitors have discharged. The time to wait is at least 3 minutes in the case of sizes 1 through 7 and at least 8 minutes in the case of size 8. -
Page 51: Conductor Cross-Section
Provide proper equipotential bonding within the system or plant. Plant components such as electrical cabinets, control panels, machine frames must be connected by means of PE cables, i.e. sufficient area and with good conductivity. The shield of the control cables is to be connected to ground potential properly, i.e. with good conductivity, on both sides (shield clamp). - Page 52 AEC 401 Mains cable PE-conductor 103.9 kVA 70 mm² 1x35 mm² 124.7 kVA 95 mm² 1x50 mm² 145.5 kVA 2x70 mm² 1x70 mm² 173.2 kVA 2x95 mm² 1x95 mm² 160 kVA 150 mm² 95 mm² 200 kVA 240 mm² 120 mm² 250 kVA 2x120 mm²...
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Page 53: Connection Of Device
Connection of device WARNING Dangerous voltage! When the device is disconnected from power supply, the mains, DC-link voltage and motor terminals may still be live for some time. Work on the device may only be started once the DC link capacitors have discharged. The time to wait is at least 3 minutes in the case of sizes 1 through 7 and at least 8 minutes in the case of size 8. -
Page 54: Control Connections
Special connection variants are possible apart from the standard connection variant described in these Operating Instructions: Parallel connection (see "Application Manual – Parallel Connection") 8.3.1 Control connections Additional control connections are available by using appropriate components. See Chapter 6.6 “Extension modules”. The control hardware and the software of the mains unit are freely configurable to a great extent. - Page 55 Relay output CAUTION Device damage When disconnected from mains supply, the mains unit may only be reconnected to mains supply after a defined waiting time. If the relay output is not connected to a coupler relay controlling the mains contactor, the device might be damaged. ...
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Page 56: Connection Of Auxiliary Voltage, Size 8
8.3.2 Connection of auxiliary voltage, size 8 For supply of the control circuits of AEC size 8, you will need a 400 V power supply unit or other 400 V auxiliary voltage supply. NOTE If no 400 V auxiliary voltage supply is available at the place of installation, a 400 V power supply unit must be installed for the control circuits of the ACU and AEC. -
Page 57: Mains Unit Power Connection
8.3.3 Mains unit power connection WARNING Dangerous currents! High currents can destroy the device! The AEC mains unit may only be connected to mains via a precharging circuit. The mains unit is integrated in a system typically comprising the following components: ... - Page 58 NOTE Residual current circuit breakers (r.c.c.b.) can be used in combination with AECs to a limited extent only. An all-current sensitive residual current relay with leakage current separation must be used. There are two reasons for this: 1. All rectifier loads (i.e. not just AECs) can produce a direct current in the mains cables which can reduce sensitivity of the circuit breaker.
- Page 59 8.3.3.1 Power connection up to size 7 Mains unit power connection up to size 7 ACU/ANG (X1) (X2) (X1) (X1) (X2) 1 2 3 X/C Y/D Z L1 L2 L3 ZK+ ZK- L1 L2 L3 ZK+ ZK- U V W U1 V1 W1 U2 V2 W2 U1' V1' W1'...
- Page 60 Connections, mains unit size 7 AEC-TZ-LeistungsanschlBG7_01-V01 Figure 8-2: Power connections, size 7 Operating Instructions AEC 11/17...
- Page 61 8.3.3.2 Power connections, size 8 Power connection, mains unit size 8 ACU/ANG (X1) (X2) X/C Y/D Z L1 L2 L3 L1 L2 L3 ZK+ ZK- L1 L2 L3 ZK+ ZK- U V W U1 V1 W1 U2 V2 W2 U1' V1' W1' U1 V1 W1 Load L1' L2' L3'...
- Page 62 Power connection requirements CAUTION Device damage Improper cabling can damage the device. For power connection, note (see drawing above): Ensure that cable dimensions are correct (1). Min. length of insulation under/after cable gland: 10 mm (2) Max.
- Page 63 Connection of sine filter, size 8 L2 L3 Figure 8-5: Connection of mains unit sine unit, size 8 For information on how to connect the device, refer to Chapter “Conductor cross- section” and Chapter “Fuses”. NOTE The cables of the AEC feed-back unit connected to the inverter DC-link must be fused using appropriate DC fuses.
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Page 64: Feed-Back Unit Power Connection
W / R total [mF] [Ws] [Ws] [Ws] [Ohm] 400V/250kW 565.69 1440 3500 400V/400kW 565.69 2880 3500 Use fuses type gL ≥ 160 A for the precharging circuit. In case the total power is higher, the precharging circuit must be designed for higher power values accordingly. The following circuit suggestions must be adjusted to the specific application and relevant regulations. - Page 65 Frequency inverter Asynchronous motor or synchronous motor (shielded) mains cable Shielded control cables Metal mounting plate In addition to the components listed above, a precharging circuit must be provided. Line choke Install the line choke between the radio interference filter and the feed-back unit. ...
- Page 66 8.3.4.1 Power connection up to size 7 Feed-back unit power connection up to size 7 ACU/ANG (X1) (X1) (X2) (X1) (X2) 1 2 3 X/C Y/D Z L1 L2 L3 L1 L2 L3 ZK+ ZK- 3ph/400V AC AEC-TD-Leistungsanschl_03-V01 Line choke Rectifier connection Mains contactor DC link connection...
- Page 67 Connections, feed-back unit size 7 AEC-TZ-LeistungsanschlBG7_01-V01 Figure 8-7: Connections , size 7 11/17 Operating Instructions AEC...
- Page 68 8.3.4.2 Power connections, size 8 Power connection, feed-back unit size 8 ACU/ANG L1 L2 L3 1 2 3 X/C Y/D Z L1 L2 L3 L1 L2 L3 3ph/400V AC AEC-TD-Leistungsanschl_04-V01 Line choke DC link connection - Mains contactor DC link connection + Radio interference filter Power circuit connection Mains fuses...
- Page 69 Power connection requirements CAUTION Device damage Improper cabling can damage the device. For power connection, note (see drawing above): Ensure that cable dimensions are correct (1). Min. length of insulation under/after cable gland: 10 mm (2) Max.
- Page 70 Connection of line choke L2 L3 Figure 8-9: Connection of feed-back unit line choke, size 8 8.3.4.3 Network access The AEC feed-back unit requires separate wiring for mains connection. The mains contactor K2 must be controlled by relay output X10. When the mains contactor K2 was switched off, it must be ensured that the DC link is discharged before the mains contactor K2 can be switched on again.
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Page 71: Dc Link Connection, Frequency Inverter With Aec
DC link connection, frequency inverter with AEC WARNING Dangerous voltage! When the device is disconnected from power supply, the mains and DC terminals may still be live for some time. Work on the device may only be started once the DC link capacitors have discharged. -
Page 72: Commissioning And Operation Aec
9 Commissioning and operation AEC Before turning mains voltage on for the first time, check all control and power connections. Ensure that the mains unit is not enabled (control input S1IND/terminal X210A.3 and X210B.3). Turn mains voltage on. The device will perform a self-test. -
Page 73: Error And Warning Behavior
10 Error and warning behavior Operation of the AEC and the connected load are monitored continuously. The monitoring functions are to be parameterized with the corresponding limit values specific to the application. If the limits were set below the switch-off limit of the frequency inverter, an error switch-off can be prevented by suitable measures if a warning message is issued. - Page 74 Output signals Reaching of warning limits is reported via digital signals. 166 - Heat sink temperature warning Value “80 °C minus 407” was reached. Warning Limit Tk 167 - Inside temperature warning Value “65 °C minus 408” was reached. Warning Limit Ti The value 170 - Warning overtemperature “80 °C minus...
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Page 75: Operational And Error Diagnosis
11 Operational and error diagnosis The various control methods and the hardware of the device include functions which continuously monitor the application. The operational and error diagnosis is facilitated by the information stored in the error protocol. 11.1 List of errors The last 16 fault messages are stored in chronological order and 362 shows the number of No. - Page 76 Meaning Interior temperature too low, check control cabinet heating. Output current Overloaded, check load situation and ramps. Instantaneous output current value too high. Check load. Dyn. Phase-Current Limitation Check load. Overloaded, check load situation and current value limit controller. DC-Link Voltage DC link voltage too high, check deceleration ramps and connected brake resistor.
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Page 77: Output Signals In The Case Of Error Messages
Meaning CANopen Heartbeat error, nn = triggering node. CM module identification Unknown CM module. Verify compatibility of firmware and CM module EM module identification Unknown EM module. Verify compatibility of firmware and EM module Industrial Ethernet Industrial Ethernet error. Please note the instructions on the Ethernet module used. User error VPLC Internal PLC function error caused by the user. - Page 78 Error environment Description Function Current component forming the magnetic flux or the calculated Isd/Reactive Current reactive current. Current component forming the torque or the calculated active Isq/Active Current current. Input signal on multifunction input 1 in analog Operation Analog input MFI1A 452.
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Page 79: List Of Parameters
12 List of parameters The parameter list is structured according to the menu branches of the control unit. The parameters are listed in ascending numerical order. A headline (shaded) can appear several times, i.e. a subject area may be listed at different places in the table. Not all of the parameters listed are relevant to the AEC. See the following chapters. - Page 80 Description Unit Display range STO Status XXXX Peak Value Vdc 0.0 … U dmax Average Value Vdc 0.0 … U dmax Peak Value Heat Sink Temp. deg.C 0 … T kmax Average Value Heat Sink Temp. deg.C 0 … T kmax Peak Value Inside Temperature deg.C...
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Page 81: Parameter Menu (Para)
Description Unit Display range Mains actual values Frequency 0.0 … 999.99 Power Supply Current 0.0 … I Mains voltage 0.0 … 999.99 12.2 Parameter Menu (PARA) Description Unit Setting range Device data Serial Number Characters Optional Modules Characters Inverter Software Version Characters Copyright Characters... - Page 82 Description Unit Setting range Error/Warning Behavior Selection Point X1 0.00 … 100.00 Point Y1 -100.00 … 100.00 Point X2 0.00 … 100.00 Point Y2 -100.00 … 100.00 Digital Outputs Setting Frequency 0.00 … 599.00 Setting Frequency Off Delta 0.00 … 599.00 Percentage Value Limits Minimum Reference Percentage 0.00 …...
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Page 83: Aec-Relevant Parameters
12.3 AEC-relevant parameters 12.3.1 Description of parameters AEC-relevant parameters Mains unit (P.30 = 710) Feed-back unit (P.30 = 711) Fixed Percentage 1 Operation Mode Operation mode of voltage Relative Short-Circuit Voltage controller Reference DC-Link Voltage Max. DC-Link Voltage Deviation Max. Output Current Max. -
Page 84: Parameter Setting Options
AEC-relevant parameters Description Unit Explanation Configuration Selection of feedback method Switching frequency Pulse width modulation Setting of phase displacement between output Fixed Percentage 1 current and mains voltage via input of react nominal Selection of operation mode of digital output 1. By default, it is set to “103 Inv. - Page 85 Parameter Setting Factory Description Min. Max. setting Amplification 0.00 80.00 Integral Time 0.00 ms 10.00 ms 10.00 ms Operation Mode 1 – Voltage Control Voltage Controller Reference DC-Link Voltage 390.0 V 675.0 V 775.0 V Max. DC-Link Voltage 10.0 V 75.0 V 200.0 V Deviation...
- Page 86 Index 367 ................75 030 ................69 400 ................70 405 ................70 259 ................74 406 ................70 269 ................70 407 ................70 408 ................70 413 ................73 310 ................72 311 ................72 312 ................72 520 ................
- Page 87 Bonfiglioli worldwide network Bonfiglioli Australia Bonfiglioli Italia 2, Cox Place Glendenning NSW 2761 Industrial Locked Bag 1000 Plumpton NSW 2761 Via Sandro Pertini lotto 7b - 20080 Carpiano (Mila- Tel. (+ 61) 2 8811 8000 - Fax (+ 61) 2 9675 6605 www.bonfiglioli.com.au Tel.
- Page 90 Bonfiglioli has been designing and developing innovative and reliable power transmission and control solutions for industry, mobile machinery and renewable energy applicacations since 1956. Bonfiglioli Riduttori S.p.A. tel: +39 051 647 3111 COD. VEC 466 R1 fax: +39 051 647 3126 Via Giovanni XXIII, 7/A 40012 Lippo di Calderara di Reno bonfiglioli@bonfiglioli.com...
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