KEB COMBIVERT S6 Series Instructions For Use Manual
Installation s6 housing 2
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Summary of Contents for KEB COMBIVERT S6 Series
- Page 1 COMBIVERT S6 INSTRUCTIONS FOR USE | INSTALLATION S6 HOUSING 2 Translation of the original manual Document 20088319 EN 09...
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Page 3: Preface
PrefAce Preface The described hard- and software are developments of the KEB Automation KG. The enclosed documents correspond to conditions valid at printing. Misprint, mistakes and technical changes reserved. Signal words and symbols Certain operations can cause hazards during the installation, operation or thereafter. -
Page 4: Laws And Guidelines
If applicable, the license terms of this software are contained in the instructions for use. The instructions for use are already available to you, can be downloaded free of charge from the KEB website or can be requested from the respec- tive KEB contact person. -
Page 5: Table Of Contents
TAbLe Of cONTeNTS Table of contents Preface ..............................3 Signal words and symbols ......................3 More symbols ..........................3 Laws and guidelines ........................4 Warranty and liability ........................4 Support ............................4 Copyright ............................4 Table of contents ........................... 5 List of figures ............................8 List of Tables ............................ - Page 6 TAbLe Of cONTeNTS 3.1.4.1 Device classification ......................26 3.1.4.2 Electromagnetic compatibility ..................26 3.1.4.3 Mounting instructions for control cabinet installation ............27 3.2 Dimensions and weights ......................27 3.2.1 Built-in version ........................27 3.2.2 Control cabinet installation ....................28 3.3 Unit data 400 V devices ......................... 29 3.3.1 Overview ..........................29 3.3.2 Rated operation ........................
- Page 7 TAbLe Of cONTeNTS 4.2.3.2 AC supply 230 V 1-phase ....................52 4.2.3.3 Supply line ........................53 4.2.4 DC connection ........................53 4.2.4.1 Connection at DC voltage supply ..................53 4.2.4.2 Terminal strip X1B DC connection ................... 53 4.2.5 Connection of the motor ..................... 54 4.2.5.1 Selection of the motor cable ....................
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Page 8: List Of Figures
LIST Of fIGUreS List of figures Figure 1: Dimensions built-in version housing 2 ................27 Figure 2: Mounting distances ......................28 Figure 3: Control cabinet ventilation....................28 Figure 4: Switch-off time t depending on the overload I / IN (OL) 400 V units ........36 Figure 5: Switch-off time t depending on the overload I / IN (OL) 230 V units ........ -
Page 9: List Of Tables
LIST Of TAbLeS List of Tables Table 1: Part code..........................23 Table 2: Climatic environmental conditions ................... 24 Table 3: Mechanical ambient conditions ..................25 Table 4: Chemical / mechanical active substances ............... 25 Table 5: Device classification......................26 Table 6: Electromagnetic compatibility ..................26 Table 7: Mounting instructions for control cabinet installation ............ -
Page 10: Glossary
Business-to-business IP xx Degree of protection (xx for level) BiSS Open source real-time interface for KEB product The KEB product is subject of this sensors and actuators (DIN 5008) manual Fieldbus system Silicium temperature sensor (pola- Complete drive module including... - Page 11 GLOSSAry Programmable logic controller PT100 Temperature sensor with R0=100Ω PT1000 Temperature sensor with R0=1000Ω PTC-resistor for temperature detec- tion Pulse width modulation RJ45 Modular connector with 8 lines Synchronous sensorless closed loop SELV Safety Extra Low Voltage (< 60 V) The security integrity level is a measure for quantifying the risk reduction.
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Page 12: Standards For Drive Converters / Control Cabinets
STANDArDS fOr DrIVe cONVerTerS / cONTrOL cAbINeTS Standards for drive converters / control cabinets Product standards that apply directly to the drive converter EN 61800-2 Adjustable speed electrical power drive systems - Part 2: General requirements - Rating specifications for low voltage adjustable frequency a.c. power drive systems (VDE 0160-102, IEC 61800-2) EN 61800-3 Speed-adjustable electrical drives. Part 3: EMC requirements and specific test methods (VDE 0160-103, IEC 61800-3) -
Page 13: Standards That Are Used In The Environment Of The Drive Converter
STANDArDS fOr DrIVe cONVerTerS / cONTrOL cAbINeTS EN 61000-4-5 Electromagnetic compatibility (EMC) - Part 4-5: Testing and measurement techniques - Surge immunity test (IEC 61000-4-5); German version EN 61000-4-5 EN 61000-4-6 Electromagnetic compatibility (EMC) - Part 4-6: Testing and measurement techniques - Immunity to conducted disturbances, induced by radio-frequency fields (IEC 61000-4-6); German version EN 61000-4-6 EN 61000-4-34... -
Page 14: Basic Safety Instructions
► Read the instructions for use ! ► Observe the safety and warning instructions ! ► If anything is unclear, please contact KEB Automation KG ! 1.1 Target group This instruction manual is determined exclusively for electrical personnel. Electrical per- sonnel for the purpose of this instruction manual must have the following qualifications: •... -
Page 15: Installation
bASIc SAfeTy INSTrUcTIONS Drive converters contain electrostatic sensitive components. ► Avoid contact. ► Wear ESD-protective clothing. Do not store drive converters • in the environment of aggressive and/or conductive liquids or gases. • with direct sunlight. • outside the specified environmental conditions. 1.3 Installation DANGer Do not operate in an explosive environment! -
Page 16: Electrical Connection
If personnel protection is required during installation of the system, suitable protective devices must be used for drive converters. www.keb.de/fileadmin/media/Manuals/knowledge/04_techinfo/00_gene- ral/ti_rcd_0400_0002_gbr.pdf Installations which include drive converter shall be equipped with additional control and protective devices in accordance with the relevant applicable safety requirements, e.g. -
Page 17: Emc-Compatible Installation
According to EN 60204-1 it is permissible to disconnect already tested com- ponents. Drive converters of the KEB Automation KG are delivered ex works voltage tested to 100% according to product standard. 1.4.3 Insulation measurement An insulation measurement (in accordance with EN 60204-1 chapter 18.3) with DC... -
Page 18: Start-Up And Operation
If a drive converter with electrolytic capacitors in a DC link (see technical data) has not been in operation for more than one year, observe the following instructions. www.keb.de/fileadmin/media/Manuals/knowledge/04_techinfo/00_gene- ral/ti_format_capacitors_0400_0001_gbr.pdf continuous operation (S1) with load > 60 % or from a rated motor... -
Page 19: Maintenance
For applications that require cyclic switching off and on of the drive converter, maintain an off-time of at least 5 min after the last switch on. If you require shorter cycle times please contact KEB Automation KG. Short-circuit resistance The drive converters are conditional short-circuit proof. After resetting the internal pro- tection devices, the function as directed is guaranteed. -
Page 20: Repair
1.7 Disposal Electronic devices of the KEB Automation KG are exclusively professional devices for further industrial processing (so-called B2B devices). Manufacturers of B2B devices are obliged to take back and recycle devices manufac- tured after 14.08.2018. -
Page 21: Product Description
The used semiconductors and components of the KEB Automation KG are developed and dimensioned for the use in industrial products. Restriction If the KEB COMBIVERT F5 is used in machines, which work under exceptional condi- tions or if essential functions, life-supporting measures or an extraordinary safety step must be fulfilled, the necessary reliability and security must be ensured by the machine builder. -
Page 22: Product Features
PrODUcT DeScrIPTION 2.3 Product features This instruction manual describes the power circuits of the following devices: Unit type: Drive converter Series: COMBIVERT S6 Power range: 0.75...2.2 kW 400 V 3-phase 0.75...1.5 kW 230 V 1-phase Housing: The COMBIVERT S6 is characterized by the following features: •... -
Page 23: Part Code
PrODUcT DeScrIPTION 2.4 Part code x x S 6 x x x - x x x x Reserved 0: Reserved Reserved 0: Reserved cOMPAcT 1: Multi Encoder Interface, EtherCAT 2: Multi Encoder Interface, VARAN APPLIcATION 1: Realtime Ethernet Module, Multi Encoder Interface B: as 2 with terminal DFMC, Multi Encoder Interface 1: Multi Encoder Interface / Ethernet-Fieldbus-Interface no Encoder / Ethernet-Fieldbus-Interface / Safe... -
Page 24: Technical Data
OPerATING cONDITIONS 3 Technical Data Unless otherwise indicated, all electrical data in the following chapter refer to a 3-phase AC voltage supply. 3.1 Operating conditions 3.1.1 climatic environmental conditions Storage Standard class Descriptions Surrounding temperature EN 60721-3-1 -25…55 °C Relative humidity EN 60721-3-1 5…95 % (without condensation) Storage height... -
Page 25: Mechanical Ambient Conditions
OPerATING cONDITIONS 3.1.2 Mechanical ambient conditions Storage Standard class Descriptions Vibration amplitude 1.5 mm (2…9 Hz) Vibration limits EN 60721-3-1 Acceleration amplitude 5 m/s² (9…200 Hz) Shock limit values EN 60721-3-1 40 m/s²; 22 ms Transport Standard class Descriptions Vibration amplitude 3.5 mm (2…9 Hz) Vibration limits EN 60721-3-2 Acceleration amplitude 10 m/s²... -
Page 26: Electrical Operating Conditions
OPerATING cONDITIONS 3.1.4 electrical operating conditions 3.1.4.1 Device classification requirement Standard class Descriptions – EN 61800-5-1 Overvoltage category EN 60664-1 – Non-conductive pollution, occasional conden- Pollution degree EN 60664-1 sation when PDS is out of service. Table 5: Device classification 3.1.4.2 Electromagnetic compatibility An external filter is required for devices without an internal filter in order to comply with the following limits. -
Page 27: Mounting Instructions For Control Cabinet Installation
DIMeNSIONS AND WeIGHTS 3.1.4.3 Mounting instructions for control cabinet installation The following mounting materials with the appropriate quality must be used for mounting the drive converters. required material Tightening torque 3.2 Nm Screw assembly ISO 7045 - M6 - 8.8 29 lb inch Table 7: Mounting instructions for control cabinet installation... -
Page 28: Control Cabinet Installation
DIMeNSIONS AND WeIGHTS 3.2.2 control cabinet installation Power dissipation for the control cabinet dimension => „Power dissipation 400 V units“. A lower value can be used here depending on the operating mode/load. Installation of the drive converter For reliable operation, the drive converter must be installed without clearance on a smooth, closed, bare metal mounting plate. -
Page 29: Unit Data 400 V Devices
3.3 Unit data 400 V devices 3.3.1 Overview The technical data are for 2/4-pole standard motors. With other pole numbers the drive converter must be dimensioned onto the motor rated current. Contact KEB for special or medium frequency motors. Unit size... -
Page 30: Voltage And Frequency Data
UNIT DATA 400 V DeVIceS 3.3.3 Voltage and frequency data Input voltage and frequencies Rated input voltage Rated input voltage UL 230 / 480 N_UL Input voltage range 184…550 Mains phases Mains frequency / Hz 50 / 60 Mains frequency tolerance ±f / Hz ±2... -
Page 31: Input And Output Currents / Overload
UNIT DATA 400 V DeVIceS 3.3.4 Input and output currents / overload Unit size Rated input current @ U = 400V Rated input current UL @ U = 480V N _UL IN_UL Rated input current DC @ U = 565V N_dc in_dc Rated input current DC UL @ U... -
Page 32: Unit Data 230 V Devices
3.4 Unit data 230 V devices 3.4.1 Overview The technical data are for 2/4-pole standard motors. With other pole numbers the drive converter must be dimensioned onto the motor rated current. Contact KEB for special or medium frequency motors. Unit size... -
Page 33: Voltage And Frequency Data
UNIT DATA 230 V DeVIceS 3.4.3 Voltage and frequency data Input voltage and frequencies Rated input voltage Rated input voltage UL N_UL Input voltage range 184...265 Mains phases Mains frequency / Hz 50 / 60 Mains frequency tolerance ±f / Hz ±2 Table 17: Input voltages and frequencies 230V units... -
Page 34: Input And Output Currents / Overload
UNIT DATA 230 V DeVIceS 3.4.4 Input and output currents / overload Unit size Rated input current @ U = 230V Rated input current UL @ U = 230V N _UL in_UL Rated input current DC @ U = 325V N_dc in_dc Rated input current DC UL @ U... -
Page 35: General Data
GeNerAL DATA 3.5 General data 3.5.1 Overload characteristic (OL) All COMBIVERT S6 can be operated time-limited at rated switching frequency even in overload. Further information can be found in the diagrams “Switch-off time t depending on the overload I / IN (OL) 400 V units” “Switch-off time t depending on the overload I / IN (OL) 230 V units”. -
Page 36: Turn-Off Time Depending On The Overload At 400 V Units
GeNerAL DATA 3.5.1.1 Turn-off time depending on the overload at 400 V units Overload characteristic (Oc Level 300%) ① Motor current / drive converter rated currrent in % Detail view in the range from 200 % to 300 % ② Motor current / drive converter rated currrent in % Legend 1 Thermal overload limit... -
Page 37: Turn-Off Time Depending On The Overload At 230 V Units
GeNerAL DATA 3.5.1.2 Turn-off time depending on the overload at 230 V units Overload characteristic (OC Level 240%) ① Motor current / drive converter rated currrent in % Detail view in the range from 150 % to 250 % ② Motor current / drive converter rated currrent in % Legend 1 Thermal overload limit... -
Page 38: Maximum Current (Ol2)
GeNerAL DATA 3.5.1.3 Maximum current (OL2) It can be adjusted in the drive converter parameters if error (OL2) shall be triggered when exceeding the maximum currents, or if the switching frequency is automatically reduced (derating). The following tables indicate the permissible maximum current for 6 output frequency values. -
Page 39: Table 23: Frequency-Dependent Maximum Current For Unit Size 07 400 V Units
GeNerAL DATA frequency-dependent maximum current 400 V units Unit size rated switching frequency 8 kHz Output frequency / Hz 12.5 4 kHz frequency-dependent maximum current @ f 8 kHz Basic Time Period = 62.5 µs (Parameter is22=0) 16 kHz frequency-dependent maximum current @ f 7 kHz Basic Time Period = 71.4 µs (Parameter is22=1) 14 kHz... -
Page 40: Table 26: Frequency-Dependent Maximum Current For Unit Size 07 230 V Units
GeNerAL DATA frequency-dependent maximum current 230 V units Unit size rated switching frequency 8 kHz Output frequency / Hz 12.5 4 kHz frequency-dependent maximum current @ f 8 kHz Basic Time Period = 62.5 µs (Parameter is22=0) 16 kHz frequency-dependent maximum current @ f 7 kHz Basic Time Period = 71.4 µs (Parameter is22=1) 14 kHz... -
Page 41: Switching Frequency And Temperature
GeNerAL DATA 3.5.2 Switching frequency and temperature Voltage class 400 V 230 V Unit size Mains phases Rated switching frequency / kHz Max. switching frequency / kHz S_max Max. heat sink temperature / °C Temperature for derating the switching frequency / °C Temperature for uprating the switching frequency / °C... -
Page 42: Protection Of The Drive Converter
GeNerAL DATA 3.5.3 Protection of the drive converter 400 V units, 3-phase At 400V operation, 3-phase Alternatively fuse in A Motor protection switch Unit size = 400 V = 480 V eaton gG (Iec) class „cc“ (UL) PKZM0 10-e (UL) Sccr 30 kA Sccr 30 kA Sccr 30 kA... -
Page 43: Dc Link / Braking Transistor Function
GeNerAL DATA 3.5.4 Dc link / braking transistor function 3.5.4.1 DC link / braking transistor function of the 400 V units Unit size DC link rated voltage @ U = 400 V N_dc DC link rated voltage @ U = 480 V N_dc_UL DC link voltage working voltage range 260…750 ±0... -
Page 44: Power Dissipation 400 V Units
Activation of the braking transistor function The function must be activated with parameter "is30 braking transistor func- tion" in order to use the braking transistor (GTR7). Further information can be found in the download area of www.keb.de under search term „S6 Programming manual“. -
Page 45: Fan
GeNerAL DATA 3.5.7 fan Unit size Number Heat sink fan Speed-variable — NOTICE Destruction of the fan ! ► Take care that no foreign substances drop into the fan ! 3.5.7.1 Switching behaviour of the fan The fan has different switch-on and switch-off points. The switching point for the switch- on temperature ①... -
Page 46: Installation And Connection
INSTALLATION AND cONNecTION 4 Installation and connection 4.1 Overview of the cOMbIVerT S6 representation by the example of an APPLIcATION control board Mains input Motor output / connection for braking resistor Temperature monitoring, brake control Strain relief Control terminal block Safety functions / DC 24 V supply CAN bus / analog inputs and outputs Encoder interface channel A... - Page 47 INSTALLATION AND cONNecTION Instructions for use COMBIVERT S6 control board APPLICATION www.keb.de/fileadmin/media/Manuals/dr/ma_dr_s6-cu-a-inst-20109645_en.pdf Instructions for use COMBIVERT S6 control board COMPACT www.keb.de/fileadmin/media/Manuals/dr/ma_dr_s6-cu-k-inst-20087885_en.pdf Instructions for use COMBIVERT S6 control board www.keb.de/fileadmin/media/Manuals/dr/ma_dr_s6-cu-p-inst-20156056_en.pdf...
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Page 48: Connection Of The Power Unit
cONNecTION Of THe POWer UNIT 4.2 connection of the power unit 4.2.1 connection of the voltage supply 400 V units The COMBIVERT S6 can be supplied both by mains and via DC terminals. The starting current limiting is arranged before the DC link. When using as DC output, parallel connected drive converters must have their own starting current limiting at the DC voltage input. -
Page 49: Line Terminal Strip X1A
cONNecTION Of THe POWer UNIT 4.2.1.1 Line terminal strip X1A function cross-section Name 400 V units Mains connection 0.5...2.5 mm² 3-phase AWG 20-14 230 V units Mains connection 0.5...2.5 mm² 1-phase AWG 20-14 L1 L2 400 V units 230 V units Figure 12: Line terminal strip X1A NOTICE... -
Page 50: Protective Earth And Function Earth
The use of the functional earth (FE) is not required if the frequency inverter is EMC-technically wired as described in the manual => Before starting. The functional earth may not be wired green / yellow! Notes on EMC-compatible installation can be found here. www.keb.de/fileadmin/media/Manuals/emv/0000neb0000.pdf... -
Page 51: Ac Connection
⑤ HF filter units without internal filter ⑥ KEB COMBIVERT Figure 14: Connection of the mains supply 3-phase devices The service life of drive converters with voltage DC link depends on the DC voltage, sur- rounding temperature and the current load of the electrolytic capacitors in the DC link. The use of mains chokes can increase the service life of the condensators to a considerable extent, especially when connecting to „hard“... -
Page 52: Ac Supply 230 V 1-Phase
⑤ HF filter units without internal filter ⑥ KEB COMBIVERT Figure 15: Connection of the mains supply 1-phase devices The service life of drive converters with voltage DC link depends on the DC voltage, sur- rounding temperature and the current load of the electrolytic capacitors in the DC link. The use of mains chokes can increase the service life of the condensators to a considerable extent, especially when connecting to „hard“... -
Page 53: Supply Line
DC voltage 260...375 V 260…750 V Type aR ② Fuses Pay attention to the permissible voltage range ! ③ KEB COMBIVERT Figure 16: Connection at DC voltage supply 4.2.4.2 Terminal strip X1B DC connection Name function cross-section 0.5...2.5 mm² ++, --... -
Page 54: Connection Of The Motor
< 5 mA 3-ph ~ Table 35: Maximum motor cable length at AC supply The cable length can be extend significant by using motor chokes or filters. KEB recommends the use of motor chokes or filters for a line length upto 50 m. Motor chokes or filters are absolutely necessary upto 100 m. 4.2.5.3 Motor cable length at operation with DC voltage The maximum motor cable length at DC operation is basically dependent on the capaci- ty of the motor cable. The internal filter is not active at DC operation. External measures... -
Page 55: Motor Cable Length For Parallel Operation Of Motors
cONNecTION Of THe POWer UNIT 4.2.5.4 Motor cable length for parallel operation of motors The resulting motor cable length for parallel operation of motors, or parallel installation with multiple cables arises from the following formula: resulting motor cable length = ∑single cable length x √Number of motor cables 4.2.5.5 Motor cable cross-section The motor cable cross-section is dependent •... -
Page 56: Wiring Of The Motor
4.2.5.8 Wiring of the motor Legend ➀ ➁ ➂ ④ Control ① KEB COMBIVERT P A/K Apply motor cable, shielding on both sides over a ② large surface on the function earth (screening shield or mounting plate) ③ Three-phase motor Temperature monitoring (optional) ④... -
Page 57: Wiring Of An Intrinsically Safe Braking Resistor
Only "intrinsically safe" braking resistors are permissible for this oper- ation, since these resistors interrupt themselves at fault such as safety fuse without fire risk. The intrinsically safe braking resistors delivered by KEB are described in the following link. Technical data and design for intrinsically safe braking re- sistors. -
Page 58: Brake Control And Temperature Detection
brAKe cONTrOL AND TeMPerATUre DeTecTION 4.3 brake control and temperature detection Name Notes Brake control / output + Brake control / output - Reserved Reserved Temperature detection / input+ Temperature detection / input- Figure 22: Assignment of the terminal block X1C 4.3.1 Specification and connection of the brake control Name BR+ (X1C.1);... -
Page 59: Specification And Connection Of The Temperature Detection
► Cables of the motor temperature sensor inside the motor cable only permissible with double shielding ! A switchable KTY84/PTC evaluation is implemented in the KEB COMBIVERT. The de- sired operating mode can be adjusted by software (dr33). Operating mode... -
Page 60: Operation Without Temperature Detection
brAKe cONTrOL AND TeMPerATUre DeTecTION 4.3.3 Operation without temperature detection Use of the COMBIVERT without evaluation of the temperature input: • Deactivate the evaluation (pn33 =7) • Install bridge between terminal X1C.5 and X1C.6 (dr33=1) 4.3.4 connection of a KTy sensor NOTICE No protection of the motor winding in case of wrong connection. -
Page 61: Connection Of Ptc, Temperature Switch Or Pt1000
brAKe cONTrOL AND TeMPerATUre DeTecTION 4.3.5 connection of PTc, temperature switch or PT1000 Name TA1 (X1C.5); TA2 (X1C.6) function Temperature sensor input dr33=1; PTC or temperature switch Stetting dr33=4; PT1000 Table 40: Connection of PTC, temperature switch or PT1000 Thermal contact (NC contact) ①... -
Page 62: Brake Control And Temperature Detection
brAKe cONTrOL AND TeMPerATUre DeTecTION 4.4 brake control and temperature detection Name Notes Brake control / output Brake control / output for supply of the feedback inputs P24Vin - 0.5 V / max. 1 A 24Vout (BR+ and 24Vout in addition 2 A) DIBR1 feedback input for brake control... -
Page 63: Specification And Connection Of The Temperature Detection
brAKe cONTrOL AND TeMPerATUre DeTecTION NOTICE Using a brake ► Choose the input voltage tolerance of the brake corresponding to the tolerance of the output voltage. 4.4.2 Specification and connection of the temperature detection DANGer Use only sensors with safe isolation ! Danger to life due to electric shock ! NOTICE Malfunctions due to incorrect cable or laying! -
Page 64: Operation Without Temperature Detection
brAKe cONTrOL AND TeMPerATUre DeTecTION 4.4.2.1 Operation without temperature detection Use of the COMBIVERT without evaluation of the temperature input: • Deactivate the evaluation (pn12 =7). • Install bridge between terminal TA1 (X1C.9) and TA2 (X1C.10) (dr33=1). 4.4.2.2 Connection of a KTY sensor NOTICE No protection of the motor winding in case of wrong connection. -
Page 65: Connection Of Ptc, Temperature Switch Or Pt1000
brAKe cONTrOL AND TeMPerATUre DeTecTION 4.4.2.3 Connection of PTC, temperature switch or PT1000 Name TA1 (X1C.9); TA2 (X1C.10) function Temperature sensor input dr33=1; PTC or temperature switch Stetting dr33=4; PT1000 Table 44: Connection of PTC, temperature switch or PT1000 Thermal contact (NC contact) ①... -
Page 66: Certification
EN 61800-5-1 EN 61800-3 were used. Further information can be found in the download area of under the www.keb.de search term „Declaration of conformity“. 5.2 functional safety Drive converters with functional safety are marked with the FS logo on the nameplate. -
Page 67: Table 45: Applied Standards
ANNeX TO THe DecLArATION Of cONfOrMITy eN - Norm Name reference EN 61800-5-1 Electrical power drive systems with adjustable speed: Safety VDE 0160-105-1 requirements EN 61800-2 Basic determinations for AC drive converter VDE 0160-102 EN 61800-3 Electrical power drive systems with adjustable speed. EMC VDE 0160-103 requirements Especially for systems with functional safety additionally:... -
Page 68: Ul Marking
UL MArKING 5.4 UL Marking Acceptance according to UL is marked at KEB drive converters with the adjacent logo on the nameplate. To be conform according to UL for use on the North American and Canadian Market the following additionally instructions must be observed (original text of the UL-File): •... - Page 69 UL MArKING • WARNING – The opening of the branch circuit protective device may be an indica- tion that a fault current has been interrupted. To reduce the risk of fire or electrical shock, current-carrying parts and other components of the controller should be ex- amined and replaced if damaged. If burnout of the current element of an overload relay occurs, the complete overload relay must be replaced.
- Page 70 UL MArKING Branch Circuit Protection for series S6 housing size 2 I) Class CC fuses; not more than 30000 rms Symmetrical Amperes (SCCR 30kA): cat. No. Housing Input Voltage [Vac] maximum fuse size [A] 200-230 / 3ph 07S6 480 / 3ph 200-230 / 3ph 09S6 480 / 3ph...
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Page 71: Further Information And Documentation
INfOrMATION AND DOcUMeNTATION 5.5 further information and documentation You find supplementary manuals and instructions for the download under www.keb.de/service/downloads General instructions • EMC and safety instructions • Manuals for further control boards Instruction and information for construction and development • Input fuses in accordance with UL • Programming manual for control and power unit •... -
Page 72: Revision History
reVISION HISTOry 6 revision History Version Date Description 2014-08 Preliminary version 2014-12 1st released version 2015-01 Fuse type class cc added to UL description 2015-05 Units without internal filter registered; preface changed 2015-11 General technical data completely revised, power dissipation added, UL description extended 2017-07 Change to new CI-optics, revision of the device data, change of the overview, adjust- ment of the backup data 2018-11 230 V variant added, terminal block X1C included 2019-02 Leakage currents for 230V class included... - Page 73 CEP 13569-430 Portal do Sol, São Carlos Brazil Gangnam Gu 135- 757 Seoul Republic of Korea Tel: +55 16 31161294 E-Mail: roberto.arias@keb.de Tel: +82 2 6253 6771 Fax: +82 2 6253 6770 E-Mail: vb.korea@keb.de KEB Automation GmbH czech republic KEB RUS Ltd.
- Page 74 Automation with Drive www.keb.de KEB Automation KG Suedstrasse 38 32683 Barntrup Tel. +49 5263 401-0 E-Mail: info@keb.de...