Contents - Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Contents
- safety information
- Converter order number code
- Rating plate
- Ordering information for options using codes
- Reference to new products
- Applications
- Special features of devices with 460V rated connection voltage
- Technical data
- Load cycles for 1Q applications
- Load cycles for 4Q applications
- Converters 3AC 400V, 30A to 125A, 1Q
- Converters 3AC 400V, 210A to 600A, 1Q
- Converters 3AC 400V, 850A to 2000A, 1Q
- Converters 3AC 460V, 30A to 125A, 1Q
- Converters 3AC 460V, 210A to 600A, 1Q
- Converters 3AC 460V, 850A to 1200A, 1Q
- Converters 3AC 575V, 60A to 600A, 1Q
- Converters 3AC 575V, 800A to 2200A, 1Q
- Converters 3AC 690V, 720A to 2000A, 1Q
- Converters 3AC 830V, 900A to 1900A, 1Q
- Converters 3AC 400V, 15A to 125A, 4Q
- Converters 3AC 400V, 210A to 600A, 4Q
- Converters 3AC 400V, 850A to 2000A, 4Q
- Converters 3AC 460V, 30A to 125A, 4Q
- Converters 3AC 460V, 210A to 600A, 4Q
- Converters 3AC 460V, 850A to 1200A, 4Q
- Converters 3AC 575V, 60A to 600A, 4Q
- Converters 3AC 575V, 850A to 2200A, 4Q
- Converters 3AC 690V, 760A to 2000A, 4Q
- Converters 3AC 830V, 950A to 1900A, 4Q
- Converters 3AC 400V, 3000A, 1Q / 4Q
- Converters 3AC 575V, 2800A, 1Q / 4Q
- Converters 3AC 690V, 2600A, 1Q / 4Q
- Converters 3AC 950V, 2200A, 1Q / 4Q
- Applicable standards
- Certification
- Dimension diagrams for standard devices
- Converters: 3AC 400V and 575V, 60A to 280A, 1Q
- Converters: 3AC 400V and 575V, 400A, 1Q
- Converters: 3AC 400V and 575V, 600A, 1Q
- Converters: 3AC 400V, 575V and 690V, 720A to 850A, 1Q
- Converters: 3AC 400V,460V, 575V, 690V and 830V, 900A to 1200A, 1Q
- Converters: 3AC 400V, 575V, 690V, and 830V, 1500A to 2000A, 575V/2200A 1Q
- Converters: 3AC 400V / 3000A, 3AC 575V / 2800A, 3AC 690V / 2600A 3AC 950V / 2200A 1Q
- Converters: 3AC 400V and 460V, 15A to 30A, 4Q
- Converters: 3AC 400V and 575V, 60A to 280A, 4Q
- Converters: 3AC 400V and 575V, 400A to 600A, 4Q
- Converters: 3AC 400V, 575V and 690V, 760A to 850A, 4Q
- Converters: 3AC 400V, 460V, 575V, 690V and 830V, 950A to 1200A, 4Q
- Converters: 3AC 400V, 575V, 690V, and 830V, 1500A to 2000A, 575V/2200A 4Q
- Converters: 3AC 400V / 3000A, 3AC 575V / 2800A, 3AC 690V / 2600A 3AC 950V / 2200A 4Q
- Dimension diagrams of the devices with additional cable connections on the top of the device
- Converters: 3AC 460V, 210A to 280A, 1Q
- Converters: 3AC 460V, 450A to 600A, 1Q
- Converters: 3AC 460V, 850A, 1Q
- Converters: 3AC 460V, 60A to 125A, 4Q
- Converters: 3AC 460V, 210A to 280A, 4Q
- Converters: 3AC 460V, 450A to 600A, 4Q
- Converters: 3AC 460V, 850A, 4Q
- Mounting options
- Optional supplementary boards
- Installation instructions for proper EMC installation of drives
- SIMOREG converters in industrial applications
- Proper EMC installation of drives (installation instructions)
- Information on line-side harmonics generated by converters in a fully-controlled three-phase bridge circuit configuration
- Block diagrams with recommended connection
- Converters: 210A to 280A
- Converters: 400A to 3000A with a 3-phase fan
- Converters: 450A to 850A with a 1-phase fan
- Parallel connection of converters
- Parameterization of SIMOREG converters for parallel connection
- Operating mode "N+1 mode" (redundancy mode of the armature supply)
- Redundancy mode of the field supply
- Power connections
- Converters: 60A, 1Q
- Converters: 90A to 280A, 1Q
- Converters: 400A to 600A, 1Q
- Converters: 720A, 1Q
- Converters: 800 to 850A, 1Q
- Converters: 900A to 950A, 1Q
- Converters: 1000 to 1200A, 1Q
- Converters: 1500 to 2000A, 575V/2200A, 1Q
- Converters: 400V/3000A, 575V/2800A, 690V/2600A, 950V/2200A 1Q
- Converters: 15 to 30A, 4Q
- Converters: 60A, 4Q
- Converters: 90A to 210A, 4Q
- Converters: 280A, 4Q
- Converters: 400A, 4Q
- Converters: 450A to 600A, 4Q
- Converters: 760A, 4Q
- Converters: 850A, 4Q
- Converters: 950A to 1000A, 4Q
- Converters: 1100 to 1200A, 4Q
- Converters: 1500 to 2000A, 575V/2200A, 4Q
- Converters: 400V/3000A, 575V/2800A, 690V/2600A, 950V/2200A 4Q
- Field supply
- Fuses and commutating reactors
- Converters 1Q: 460V
- Converters 4Q: 400V, 575V, 690V, 830V and 950V
- Converters 4Q: 460V
- Terminal arrangement
- Terminal assignments
- General safety information
- Operator control panels
- User-friendly operator control panel (OP1S)
- Parameterization procedure
- Reset to default value and adjust offset
- Start-up procedure
- Manual setting of armature resistance R A (P110) and armature inductance L A (P111)
- Starting up optional supplementary boards
- Sequence of operations for starting up PROFIBUS boards (CBP2)
- Mechanisms for processing parameters via the PROFIBUS
- Diagnostic tools
- Sequence of operations for starting up CAN bus boards (CBC)
- Description of CBC with CAN Layer 2
- Description of CBC with CANopen
- Functionality of CBC with CANopen
- Requirements for operating the CBC with CANopen
- Procedure for starting up the pulse encoder board (SBP)
- Sequence of operations for starting up DeviceNet boards (CBD)
- Sequence of operations for starting up the serial I/O board (SCB1)
- Structure of request/response telegrams
- Transmission of double-word connectors for technology and communication modules
- General explanations of terms and functionality
- Computation cycles, time delay
- Switch-on, shutdown, enabling
- Switch-on / shutdown (ON / OFF) terminal 37 - control word 1, bit 0
- Operating enable (enable) terminal 38 - control word 1, bit 3
- Definitions
- Control signals for ramp-function generator
- Ramp-up integrator
- Limitation after ramp-function generator
- Crawling
- Safety shutdown (E-Stop)
- Activation command for holding or operating brake (low active)
- Switch on auxiliaries
- Speed controller
- Serial interfaces
- Serial interfaces with peer-to-peer protocol
- Dynamic overload capability of power section
- Configuring for dynamic overload capability
- Characteristics for determining the dynamic overload capability for intermittent overload operation
- Speed-dependent current limitation
- Setting the speed-dependent current limitation for motors with commutation transition
- Setting of speed-dependent current limitation for motors without commutation transition
- Automatic restart
- Direction of rotation reversal using field reversal
- Braking with field reversal
- Status description of some bits of status word ZSW1
- pulse series connection
- faults and alarms
- Fault messages
- Alarms
- analog outputs
- Connector list
- Binector list
- Replacement of components
- Replacement of PCBs
- Replacement of fuses and thyristor assemblies on converters of 1500A and above
- Technical Support
- Spare parts
- Scope of delivery
- Setting up an online link to the SIMOREG
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Parameter list 05.0511-72 SIEMENS AG 6RX1700-0AD76SIMOREG DC Master Operating InstructionsPNU Description Value range[Unit]StepsNo. indicesFactorysettingTypeSeeChange(Access /Status)P662*BDS(G180)Source for control word 1, bit4(0=set ramp-function generator to zero, 1=enable ramp-function generator)All binector numbers1Ind: 2FS=1Type: L2P052 = 3P051 = 40OfflineP663*BDS(G180)Source for control word 1, bit5(0=ramp-function generator stop, 1=ramp-function generator start)All binector numbers1Ind: 2FS=1Type: L2P052 = 3P051 = 40OfflineP664*BDS(G180)Source for control word 1, bit6(0=enable setpoint, 1=disable setpoint)All binector numbers1Ind: 2FS=1Type: L2P052 = 3P051 = 40OfflineP665*BDS(G180)1st source for control word 1, bit7(0→1 transition=acknowledge; ORed with 2 nd and 3 rd sources for bit7)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP666*BDS(G180)2nd source for control word 1, bit7(0→1 transition=acknowledge; ORed with 1 st and 3 rd sources for bit7)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP667*BDS(G180)3rd source for control word 1, bit7(0→1 transition=acknowledge; ORed with 1 st and 2 nd sources for bit7)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP668*BDS(G180)Source for control word 1, bit8(1=inching bit0)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP669*BDS(G180)Source for control word 1, bit9(1=inching bit1)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP671*BDS(G180)Source for control word 1, bit11(0=pos. direction of rotation disabled, 1=pos. direction of rotation enabled)All binector numbers1Ind: 2FS=1Type: L2P052 = 3P051 = 40OfflineP672*BDS(G180)Source for control word 1, bit12(0= neg. direction of rotation disabled, 1= neg. direction of rotation enabled)All binector numbers1Ind: 2FS=1Type: L2P052 = 3P051 = 40OfflineP673*BDS(G180)Source for control word 1, bit13(1=raise motorized potentiometer)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP674*BDS(G180)Source for control word 1, bit14(1=lower motorized potentiometer)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP675*BDS(G180)Source for control word 1, bit15(0=external fault, 1=no external fault)All binector numbers1Ind: 2FS=1Type: L2P052 = 3P051 = 40OfflineControl word 2P676*BDS(G181)Source for control word 2, bit16(select function data set bit 0)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP677*BDS(G181)Source for control word 2, bit17(select function data set bit 1)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP680*BDS(G181)Source for control word 2, bit20(select fixed setpoint 0)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40OfflineP681*BDS(G181)Source for control word 2, bit21(select fixed setpoint 1)All binector numbers1Ind: 2FS=0Type: L2P052 = 3P051 = 40Offline |
