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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Function diagrams 05.058-112 SIEMENS AG 6RX1700-0AD76SIMOREG DC Master Operating InstructionsSheet Z110 Data exchange with a technology board (TB) orthe 1st communications board (CB).04.01.03.02.06.05.07.08.10.09.14.11.13.12.16.15875 64321- Z110 -<1><1>T 0015.01.16U728 (0)BBK3020[Z124.2][G182.6][G151.3][G183.6]1sB3030B3031K3001K3002K3003K3004K3005K3006K3007K3008K3009K3010K3011K3012K3013K3014K3015K3016B3100Bit 0 ... Bit 15B3200B3300B3400B3500B3600B3700B3800B3900B3115B3215B3315B3415B3515B3615B3715B3815B3915U722.03 (0 ms)U722.01 (0 ms)B3035KKKKKKKKKKKKKKKK32167033000000000000U734CB parameters 1 to 10CB or TB diagnosisCB parameter 111 = "Fault F082"Initialize link to supplementary boardsParameters for the 1 st CB boardMessagemonitoring timeMessage monitoring for received process data:Valid for the following configurations:- CB only- TB only- CB after TB (CB in slot G)- 2 CBs (for CB with the lower slot letter)Bit 10 must be set in word 1 of thereceive data to ensure that theprocess data are accepted as validdata. Control word 1 must thereforebe transferred as the first PZD word.(fault value 10)Display parameter job (PKW) from CBDisplay parameter response (PKW) to CBDisplay parameter job (PKW) from TBDisplay parameter response (PKW) to TBReceive dataWord 1Word 2Word 3Word 4Word 5Word 6Word 7Word 8Word 9Word 10Transmit dataFault message trigger1 = "Telegram monitoring timeout"Word 11Word 12Word 13Word 14Word 15Word 16Word 1Word 2Word 3Word 4Word 5Word 6Word 7Word 8Word 9Word 10Word 11Word 12Word 13Word 14Word 15Word 16every 16 bitsData exchange with a technology board (TB) or the 1st communications board (CB)from supplementary board to supplementary boardn733.01 to .16 n735.01 to .16Bus addressEnable parameterizationU711-U720 Index.01n732 Index.01-.32n738 Index.01-.04n739 Index.01-.04U721 Index.01-.05P918 Index.01n738 Index.09-.12n739 Index.09-.12U710 Index.01P9271 = "Fault delay timeout"Fault delay timeWhen bit 10 ("control by PLC") = 0,the other bits of word 1, as well as words2 to 16 are not written to connectors K3001 to K3016or to binectors B3100 to 3915.All these connectors and binectors retain their old values.Binector / connectorconverterFor transmission of double-word connectors see Section 7.7.10See also connector type converter on sheet Z124FS |
