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Outline | SIMODRIVE 611 universal/universal E Foreword Table of Contents 1 Product Overview 1.1 What can ”SIMODRIVE 611 universal” do? 1.2 ”SIMODRIVE 611 universal” in the SIMODRIVE 611 system 1.3 ”SIMODRIVE 611 universal” control board 1.3.1 Control board for 2 or 1 axis 1.3.2 Elements on the control board front panel 1.3.3 Optional modules 3 Parameterizing the Board 3.1 Overview when parameterizing 3.2 Parameterizing using the display and operator unit 3.2.1 Parameterizing mode 3.2.2 Example: Changing a parameter value 2 Installing and Connecting 2.1 Installing/removing control boards and modules 2.2 Connecting–up 2.2.1 General information on connecting–up 2.2.2 Connecting–up and setting the line supply infeed module 2.2.3 Connecting–up the power module 2.5 Cable diagrams 4 Commissioning 4.1 General commissioning information 4.2 Run–up of ”SIMODRIVE 611 universal” 4.3 Commissioning via SimoCom U 4.3.1 First commissioning with SimoCom U 4.3.2 Series commissioning with SimoCom U 4.3.3 Password protection with SimoCom U (from SW 8.1) 4.3.4 Automated firmware download (from SW 8.1) 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.7.1 Description 4.7.2 Commissioning induction motors (ARM) without encoder 4.7.3 Motor data optimization, steps 1 to 4 4.5 Function–initiating and diagnostic parameters 4.6 Parameters for hardware, operating mode and clock cycles 4.7 Induction motor operation with induction motor 4.8 Permanent–magnet synchronous motor with field–weakening (PE spindle) 4.9 1FW6 build–in torque motors (from SW 6.1) 4.10 Linear motors (1FN1, 1FN3 motors) 4.11 Direct measuring system for position control (from SW 3.3) 4.12 Connecting induction motors with TTL encoder (from SW 8.1) D Certificates Index |
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Content | 6 6.16Rotor position synchronization/rotor position identification 6-612 Siemens AG 2004 All Rights ReservedSIMODRIVE 611 universal Description of Functions (FBU) – 10.04 Edition The following parameters are used for the rotor position synchroniza- tion/rotor position identification: P1011IM configuration, actual value sensing P1016Angular commutation offset P1017Commissioning support P1019Current, rotor position identification P1020Maximum rotation, rotor position identification (SRM) Maximum movement, rotor position identification (SLM) P1075Technique, rotor position identification (SRM, SLM) P1076Load moment of inertia RLI (SRM) Load mass RLI (SLM) The following diagnostics parameters are used rotor position synchro- nization/rotor position identification: P1734Diagnostics, rotor position identification P1736Test, rotor position identification P1737Difference, rotor position identification The following limitations/secondary conditions apply for the technique based on both saturation and movement: This technique can be used for both braked and non–braked mo- tors. The technique cannot be used for motors which are moving. The current which is entered must be adequate in order to generate a significant measuring signal. The technique can only be started when the controller and pulses are enabled as current must flow through the motor. When using an absolute motor measuring system, the rotor position identification can only be used to determine the commutation angle offset (P1016). The measurement and evaluation take approx. 250 ms. ! Warning When the motors are not braked, the motor rotates or moves as a result of the current impressed during the measurement. The magnitude of the motion depends on the magnitude of the current and the moment of inertia of the motor and load. Parameter overview (refer to Chapter A.1) Limitations/ secondary conditions For the technique based on saturation (P1075=1) 6 Description of the Functions08.02 |
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Following Datasheets | function_diagram_sinamics_g130_en (25 pages) g110_kurzbe_0705_en (8 pages) G110_OPI_cz_1003_cz (86 pages) G110_Parameter_List_en (102 pages) G110_PLi_cz_1003_cz (84 pages) G110_strucny_CZ_0405_cz (28 pages) G130_General_diagram_en (4 pages) G130_Operating_Manual_Braking_Module_en (34 pages) Gesamtdoku_LON_A2_en (25 pages) gland_plate_en (1 pages) |
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