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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 | 5 5.6Net data (PKW and PZD area) 5-277 Siemens AG 2004 All Rights ReservedSIMODRIVE 611 universal Description of Functions (FBU) – 10.04 Edition When there is at least one fault, the drive fault buffer (P0945:1 to P0945:8) should be read out via PROFIBUS, and buffered on the master side. Assumptions for the slave: The drive has been completely commissioned is connected to PROFIBUS–DP and is ready to run. P0918 = 12 (PROFIBUS node address) has been set Assumptions for the master: The DP master is a SIMATIC S7 (CPU: S7–315–2–DP) Hardware configuration –1–axis, PPO type 1, node address = 12 –PartI–addressO–address PKW272 – 279272 – 279 PZD280 – 283280 – 283 (not shown in the example) If the input signal from the peripheral (I/O) area E281.3 (ZSW1.3, fault present/no fault present) = ”1” signal, then the following must be execu- ted on the master side (refer to Fig. 5-20): 1.Programming SFC14 and SFC15 The standard functions SFC14 ”Read slave data” and SFC15 ”write slave data” are required in order to consistently transfer more than 4 bytes. 2.Request parameter value –Write into the PKW output signals (PAB 272 –279) with AK = 6, PNU = 945, IND = 1, PWE = no significance 3.Read parameter value and save –Evaluate the PKW input signals (PEB 272 –279) –If AK = 4 or 5, PNU = 945, IND = 1 and PWE = xx then OK –Read and save P945:1 = xx –If AK = 7, then evaluate the fault number in PEW 278 (refer to Table 5-31) 4.Repeat points 1 and 2 to read the other sub–parameters of the fault condition P945:2 ––> PNU = 945, IND = 2 to to P945:8 ––> PNU = 945, IND = 8 This repetitive procedure can be exited if a ”0” is in one of the sub– parameters. All of the faults of the last fault situation are then detected. Example: Reading parameters via PROFIBUS What has to be programmed on the master side? 5 Communications via PROFIBUS DP01.9904.99 |
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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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