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Specifications | |
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 6.4Input/output terminals of the control board 6-502 Siemens AG 2004 All Rights ReservedSIMODRIVE 611 universal Description of Functions (FBU) – 10.04 Edition Table 6-48List of output signals, continued Operating mode Signal name, descriptionPROFIBUS bitposn–setFct. No. Motor overtemperature pre–warning5xxMeldW.6 This output signal is used to display whether the motor temperature ( Mot) is less than or greater than the selected motor temperature x, P1602) warning threshold. Note: If the motor temperature warning threshold is exceeded, initially, ”only” an appropriate signal is output. When the warning threshold is fallen below, the signal is automatically withdrawn. If the overtemperature remains for a time longer than that set in P1603, then an appropriate fault is output. The motor temperature monitoring function can be disabled/enabled using P1601.14. x x(P1602) t1 signal 0 signal Mot < x íMot Mot > x Mot < x Motor temperature Motor overtemperature pre–warning Application: The user can respond to this message by reducing the load, thereby preventing the motor from shutting down with the ”motor temperature exceeded” fault after the set time has elapsed. Heatsink temperature pre–warning6xxMeldW.7 This output signal is used to display whether the temperature of the heatsink in the power module has been exceeded. The hardware temperature switch–in the power module cannot be parameterized. 1 signalNo heatsink temperature pre–warning The temperature is within the permissible range. 0 signalHeatsink temperature pre–warning The temperature is outside the possible range. If the excessive temperature remains, then the drive is powered down after approx. 20 s (tripped). 6 Description of the Functions01.99 ! 611ue diff ! 08.01 |
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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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