VIPA SLIO User Manual

Details copyright and proprietary information usage restrictions.

VIPA GmbH's statement of product compliance with essential requirements.

Guidance for obtaining more information on CE marking and Declaration of Conformity.

Explains the manual's objective, contents, target audience, and structure.

Covers safety precautions, warnings, and guidelines for safe operation.

Guidelines for users regarding electrostatic sensitive modules and handling precautions.

Overview of the modular automation system, its components, and architecture.

Details on optional accessories like shield bus carriers and bus covers.

Provides technical drawings and measurements for CPU and bus coupler modules.

Explains the functional principle and steps for mounting SLIO modules onto a mounting rail.

Describes the use of coding pins for assigning electronic and terminal modules.

Details the procedure for mounting modules onto the mounting rail, including clearances.

Step-by-step instructions for mounting the head module and preparing for periphery modules.

Procedure for mounting the periphery modules onto the mounting rail.

Instructions for mounting the bus cover to protect backplane bus connectors.

Procedure for mounting the shield bus carrier to attach cable shields.

Procedures for removing and replacing electronic modules and entire modules.

Steps for demounting and replacing head modules, emphasizing electronic module exchange.

Instructions for removing and replacing a group of modules from the system.

Details on using spring clamp technology for connecting signal and supply lines.

Illustrates the standard wiring connections for power modules and I/O areas.

Guidelines for external fusing of power section supply and electronic power supply.

Information on using power modules 007-1AB00 and 007-1AB10 for power distribution.

Procedure for attaching shield bus carriers and connecting cable shields.

Explains how to interpret module LEDs for diagnosing errors like excess current or configuration issues.

Provides information on interference-free deployment and ensuring electromagnetic compatibility (EMC).

Explains how to isolate conductors to weaken interference fields and ensure proper grounding.

Presents conformity approvals, protection measures, and environmental conditions according to EN 61131-2.

Details standards and comments for emitted interference and noise immunity.

Lists the features and technical specifications of the counter module FM 050.

Illustrates the physical structure of the 050-1BA00 module and explains LED status indications.

Details the terminal assignments for inputs and outputs of the counter module.

Provides detailed technical specifications for digital inputs of the counter module.

Detailed specifications for the digital inputs of the counter module.

Lists technical data for counters, including modes, inputs, and status information.

Describes isolation specifications between channels, groups, and the backplane bus.

Specifies data sizes for inputs, outputs, parameters, and diagnostics.

Covers housing material, dimensions, weight, and environmental conditions.

Lists certifications, including UL508 certification for the module.

Provides a quick overview of counter range and address areas for input/output data.

Details the control word bits for managing counter functions like reset, gate, and digital output.

Lists parameters for diagnostic interrupt, input frequency, interrupt behavior, and counter modes.

Explains how the counter is controlled via internal gate, HW gate, and SW gate.

Describes the input and output data areas, including counter value and status.

Explains how comparison values influence counter output and process interrupts.

Describes how to preset the counter value using the set value and control word.

Details parameters for configuring diagnostic interrupts, input frequency, and counter behavior.

Explains how to enable or disable diagnostic interrupts for the module.

Covers settings for input frequency tracks and the use of filters for signal peaks.

Defines interrupt behavior based on various conditions like gate status and overflow.

Configures counter functions, including counting modes (endless, once, periodic) and direction.

Sets counter mode 2, including output set conditions, direction inversion, and reset methods.

Configures counter mode 3 for signal evaluation, HW gate, and internal gate functions.

Explains various counter functions like gate, latch, comparison, hysteresis, and process interrupt.

Describes how gate functions can abort or interrupt the counter process.

Explains the continuous counting mode with wrap-around behavior at count limits.

Details how interrupting gate control affects the counter process and continues counting.

Explains how aborting gate control restarts the counter from the load value.

Describes forward counting behavior, including reaching end value and restarting.

Details backward counting behavior, including reaching end value and restarting.

Explains periodic counting mode, including wrap-around at count limits and gate control.

Covers additional functions like gate, latch, comparison, and hysteresis for counter operation.

Explains the activation and de-activation of the counter via software and hardware gates.

Illustrates gate control scenarios for aborting and interrupting the counter process.

Describes gate control for the 'Count once' mode, including conditions for reopening the internal gate.

Explains how the latch input stores the recent counter value in the latch register.

Details how comparison values affect counter output, process interrupts, and mode behavior.

Explains how hysteresis avoids toggle processes by setting a range around the comparison value.

Illustrates output behavior with zero pulse duration and hysteresis settings.

Covers events, process interrupts, and diagnostic data for system monitoring.

Shows output behavior with parameterized pulse duration and hysteresis.

Explains how to activate process interrupts for reacting to asynchronous events.

Details process interrupt data bits, including gate status and value reached events.

Provides information on the state of input channels during a process interrupt.

Shows the µs ticker value at the moment of a process interrupt.

Explains how to activate diagnostic interrupts and access module diagnostic data.

Details diagnostic bits related to module failure, external errors, and channel errors.

Provides information about the module class and channel information presence.

Specifies the channel type, identifying it as a counter module.

Describes channel-specific errors and diagnostic interrupt events.

Shows the µs ticker value during diagnostic events.