Schneider Electric XPSMF2DO801 Temperature State/Operating, Temperature range Temperature state

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Overview

Temperature

State/Operating

Temperature

The remote output modules are designed to operate with the maximum temperature

of 60oC. The temperature states in single modules and PLCs are evaluated by the CPU module or the remote output device’s CPU for compact systems. The temperature state of a particular module or PLC is measured by a sensor. The sensor monitors the temperature state of the remote output device automatically and continuously.

The following table shows the ranges in which the temperature state signals the measured temperature:

Temperature range	Temperature state

< 60°C / 140°F	Normal

60°C to 70°C / 140°F to 158°F	High temperature

> 70°C / 158°F	Very high temperature

Return to 64°C / 147.2°F	High temperature

Return to < 54°C / 129.2°F	Normal

Note: The difference in temperature increase and decrease ranges is the result of the sensor’s hysteresis that equals 6°C / 10.8°F.

Temperature state High temperature indicates the following:

operating temperature = max temperature (delta T)max + ambient temperature

≥60°C / 140°F.

In this case, support the internal convection by adding air grilles or increasing the free space between the remote output devices.

Temperature state Very high temperature indicates the following:

operating temperature = max temperature (delta T)max + ambient temperature

≥70°C / 158°F.

In this case, support the internal convection by integrating additional active cooling elements (fan, coolant devices, etc.) or increasing the free space around the remote output devices.

If the sensor indicates a temperature increase above the critical threshold, the temperature state changes. The temperature states can be evaluated using the Temperature State system signal of the XPSMFWIN.

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Contents 07/2007 XPSMF2DO801 Remote Output Module Hardware ManualPage Table of Contents At a Glance AppendicesSafety Information ProcedureImportant Information Safety Information At a Glance About the Book33003405 07/2007 Overview XPSMF2DO801 Overview Whats in this Chapter?Topic Representation IntroductionFront View ModuleDimensions Remote output module DimensionsSide View Procedure InstallationIntroduction Step ActionHIMatrix 100 Compact device Cable duct Spacer Length of the required spacer is calculated as follows Installation with spacers= H 40 mm / 1.57 = length of the spacer = height of the cable ductHIMatrix F31 Heat Case installation Calculation of a m2 1m2=10.76ft2 Internal HousingConvection Variable DescriptionTemperature range Temperature state Temperature State/OperatingOverview Application and Function Initial Operation XPSMF2DO801 safety remote output moduleOverview StageApplication Function Terminal No Designation Function relay output Application and Function Disconnection CableFollowing will occur SystemLarge System Reconfiguration Power Supply InterruptionVoltage level Reaction of the controller StepSHORT-CIRCUIT Condition Short-Circuit Characteristics Output ChannelsModules Offline Proof Test Offline Proof-Test Periodic Proof TestingExecution Offline ProofOutput module Equipment DescriptionWhats in this Chapter?Housing Elements XPSMF2DO801 safety remote output moduleElements of the front panel Top View Following image shows the elements of the top panel Back Panel Following image shows elements of the back panel Using Reset Reset ButtonHousing, about 40...50 mm 1.57...1.97 in. from the left rim ButtonOverview Safety-Related Communication Communication via switchesCommunication Following scheme shows a SafeEthernet networking example HIMatrix F3AIOConnector pairs and cable distances Following is a Ethernet cable connection diagramNumber Maximum cable distanceEquipment Description LEDs LED Description Following table describes behaviors of the LEDsColor Status Meaning LED Ethernet Wiring WiringInterface ElementsSwitches RJ45 ConnectorClass D capacity are required RecommendedIP Addressing and System ID DescriptionBit numbers e.g SafeEthernet 33003405 07/2007 Parameters OperationEthernet InterfacesUsed Network Ports for Ethernet Communication Connections for SafeEthernet/ Networking ExamplesUDP ports and usage TCP ports and usageFor the next higher level and relies on the next lower level OSI modelNumber Layer Data Description Following table describes the seven OSI layers bottom-topOperating Conditions ClimaticConditions Mechanical EMC ConditionsFollowing tables Equipment Description Mechanical Data Power Supply Connectors Technical CharacteristicsPower Supply Connectors Signal Line ConnectorsStripping Length and Torque Supply voltage Relay OutputsAdditional Items List of AdditionalItems Equipment Description Equipment Description Appendix contains the following chapters AppendicesAppendix? Chapter Chapter NameAppendices Connection Diagrams, Examples Application, and Error Codes System signal Meaning Error CodesBrief description of the functional devices SafeEthernet Protocol Ethernet Wiring Example Wiring ExamplesElements of the network NetworkingBrief description of the functional devices Modbus serial ElementCommunication Settings Configuration of Ethernet InterfacesFor setting the communication parameters proceed as follows Flow-Control Mode list, select AutonegKonfiguration/Abl-Mode/HIMatrix F35/OM Parameters of a port configurationParameter Description Following table contains the parameter descriptionsBrief description of the functional devices Glossary Fault tolerance time Functional block diagramField bus See FTTOSI Model Open system interconnection model Object linking and embeddingProtective extra low voltage Programmable electronic systemSequential function chart Safety extra low voltageSafety integrity level according to IEC System-rack-slotIndex Index