Siemens SIMATIC ET 200SP HA Equipment Manual

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System manual (186 pages)

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SIMATIC

ET 200SP HA

F-DI 16x24VDC HA

Equipment Manual

6DL1136-6BA00-0PH1

08/2021

A5E45647528-AD

Security information

Preface

Product overview

Wiring

Parameters/address space

Applications of the F-I/O

module

Displays, alarms and

messages

Technical specifications

Response times

Table of Contents

Summary of Contents for Siemens SIMATIC ET 200SP HA

Page 1 Security information Preface Product overview SIMATIC Wiring ET 200SP HA F-DI 16x24VDC HA Parameters/address space Applications of the F-I/O module Equipment Manual Displays, alarms and messages Technical specifications Response times 6DL1136-6BA00-0PH1 08/2021 A5E45647528-AD...
Page 2 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Page 3: Table Of Contents
Table of contents Security information..........................5 Preface ..............................7 Product overview ........................... 9 Properties of the F-DI 16x24VDC HA I/O module ..............9 Wiring ..............................13 Terminal blocks for the I/O module ..................13 Pin assignment of the F-DI 16x24VDC HA I/O module ............15 Schematic circuit diagram ....................
Page 4 Table of contents Technical specifications ........................67 Response times............................ 75 Index ..............................77 F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 5: Security Information
Use of product versions that are no longer supported, and failure to apply latest updates may increase customer’s exposure to cyber threats. To stay informed about product updates, subscribe to the Siemens Industrial Security RSS Feed under https://www.siemens.com/industrialsecurity.
Page 6 Security information F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 7: Preface
It supplements the system manual "Distributed I/O System ET 200SP HA (https:// support.industry.siemens.com/cs/ww/en/view/109761547)". Functions that generally relate to the system are described in the system manual. The information in this device manual and the system/function manuals enables you to put the ET 200SP HA into operation.
Page 8 • ET 200SP HA You can find additional information on setting up notifications on the page "Helpful Functions in Online Support (https://support.industry.siemens.com/cs/ww/en/sc/2063)". Security concepts and communication The PCS 7 security concepts described in the document "PCS 7 Compendium Part F - Industrial Security"...
Page 9: Product Overview
Product overview Properties of the F-DI 16x24VDC HA I/O module View of the module F- D I 16 x2 4V DC DI AG M T F- DI 1 DI .0 3 DI .2 DI .1 DI .3 5 DI .4 DI .5 7 DI .6 DI .7...
Page 10 Product overview 3.1 Properties of the F-DI 16x24VDC HA I/O module Properties The I/O module has the following properties: • Technical properties – 16 fail-safe digital inputs (SIL3/Cat.4/PLe) – 16 outputs for sensor supply – PROFIsafe Profile V2.6.1 – 1oo1 and 1oo2 evaluation can be configured for each channel or channel pair. 1oo2 evaluation can be configured in pairs with a permanently assigned partner channel (e.g.
Page 11 Product overview 3.1 Properties of the F-DI 16x24VDC HA I/O module WARNING Validity of safety parameters The safety parameters in the technical specifications are valid for a mission time of 20 years and a repair time of 100 hours. If a repair is not possible within 100 hours, remove the relevant module from the terminal block or switch off its supply voltage before 100 hours elapse.
Page 12 Product overview 3.1 Properties of the F-DI 16x24VDC HA I/O module F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 13: Wiring
Wiring Terminal blocks for the I/O module Terminal blocks You can operate the I/O module with the following terminal blocks: Article No. Color Description 6DL1193-6TP00-0DH1 Light gray For single operation "Enable new potential group" 6DL1193-6TP00-0BH1 Dark gray For single operation "Use potential group of the left module"...
Page 14 Wiring 4.1 Terminal blocks for the I/O module Note Further information on the configuration can be found in the system manual for ET 200SP HA. Connections on the slot and I/O module Figure 4-1 Slot and I/O module connections Information on the pin assignment of the I/O module (terminal block) can be found in the sections below.
Page 15: Pin Assignment Of The F-Di 16X24Vdc Ha I/O Module
Wiring 4.2 Pin assignment of the F-DI 16x24VDC HA I/O module Pin assignment of the F-DI 16x24VDC HA I/O module General pin assignment Table 4-1 Pin assignment of the F-DI 16×24VDC HA Terminal Assignment Terminal Assignment Explanations F-DI /DI.0+ F-DI /DI.1+ F-DI /DI.n+: Input signal, channel n (0…15) UV /UVn: Sensor supply, channel n (0…15) F-DI /DI.2+...
Page 16 Wiring 4.2 Pin assignment of the F-DI 16x24VDC HA I/O module Note Connection with multicore cables at function status 1 (FS01) of the I/O module If you use multi-core cables to connect the signals to the inputs of the I/O module, make sure that any unused cores of this cable are grounded on one side.
Page 17: Schematic Circuit Diagram
Wiring 4.3 Schematic circuit diagram Schematic circuit diagram The following figure shows the schematic circuit diagram of the F-DI 16x24VDC HA. Figure 4-2 Schematic circuit diagram of F-DI 16x24VDC HA Firmware update The supply voltage L+ must be available on the I/O module at the start of the firmware update and during the update.
Page 18 Wiring 4.3 Schematic circuit diagram F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 19: Parameters/Address Space
Parameters/address space Configuration The following software is required to configure the I/O module: • S7 F Systems V6.3 (or higher) Parameters You define the functioning of the I/O module via parameters. F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 20: Parameters
This tab is used to configure the time stamp for the I/O module. For more information on time stamping, refer to the function manual "SIMATIC; Process Control System PCS 7; High-precision Time Stamping with ET 200SP HA (https:// support.industry.siemens.com/cs/ww/en/view/109772337)". Parameters in the "Parameters" tab You have the following setting options: Parameter...
Page 21 Parameters/address space 5.1 Parameters Parameter Value range Default value Parameter Scope reassign‐ ment in RUN Pulse stretching (s) None All channels • None • 0.05 s • 0.1 s • 0.5 s • • Flutter monitoring Disabled All channels • Enabled •...
Page 22 Parameters/address space 5.1 Parameters Parameter Value range Default value Parameter Scope reassign‐ ment in RUN Channel activated Enabled Channel • Enabled • Disabled Diagnostics: Wire break Disabled Channel • Enabled • Disabled Input delay (ms) 3.2 ms Channel • 0.4 ms •...
Page 23 Parameters/address space 5.1 Parameters Parameter Value range Default value Parameter Scope reassign‐ ment in RUN Potential group Potential group Use potential group Terminal • Use potential group of left mod‐ of left module (dark block ule (dark terminal block) terminal block) •...
Page 24: Description Of Parameters
Parameters/address space 5.2 Description of parameters Description of parameters 5.2.1 F-parameters F_source_address Together, the F-source address "F_source_address" and the F-destination address "F_destination_address" form the PROFIsafe address. The PROFIsafe address is used for the unique identification of the F-I/O modules. The F-source address is a unique address of the fail-safe CPU for the entire network. In S7 F/FH systems, it is automatically preset with the value "1"...
Page 25: Cross-Channel Parameters
Parameters/address space 5.2 Description of parameters WARNING PROFIsafe addresses have to be unique for the station • Station-wide uniqueness: Fail-safe I/O modules of the ET 200SP HA are uniquely addressed station-wide by a combination of F-source address (PROFIsafe basic address of the assigned F-CPU) and F- destination address.
Page 26: Parameters Of The Module
Parameters/address space 5.2 Description of parameters Cross-channel parameters act on all identically named parameters of the channels of the module and thus allow a higher-level setting. Note Due to dependencies, the parameters of the channels can be reset to default values if cross- channel parameters are changed.
Page 27: Parameters Of The Channel Pairs
Parameters/address space 5.2 Description of parameters 5.2.4 Parameters of the channel pairs Sensor evaluation You select the type of sensor evaluation with the "Sensor evaluation" parameter: • 1oo1 evaluation With 1oo1 evaluation one sensor is connected. The sensor occupies one input channel. •...
Page 28 Parameters/address space 5.2 Description of parameters Discrepancy behavior Requirement: You have configured the following: • "Sensor evaluation": "1oo2 evaluation, equivalent" or "1oo2 evaluation, non-equivalent" Function: For "Discrepancy behavior", you configure the value that is supplied to the safety program in the F-CPU during the discrepancy between the two affected input channels, i.e.
Page 29: Parameters Of The Channels
Parameters/address space 5.2 Description of parameters Function: You can specify the discrepancy time for each channel pair. Behavior while discrepancy time is running: While the configured discrepancy time is running inside the module, the affected input channels supply either the last valid value or "0" to the safety program in the F-CPU, depending on the configured discrepancy behavior.
Page 30 Due to physical properties, crosstalk of signals can occur on longer unshielded signal wires (see section "Electromagnetic compatibility" in system manual Distributed I/O System ET 200SP HA (https://support.industry.siemens.com/cs/ww/en/view/109761547)). Adjust the input delay or use shielded signal wires to avoid possible passivation of fail-safe digital inputs and shutdown of the sensor supply.
Page 31 Parameters/address space 5.2 Description of parameters Only pulses with the value "0" are stretched. Pulses with the value "1" are ignored. Process value Process value with Time "Pulse stretching (s)" pulse stretching Channel "n" Channel "n+8" Process value without pulse stretching Time "Pulse Time "Pulse...
Page 32 Parameters/address space 5.2 Description of parameters Note If you configure pulse stretching for an input channel, it also affects chatter monitoring enabled for this channel. The "pulse-stretched" signal is the input signal for chatter monitoring. This means you need to adapt the parameter settings of pulse stretching and chatter monitoring to each other.
Page 33 Parameters/address space 5.2 Description of parameters Parameter "Number of signal changes" = 7 Time "Monitoring window (s)" = y 3 x "Monitoring window (s)" = 3y 8 signal changes detected Process value 8 signal changes 6 signal changes detected detected Diagnostics Diagnostics "Flutter error"...
Page 34 Parameters/address space 5.2 Description of parameters Short-circuit test Here, you enable the short-circuit detection for the channels of the F-module for which one of the internal sensor supplies is set. The short-circuit test only makes sense if an internal sensor supply is set. A short-circuit test is not possible for sensors with power supply, e.g.
Page 35: Parameters Of The Potential Group
Parameters/address space 5.2 Description of parameters Note the following for the parameter assignment: • If the channel is passivated, this can also be due to excessively high capacitance between the sensor supply and input. This consists of the capacitance per unit length of the cable and the capacitance of the employed sensor.
Page 36: Double-Width Terminal Block
A potential group ends with the dark terminal block, which follows a light terminal block or a server module in the station configuration. Further information on the configuration of the potential group can be found in system manual "Distributed I/O System ET 200SP HA (https://support.industry.siemens.com/cs/ww/en/view/ 109761547)". 5.2.7 Double-width terminal block Definition Specifies that a double-width terminal block is used at this slot.
Page 37: Address Space
Parameters/address space 5.3 Address space Address space Address assignment of the digital input module F-DI 16x24VDC HA The digital input module F-DI 16x24VDC HA occupies the following address areas in the F-CPU: Table 5-1 Address assignment in the F-CPU Assigned bytes in the F-CPU: In the input range In the output range IB x + 0 to x + 8...
Page 38 You can find additional information on address assignment as well as evaluation and processing of the value status in the programming and operating manual "SIMATIC Industrial Software S7 F/FH Systems - Configuring and Programming (https://support.industry.siemens.com/cs/ww/en/ view/109773062)". F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 39: Applications Of The F-I/O Module
Applications of the F-I/O module Applications of the electronic module Selecting the application The diagram below supports you in selecting the application that suits your fail-safe requirements. In the following sections, you will learn how to wire the F-I/O module for each application, which specific parameters you need to set in STEP 7 and which errors are detected.
Page 40 Applications of the F-I/O module 6.1 Applications of the electronic module Conditions for achieving SIL/Cat./PL The table below lists the conditions which have to be met for achieving at least the corresponding safety requirements. Table 6-1 Conditions for achieving SIL/Cat./PL Application Sensor evaluation Sensor supply...
Page 41: Application 1: Safety Mode Sil3/Cat.3/Pld
Applications of the F-I/O module 6.2 Application 1: Safety mode SIL3/Cat.3/PLd Application 1: Safety mode SIL3/Cat.3/PLd Wiring You perform the wiring on the appropriate terminal block. You can find additional information on this in section "Pin assignment of the F-DI 16x24VDC HA I/O module (Page 15)". Sensor supply The sensor supply can be powered internally or externally.
Page 42 Applications of the F-I/O module 6.2 Application 1: Safety mode SIL3/Cat.3/PLd Parameter assignment Set the following parameters for the corresponding channel: Table 6-2 Configuration for internal/external sensor supply Parameter Channel with internal sensor sup‐ Channel with external sensor sup‐ Sensor evaluation 1oo1 evaluation Short-circuit test Disabled...
Page 43: Application 2: Safety Mode Sil3/Cat.3/Ple
Applications of the F-I/O module 6.3 Application 2: Safety mode SIL3/Cat.3/PLe Application 2: Safety mode SIL3/Cat.3/PLe Assigning inputs to each other Digital input module F-DI 16x24VDC HA has 16 fail-safe inputs DI to DI (SIL3). You can combine two of these inputs in pairs to form one input. The following inputs can be combined in pairs: •...
Page 44 Applications of the F-I/O module 6.3 Application 2: Safety mode SIL3/Cat.3/PLe Figure 6-4 One two-channel sensor connected via two channels, internal sensor supply You can also supply the sensor by means of an external sensor supply. Figure 6-5 One two-channel sensor connected via two channels, external sensor supply Wiring diagram –...
Page 45 Applications of the F-I/O module 6.3 Application 2: Safety mode SIL3/Cat.3/PLe Parameter assignment Assign the following parameters for the corresponding channel: Table 6-4 Configuration for internal/external sensor supply Parameter Channel with internal sensor Channel with external sensor supply supply Sensor evaluation 1oo2 evaluation, equivalent Short circuit test Disabled...
Page 46: Application 3: Safety Mode Sil3/Cat.4/Ple
Applications of the F-I/O module 6.4 Application 3: Safety mode SIL3/Cat.4/PLe Application 3: Safety mode SIL3/Cat.4/PLe Assigning inputs to each other Digital input module F-DI 16x24VDC HA has 16 fail-safe inputs DI to DI (SIL3). You can combine two of these inputs in pairs to form one input. The following inputs can be combined in pairs: •...
Page 47: Application 3.1 (Sil3/Cat.4/Ple)
Applications of the F-I/O module 6.4 Application 3: Safety mode SIL3/Cat.4/PLe 6.4.1 Application 3.1 (SIL3/Cat.4/PLe) Wiring diagram – connecting a two-channel sensor via two channels For each process signal, a two-channel sensor is connected to two inputs of the F-I/O module (1oo2 evaluation).
Page 48: Application 3.2 (Sil3/Cat.4/Ple)
Applications of the F-I/O module 6.4 Application 3: Safety mode SIL3/Cat.4/PLe Fault detection The following table presents fault detection according to the sensor supply and the parameter assignment for the short circuit test: Table 6-7 Fault detection depending on the sensor supply and short-circuit test Fault Fault detection Shorted within the channel pair, to other chan‐...
Page 49 Applications of the F-I/O module 6.4 Application 3: Safety mode SIL3/Cat.4/PLe WARNING Requirement for sensors To achieve SIL3/Cat.4/PLe using this wiring, you must use a suitably qualified sensor. (FDIW-008) Wiring diagram – connecting two single-channel sensors non-equivalent For each process signal, 2 single-channel sensors are connected antivalent to two inputs of the F-I/O module (1oo2 evaluation).
Page 50 Applications of the F-I/O module 6.4 Application 3: Safety mode SIL3/Cat.4/PLe Parameter assignment Assign the following parameters for the corresponding channel: Table 6-8 Configuration for evaluation of the sensors, short-circuit test, sensor supply Parameter Sensor evaluation 1oo2 evaluation, non-equivalent Short circuit test •...
Page 51: Requirements Placed On Sensors For Fail-Safe Modules
Applications of the F-I/O module 6.5 Requirements placed on sensors for fail-safe modules Requirements placed on sensors for fail-safe modules General sensor requirements For safety-related use of sensors, you must observe the following important warning: WARNING Sensor requirements Note that a significant responsibility for safety of instrumentation lies with the sensors. Also keep in mind that sensors generally do not have proof-test intervals of 20 years according to IEC 61508:2010 without a significant loss of safety.
Page 52 Applications of the F-I/O module 6.5 Requirements placed on sensors for fail-safe modules Requirements for the duration of the sensor signals WARNING Sensor signal requirements Observe the following requirements for the sensor signals: • To guarantee the correct acquisition of the sensor signals by F-modules with inputs, you must ensure that the sensor signals have a certain minimum duration.
Page 53: Io Redundancy
Applications of the F-I/O module 6.6 IO redundancy IO redundancy Overview of IO redundancy For the configuration of IO redundancy, you insert 2 F-DI 16×24VDC HA I/O modules of the same type next to each other on a redundant block. You can find additional information on the possible terminal blocks in section "Terminal blocks for the I/O module (Page 13)".
Page 54 Applications of the F-I/O module 6.6 IO redundancy F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 55: Displays, Alarms And Messages
Displays, alarms and messages Status and fault displays of the F-DI 16x24VDC HA I/O module LED displays The following figure shows the LED displays of the I/O module: F-DI 16x24VDC DIAG MT F-DI 1 DI.0 DI.1 3 DI.2 DI.3 5 DI.4 DI.5 7 DI.6 DI.7...
Page 56 Displays, alarms and messages 7.1 Status and fault displays of the F-DI 16x24VDC HA I/O module DIAG LED Table 7-1 Diagnostics display of the DIAG LED DIAG LED Meaning The supply voltage of the ET 200SP HA is switched off. Module is not configured.
Page 57 Displays, alarms and messages 7.1 Status and fault displays of the F-DI 16x24VDC HA I/O module The red LED "Channel fault" is lit when channel diagnostics for an enabled channel are pending. Table 7-4 Meaning of the combination Channel status Channel fault Meaning •...
Page 58: Interrupts
Displays, alarms and messages 7.2 Interrupts Interrupts Introduction Fail-safe digital input module F-DI 16x24VDC HA supports diagnostics interrupts and maintenance messages. Diagnostic interrupts The F-module generates a diagnostic interrupt for each diagnostics message described in section "Diagnostic messages (Page 60)". The following table provides an overview of the diagnostics interrupts of the F-module.
Page 59 Displays, alarms and messages 7.2 Interrupts Diagnostic interrupt Error code Effective range Configurable of diagnostic in‐ terrupt Shutdown with key operation F-module Diagnostic queue overflow F-module Invalid terminal block F-module Carrier module or memory in carrier module defective F-module Terminal block (TB) or memory in terminal block defective F-module Discrepancy error, channel status 0/0 Channel...
Page 60: Diagnostic Messages
After fault correction, you must reintegrate the F-module in the safety program. You can find additional information on passivation and reintegration of F-I/O in the programming and operating manual "SIMATIC Industrial Software S7 F/FH Systems - Configuring and Programming (https://support.industry.siemens.com/cs/ww/en/view/ 109773062)". Table 7-8 Diagnostics messages of F-DI 16×24VDC HA...
Page 61 Displays, alarms and messages 7.3 Diagnostic messages Diagnostics message Error Meaning Remedy code Channel/component temporari‐ Possible causes: Perform the firmware update again. ly unavailable • Error in firmware update Mismatch of safety destination The F-module has detected a different F- Check the parameter assignment of the address (F_Dest_Add) destination address.
Page 62 Displays, alarms and messages 7.3 Diagnostic messages Diagnostics message Error Meaning Remedy code Module is defective Possible causes: • Eliminate the interference. The mod‐ ule must then be pulled and plug‐ • Impermissibly high electromagnet‐ ged, or the power switched OFF and ic interference is present.
Page 63 Displays, alarms and messages 7.3 Diagnostic messages Diagnostics message Error Meaning Remedy code Discrepancy error, channel sta‐ Possible causes: • Check the process signal. tus 0/0 • The process signal is faulty. • Replace the sensor. Discrepancy error, channel sta‐ •...
Page 64 Displays, alarms and messages 7.3 Diagnostic messages Diagnostics message Error Meaning Remedy code Frequency too high The maximum switching frequency of Reduce the switching frequency of the the F-module has been exceeded. sensor. Undertemperature The minimum permissible temperature Operate the F-module in the specified limit has been violated.
Page 65 You can find additional information on diagnostics that pertains to all F-modules (e.g. readout of diagnostic functions, passivation of channels) in the programming and operating manual "SIMATIC Industrial Software S7 F/FH Systems - Configuring and Programming (https:// support.industry.siemens.com/cs/ww/en/view/109773062)". F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 66: Maintenance Messages
Displays, alarms and messages 7.4 Maintenance messages Maintenance messages Overview A maintenance event is generated every time a maintenance requirement is determined. The MT LED lights up on the module. Maintenance messages do not have a direct influence on the functions of the module or digital inputs.
Page 67 For compliance with IEC 61131-2, EN 298 and the NAMUR Recommendation NE 21, use only power supplies (230 V AC --> 24 V DC) with bridging of supply failures of at least 20 ms. You can find up-to-date information on PS components on the Internet (http:// mall.automation.siemens.com). F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 68 Technical specifications Article number 6DL1136-6BA00-0PH1 General information Firmware version V1.0.1 • FW update possible Usable terminal block TB type H1 and M1 Color code for module-specific color identifica‐ CC01 tion plate Product function Yes; I&M0 to I&M3 • I&M data Engineering with V9.0 SP3 •...
Page 69 Technical specifications Article number 6DL1136-6BA00-0PH1 5 byte • Outputs Hardware configuration Automatic encoding Digital inputs Number of digital inputs Digital inputs, parameterizable Source/sink input Yes; P-reading Input characteristic curve in accordance with IEC 61131, type 1 Input characteristic curve in accordance with IEC 61131, type 2 Input characteristic curve in accordance with IEC 61131, type 3...
Page 70 Technical specifications Article number 6DL1136-6BA00-0PH1 – parameterizable Yes; channel by channel • Monitoring of encoder power supply Yes; channel by channel, optional protective circuit • Wire-break for preventing wire-break diagnostics in the case of simple encoder contacts: 18 kOhm to 30 kOhm, typical 26 kOhm Yes;...
Page 71 Technical specifications Derating curve • The following figures show the load current derating of the internal sensor supply in horizontal and vertical mounting position. The underlying scenario provides for wiring of the inputs with a maximum value of 30V as defined in IEC 61131-2 for Type 1 sensors.
Page 72 Technical specifications Total current I [A] Vertical mounting position (28.8/30V) Figure 8-3 Load current derating of the sensor supply in vertical mounting position (scenario according to IEC 61131-2, Type • The following figures show the load current derating of the internal sensor supply in horizontal and vertical mounting position.
Page 73 Technical specifications Total current I [A] Vertical mounting position (24/24V) Figure 8-5 Load current derating of the sensor supply in vertical mounting position (typical scenario) Load current when using up to 12 channels • Horizontal mounting position: Up to 70 °C when using the internal sensor supplies (Total current of the outputs 1.5 A) •...
Page 74 Technical specifications F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...
Page 75 Response times Introduction The response times of digital input module F-DI 16x24VDC HA are found below. The response times of the digital input module go into the calculation of the F-system response time. Definition of response time for fail-safe digital inputs The response time represents the interval between a signal change at the digital input and reliable availability of the safety frame on the backplane bus.
Page 76 Response times Test time for sensor supply of sensor 2 Startup time of sensors after the short-circuit test (sensor 2) Maximum response time to external short-circuits t <= 2 * T + 2 * (n * 10 * T ) + 2 * Total [x=0…15](T1x + T2x) cycle cycle Time for sensor test...
Page 77 Index Output disable switch, 11 Channel fault LED, 55 Channel parameters, 20 Parameter, 19 Channel status LED, 55 Pin assignment, 15 Conventions, 7 PWR LED, 57 DIAG LED, 56 Redundant I/O, 53 Diagnostic interrupt, 58 Documentation Range of validity, 7 Schematic circuit diagram, 17 F-DI 16x24VDC HA Accessories, 11...
Page 78 Index F-DI 16x24VDC HA Equipment Manual, 08/2021, A5E45647528-AD...

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