Siemens SIMATIC ET 200C Manual
  1. Manuals
  2. Brands
  3. Siemens Manuals
  4. I/O Systems
  5. SIMATIC ET 200C
  6. Manual
Siemens SIMATIC ET 200C Manual

Siemens SIMATIC ET 200C Manual

Hide thumbs
Table of Contents

Advertisement

Quick Links

SIMATIC
ET 200C
Distributed I/O Station
Manual
Edition 03
EWA 4NEB 812 6119-02b
Preface, Contents
Configuration
ET 200C Configuration Options
ET 200C Components
Mechanical and Electrical
Installation
Address Assignment and Param-
eterization with COM ET 200
Startup and Test with
COM ET 200
Fault Diagnostics with the
IM 308-B
Fault Diagnostics with the
IM 308-C
Connection of the
ET 200 Handheld
General Technical Specifications
Digital Modules
Analog Modules
Other ET 200C Components
Pin Assignments of the ET 200C
Modules
Type files
Safety-Related Guidelines
Glossary, Index
1
2
3
4
5
6
7
8
9
10
11
12
13
A
B
C

Advertisement

Table of Contents
loading

Related Manuals for Siemens SIMATIC ET 200C

Summary of Contents for Siemens SIMATIC ET 200C

  • Page 1 Preface, Contents Configuration ET 200C Configuration Options SIMATIC ET 200C Components Mechanical and Electrical Installation ET 200C Address Assignment and Param- Distributed I/O Station eterization with COM ET 200 Startup and Test with COM ET 200 Manual Fault Diagnostics with the IM 308-B Fault Diagnostics with the IM 308-C...

  • Page 2: Edition

    Siemens. This product can only function correctly and safely if it is transported, stored, set up, and installed correctly, and operated and maintained as recommended.
  • Page 3 Preface Purpose The information in this manual will enable you to: of the Manual install, connect and operate the ET 200C distributed I/O station, look up the module characteristics and technical data. Contents This section shows you how the manual is structured. of the Manual What is ET 200C? Chap.
  • Page 4 Preface Scope As regards operation of ET 200C with the IM 308-C master interface and of the Manual COM ET 200 Windows, this manual describes only parameterization with (Continued) COM ET 200 Windows. See the manual entitled ET 200 Distributed I/O System (order number 6ES5 998-3ES12) for detailed information on how to use COM ET 200 Windows and on working with the FB IM 308C standard function block.

  • Page 5: Table Of Contents

    Contents Configuration ............What is the ET 200? .
  • Page 6 Contents Mechanical and Electrical Installation ........Installation of ET 200C .
  • Page 7 Contents 7.3.4 Manufacturer Identification Diagnostics ......7-17 7.3.5 Device-related Diagnostics – Digital ET 200C ..... 7-18 Fault Diagnostics with the IM 308-C .
  • Page 8 Contents Pin Assignments of the ET 200C Modules ......Pin Assignments of ET 200C Digital Modules .
  • Page 9 Contents Figures ET 200 Bus Users Described in this Manual ..... . ET 200C Digital and Analog Modules ......Other ET 200C Components .
  • Page 10 Contents 4-12 Arrangement of Screw Terminals and DIL Switches in ET 200C; AI 4/8 12 Bit ..........4-23 4-13 Connection to ET 200C;...

  • Page 11: Dc 24V

    Contents Structure of the Diagnostics Word after Requesting the Station Status (Station Status 3 and Master Address) ....7-16 Structure of the Diagnostics Word after Request for Manufacturer Identification .
  • Page 12 Contents Connection of the Handheld to the T Connector for Configuration with Power Supply Connector and T Connector ....11-1 Digital Input Module ET 200C; DI 8 DC 24V: Block Diagram .
  • Page 13 Contents 12-11 ET 200C Analog Output Module; AO 4 12 Bit: Dimensional Drawing ......... . 12-42 12-12 ET 200C Analog Output Module;...
  • Page 14 Contents Tables Maximum baud rates with components of ET 200C ....Length of the SINEC L2 Bus Cable in Accordance with the Baud Rate on the SINEC L2-DP Bus .
  • Page 15 Contents 4-23 Module-Specific DIL Switch Block in ET 200C; AI 4 12 Bit ..4-50 4-24 DIL Switches in DIL Switch Block S5 ......4-51 4-25 Module-specific DIL-switch block in ET 200C;...
  • Page 16 Contents 12-6 Digitized Measured Values for ET 200C; AI 4/8 12 Bit with Resistance Sensors ......... . . 12-10 12-7 Digitized Measured Values for ET 200C;...

  • Page 17: Di 16/Do/Do 16/Do Dc 24V/2A (6Es7 143-0Bl10-0Xb0)

    Contents 12-32 Analog Output Signals of ET 200C; AO 4 12 Bit (Ranges of Values: 10 V, 0 ... 10 V, 20 mA, 0 ... 20 mA, 4 ... 20 mA) ..........12-38 12-33 Presentation of an Analog Input Value as Bit Pattern for SIMATIC S7...
  • Page 18 Contents ET 200C Distributed I/O Station xviii EWA 4NEB 812 6119-02b...

  • Page 19: Configuration

    Configuration In this Chapter This chapter ”Configuration” provides you with information on the position of the ET 200C distributed I/O station in the distributed I/O system and the components of the ET 200C. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 20: What Is The Et

    (DIN 19245, Part 1) and the PROFIBUS-DP draft standard (DIN 19245, Part 3). At SIEMENS, the PROFIBUS is called SINEC L2. The field bus on which the ET 200 distributed I/O system is based, is a variant of SINEC L2 called SINEC L2-DP. This version is designed for communication with the distributed I/O at extremely short response times.

  • Page 21: What Is The Et 200C

    Configuration What is the ET 200C? Range of Modules The ET 200C Distributed I/O Station is part of the ET 200 Distributed I/O System. The ET 200C digital and analog modules each form a slave station. Digital Input Module DI 8 DC 24V Digital Output Module DO 8...

  • Page 22: Terminating Resistor

    Configuration What is the ET 200C?, Continued Other Components ET 200C also includes other components. Not all components may be neces- sary for operation: T-Connector Power Supply Connector (PS Conn.) Einsp. Programmer Connector Bus Cable 2-core 3-core Power Supply Cable Combined Bus/ 5-core Power-Supply Cable...
  • Page 23 Configuration Characteristics of The ET 200C Distributed I/O Station has the following characteristics: the ET 200C Degree of protection IP 66/IP 67 All components of the ET 200C (excluding adapter cables) are designed with degree of protection IP 66 and 67. However, IP 66 and IP 67 are only ensured if the installation rules in Section 4.1 are observed.

  • Page 24: Maximum Baud Rates With Components Of Et 200C

    Configuration Characteristics of The digital modules have the following LEDs the ET 200C – RUN (Continued) – BF (bus fault) – DIA (diagnostics of the inputs/outputs or undervoltage of the outputs) – U in DO 8 DC 24V/0.5A and DO 8 DC 24V/2A or U DI 16/DO 16 DC 24V/2A (load voltage supply of the outputs)

  • Page 25: Length Of The Sinec L2 Bus Cable In Accordance

    Configuration Length of the SINEC L2 bus cable The following values apply for the SINEC L2 bus cable in accordance with the baud rate on the bus when configuring the ET 200C. Table 1-2 Length of the SINEC L2 Bus Cable in Accordance with the Baud Rate on the SINEC L2-DP Bus Baud rate Max.
  • Page 26 Configuration ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 27: Et 200C Configuration Options

    ET 200C Configuration Options In this Chapter This chapter describes the configuration options offered to you by ET 200C. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 28: 2.1 Overview Of The Et 200C Configuration Options

    ET 200C Configuration Options 2.1 Overview of the ET 200C Configuration Options Configuration The table below contains the various configuration options made available by Options ET 200C. Table 2-1 ET 200C Configuration Options PS connector Configuration Described in Configuration Configuration with power supply Section 2.1.1 with power supply connector and without T connector...
  • Page 29 You will require a 3-core cable for the load voltage supply and the separate power supply connectors of the digital modules. You can, however, also use the prefabricated, 5-core cable from Siemens for the load voltage. Two of the conductors will then not be used in this case (see Section 3.11).

  • Page 30: Configuration With Power Supply Connector Without T Connector

    Cables Different types of cable can be used for the various configurations: Read Section 3.11 if you wish to use prefabricated cables from Siemens. Read Section 4.3 if you wish to prepare the cables yourself. ET 200C Distributed I/O Station...

  • Page 31: Sinec L2-Dp Field Bus And Power Supply Looped Through

    ET 200C Configuration Options Configuration A possible configuration with power supply connector and without T connector can be seen in Fig. 2-2: External Power Supply 4/8AI conn. SINEC L2-DP Load Voltage Supply Looped On External Load Voltage Supply 16DI/16DO Load Voltage Supply for Channel Group Q0 No separate load voltage...

  • Page 32: Permissible Current Load For Load Voltage Supply

    ET 200C Configuration Options Configuration with Power Supply Connector without T Connector, Continued Rules for the The maximum permissible current for the external load voltage supply is External Load limited: Voltage Supply Table 2-2 Permissible Current Load for Load Voltage Supply Digital module Total permissible current load ET 200C;...

  • Page 33: Configuration With Power Supply Connector And With T Connectors

    Cables Different types of cable can be used for the various configurations: Read Section 3.11 if you wish to use prefabricated cables from Siemens. Read Section 4.3 if you wish to prepare the cables yourself. ET 200C Distributed I/O Station...

  • Page 34: Sinec L2-Dp Field Bus And Power Supply Looped Through With T Connectors

    ET 200C Configuration Options Configuration with Power Supply Connector and with T Connectors, Continued Configuration A possible configuration with power supply connector and with T connector can be seen in Fig. 2-3: External Power Supply conn. SINEC L2-DP Load Voltage Supply Looped On External Load Voltage Supply...

  • Page 35: Rule For Use Of A T Connector

    ET 200C Configuration Options Rules for the The maximum permissible current for the external load voltage supply is External Load limited: Voltage Supply Table 2-3 Permissible Current Load for Load Voltage Supply Digital module Total permissible current load ET 200C; max.

  • Page 36: Configuration Using Several Power Supply Connectors

    ET 200C Configuration Options 2.1.3 Configuration using Several Power Supply Connectors Constraint when In the configurations using a power supply connector (see Sections 2.1.2 and Using One Power 2.1.1), the power supply is fed over the bus cable. Supply Connector This design is limited by the following factors: If the power supply and the SINEC L2-DP field bus are combined in one cable, the following values apply for the length of the bus cable between...

  • Page 37: Configuration Using Several Power Supply Connectors

    ET 200C Configuration Options Remedy You are planning several power supply connectors per segment. A possible configuration with several power supply connectors can be seen in Fig. 2-5. External Power Supply conn. SINEC L2-DP SINEC L2-DP External Power Supply conn. External Load Voltage Supply In this case, you can use a 2 or 5-core cable.

  • Page 38: Configuration Without Power Supply Connector

    T connectors. Cables Different types of cable can be used for the various configurations: Read Section 3.11 if you wish to use prefabricated cables from Siemens. Read Section 4.3 if you wish to prepare the cables yourself. Note You must prepare the cables yourself for the load voltage supply of ET 200C;...

  • Page 39: Sinec L2-Dp Field Bus Looped Through With T Connectors - Individual External Power Supply To Each Slave Station

    ET 200C Configuration Options Configuration A possible configuration without power supply connector can be seen in Fig. 2-6. External Power Supply SINEC L2-DP External Power Supply No separate load voltage Two-wire supply is necessary for Cable (!!) analog output modules External Power Supply External Power Supply External Load Voltage Supply...

  • Page 40: Rules For Use Of A T Connector

    ET 200C Configuration Options Configuration without Power Supply Connector, Continued Rules for the The maximum permissible current for the external load voltage supply is External Load limited: Voltage Supply Table 2-6 Permissible Current Load for Load Voltage Supply Digital module Total permissible current load ET 200C;...

  • Page 41: Rules For Current Connection

    ET 200C Configuration Options Rules for Current Note the following rules for the external power supply: Connection Caution Risk of destroying the ET 200C modules. Do not run the SINEC L2-DP bus and the external power supply together through an ET 200C module. If you did, the external power supply would be looped though the field bus to other ET 200C modules.

  • Page 42: Configuration With Programmer Connector

    ET 200C Configuration Options 2.1.5 Configuration with Programmer Connector Definition If you want to connect the programmer to the SINEC L2-DP field bus within the IP 66/IP 67 landscape, you will need a programmer (PG) connector. Connection of the In order to connect the programmer to the programmer connector, you will Programmer require two connecting cables: Adapter cable (see Section 3.13) and...

  • Page 43: With The Baud Rate On The Sinec L2-Dp Bus

    ET 200C Configuration Options Rules for Both the 2-core and the 5-core cable can be connected to the programmer Connecting the connector. Programmer A programmer connector can be placed anywhere on the SINEC L2-DP field Connector bus. The following should be noted here: The programmer connector should not be located at the end of the bus cable, otherwise a terminating resistor cannot be fitted.
  • Page 44 ET 200C Configuration Options ET 200C Distributed I/O Station 2-18 EWA 4NEB 812 6119-02b...

  • Page 45: Et 200C Components

    ET 200C Components In this Chapter All components of the ET 200C with their performance data and characteris- tics are described in this chapter. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 46: Digital Input Module Et 200C; Di 8 Dc 24V (6Es7 141-0Bf00-0Xb0)

    ET 200C Components Digital Input Module ET 200C; DI 8 DC 24V (6ES7 141-0BF00-0XB0) Characteristics The digital input module ET 200C; DI 8 DC 24V has the following char- acteristics: Degree of protection IP 66/IP 67 (see Installation rules, Section 4.1) Choice of six different baud rates: 9.6;...

  • Page 47: Digital Input Module Et 200C; Di 8 Dc 24V (6Es7 141-0Bf00-0Xb0)

    ET 200C Components Connections The digital input module ET 200C; DI 8 DC 24V has the following con- nections: 8 input channels (4-conductor connection) 2 bus connections (12-pin socket) The 12-pin sockets can be used for several purposes: – To connect the SINEC L2-DP field bus –...

  • Page 48: Digital Output Module Et 200C; Do 8 Dc 24V/0.5A (6Es7 142-0Bf00-0Xb0)

    ET 200C Components Digital Output Module ET 200C; DO 8 DC 24V/0.5A (6ES7 142-0BF00-0XB0) Characteristics The digital output module ET 200C; DO 8 DC 24V/0.5A has the follow- ing characteristics: Degree of protection IP 66/IP 67 (see Installation rules, Section 4.1) Output current per channel: 0.5 A Choice of nine different baud rates: 9.6, 19.2;...

  • Page 49: Digital Output Module Et 200C; Do 8 Dc 24V/0.5A (6Es7 142-0Bf00-0Xb0)

    ET 200C Components Connections The digital output module ET 200C; DO 8 DC 24V/0.5A has the follow- ing connections: 8 output channels (three-conductor connection) 2 bus connections (12-pin socket) The 12-pin sockets can be used for several purposes: – to connect the SINEC L2-DP field bus –...

  • Page 50: Digital Output Module Et 200C; Do 8 Dc 24V/2A (6Es7 142-0Bf10-0Xb0)

    ET 200C Components Digital Output Module ET 200C; DO 8 DC 24V/2A (6ES7 142-0BF10-0XB0) Characteristics The digital output module ET 200C; DO 8 DC 24V/2A has the following characteristics: Degree of protection IP 66/IP 67 (see Installation rules, Section 4.1) Output current per channel: 2 A Choice of nine different baud rates: 9.6, 19.2;...

  • Page 51: Dc 24V/2A

    ET 200C Components Connections The digital output module ET 200C; DO 8 DC 24V/2A has the following connections: 8 output channels (three-conductor connection) 2 bus connections (12-pin socket) The 12-pin sockets can be used for several purposes: – to connect the SINEC L2-DP field bus –...

  • Page 52: Digital Input/Output Module Et 200C; Di 16/Do 16 Dc 24V (6Es 143-0Bl00-0Xb0 And 6Es7 143-0Bl10-0Xb0)

    ET 200C Components Digital Input/Output Module ET 200C; DI 16/DO 16 DC 24V (6ES 143-0BL00-0XB0 and 6ES7 143-0BL10-0XB0) Characteristics The digital input/output module ET 200C; DI 16/DO 16 DC 24V has the following characteristics: Degree of protection IP 66/IP 67 (see Installation rules, Section 4.1) Two versions of the module are available with different connection systems for the input/output channels: with circular connectors...

  • Page 53: (6Es7 143-0Bl00-0Xb0)

    ET 200C Components Connections The digital output module ET 200C; DI 16/DO 16 DC 24V has the following connections: 16 input channels, non-floating (four-conductor connection) 16 output channel, floating in groups of 8 channels 2 bus connections (12-pin socket) The 12-pin sockets can be used for several purposes: –...

  • Page 54: Digital I/O Module Et 200C; Di 16/Do

    ET 200C Components Digital Input/Output Module ET 200C; DI 16/DO 16 DC 24V (6ES 143-0BL00-0XB0 and 6ES7 143-0BL10-0XB0), Continued Male Connector for the Load Voltage Supply Sockets for Connecting Input for Q0 SINEC L2-DP Male Connector for the Load Voltage Supply Input for Q1 Figure 3-5 Digital I/O Module ET 200C;...

  • Page 55: Analog Input Module Et 200C; Ai

    ET 200C Components Analog Input Module ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0) Characteristics The analog input module ET 200C; AI 4/8 12 bit has the following characteristics: Degree of protection IP 66/IP 67 (see Installation Rules, Section 4.1) Choice of the following baud rates: 9.6;...

  • Page 56: Bit (6Es7 144-0Kh00-0Xb0)

    ET 200C Components Analog Input Module ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Connections The analog input module ET200C; AI 4/8 12 bit has the following con- nections: 8 input channels for thermocouples and voltage sensors (2-wire) or 4 input channels (4-wire) 2 bus connectors (12-pin socket) The 12-pin sockets can be used for: –...

  • Page 57: Bit (6Es7 144-0Hf00-0Xb0)

    ET 200C Components Analog Input Module ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0XB0) Characteristics The analog input module ET 200C; AI 4 12 bit has the following characteristics: Degree of protection IP 66/IP 67 (see Installation Rules, Section 4.1) Choice of the following baud rates: 9.6;...

  • Page 58: Analog Input Module Et 200C; Ai

    ET 200C Components Analog Input Module ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Connections The analog input module ET200C; AI 4 12 bit has the following connec- tions: 4 input channels (2-wire) 2 bus connectors (12-pin socket) The 12-pin sockets can be used for: –...

  • Page 59: Analog Output Module Et 200C; Ao

    ET 200C Components Analog Output Module ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0XB0) Characteristics The analog output module ET 200C; AO 4 12 bit has the following characteristics: Degree of protection IP 66/IP 67 (see Installation Rules, Section 4.1) Choice of the following baud rates: 9.6;...

  • Page 60: Analog Output Module Et 200C; Ao

    ET 200C Components Analog Output Module ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0XB0), Continued Connections The analog output module ET200C; AO 4 12 bit has the following con- nections: 4 output channels 2 bus connectors (12-pin socket) The 12-pin sockets can be used for: –...

  • Page 61: T Connector (6Es5 762-2Ct11)

    ET 200C Components T Connector (6ES5 762-2CT11) Application You need a T connector for the following configurations: Configuration with power supply connector and with T connectors (see Section 2.1.2) Configuration with external current supply (see Section 2.1.4) This means that the SINEC L2-DP field bus can also continue operating if a slave station connected via a T connector is disconnected.

  • Page 62: Power Supply Connector (6Es5 762-2Cs11)

    ET 200C Components Power Supply Connector (6ES5 762-2CS11) Application The power supply connector is used to combine the SINEC L2-DP field bus and the external power supply. Characteristics The power supply connector has the following characteristics: Degree of protection IP 66/IP 67 (see Installation rules, Section 4.1); Choice of following baud rates: 9.6;...

  • Page 63: Programmer Connector (6Es5 762-2Ca12)

    ET 200C Components 3.10 Programmer Connector (6ES5 762-2CA12) Application A programmer connector is used to connect the programmer within the IP 66/IP 67 environment to the SINEC L2-DP bus. Characteristics The programmer connector has the following characteristics: Degree of protection IP 66/IP 67 (see Installation rules, Section 4.1) Choice of following baud rates: 9.6;...

  • Page 64: 3.11 Cables

    For feeding the power supply to the power connector For external load voltage supply. Versions Various different cables are available from SIEMENS for the ET 200C. All of the cables are available precut and terminated at both ends, one end or not at all...

  • Page 65: Order Numbers For Standard Cable Lengths

    ET 200C Components Order numbers The following table contains the order numbers for standard cable lengths: Table 3-2 Order Numbers for Standard Cable Lengths (Core Cross-Sectional Area 0.75 mm /Max. Current Load 4 A) Description Cable Cable (standard sheath) (non-welding sheath) 5-core cable (not prefabricated) 6ES5 717-1 6ES5 718-1...

  • Page 66: Terminating Resistor (6Es5 755-2Ca11)

    ET 200C Components 3.12 Terminating Resistor (6ES5 755-2CA11) Application A bus cable must always be terminated at both ends with a terminating resis- tor. On the ET 200C, the terminating resistor is screwed onto a 12-pin socket. The terminating resistor can be screwed onto the bus connection of: Digital and analog modules, or T connector Characteristics...

  • Page 67: Adapter Cable (6Es5 755-8Ca11)

    ET 200C Components 3.13 Adapter Cable (6ES5 755-8CA11) Application The adapter cable is required for connecting the programmer (with program- mer interface module CP5410-S5DOS/ST) or the ET 200 handheld to the ET 200C. The programmer or the ET 200 handheld are required for Setting the station number (digital modules only with ET 200 handheld, anlog modules optionally with ET200 handheld) Test and startup...
  • Page 68 ET 200C Components ET 200C Distributed I/O Station 3-24 EWA 4NEB 812 6119-02b...

  • Page 69: Mechanical And Electrical Installation

    Mechanical and Electrical Installation In this Chapter This chapter describes the mechanical and electrical installation of the ET 200C. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 70: 4.1 Installation Of Et 200C

    Mechanical and Electrical Installation 4.1 Installation of ET 200C Rules Degree of protection IP 66/IP 67 can be guaranteed for the ET 200C modules only under the following conditions: The surfaces on which the ET 200C modules are mounted must be flat (no tensions) All unused connections must always be sealed with the plastic caps supplied (inputs/outputs only) or metal caps.

  • Page 71: 4.2 Electrical Wiring Of The Et 200C Distributed I/O Station

    Mechanical and Electrical Installation 4.2 Electrical Wiring of the ET 200C Distributed I/O Station Introduction Both grounded and ungrounded configurations are possible. The following two sections include a circuit example for Grounded configuration and Ungrounded configuration. The text contains code numbers, which are references to the respective dia- gram.

  • Page 72: Grounded Configuration

    You need a fuse (2) for the mains connection of the load power supply unit. Use a Siemens load power supply unit of the 6EV1 series (see Catalog ET 1) for power supply and load voltage supply. If you use any other load power supply (24 V DC), note that the voltage must be in the range of 20 V DC to 30 V DC (including ripple).

  • Page 73: Grounded Configuration For Et 200C With 24 V Dc Current/Load Voltage Supply

    Mechanical and Electrical Installation Configuration The grounded configuration for the ET 200C is shown below. ET 200C Conn. Connection for Grounded Configuration ET 200C Sensor/ Actuator Sensor/ Actuator Figure 4-1 Grounded Configuration for ET 200C with 24 V DC Current/Load Voltage Supply ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 74: Ungrounded Configuration

    You need a fuse (2) for the mains connection of the load power supply unit. Use a Siemens load power supply unit of the 6EV1 series (see Catalog ET 1) for power supply and load voltage supply. If you use any other load power supply (24 V DC), note that the voltage must be in the range of 20 V DC to 30 V DC (including ripple).

  • Page 75: Ungrounded Configuration For Et 200C

    Mechanical and Electrical Installation Configuration The ungrounded configuration for the ET 200C is shown below. (7) >U ET 200C Conn. ET 200C Sensor/ Actuator Sensor/ Actuator Figure 4-2 Ungrounded Configuration for ET 200C ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 76: 4.3 Wiring Of The Et 200C

    Mechanical and Electrical Installation 4.3 Wiring of the ET 200C Introduction Prefabricated cables are available from Siemens for the bus connection and the power/load voltage supply (see section 3.10). If you use prefabricated cables, you do not have to read the following section.
  • Page 77 Mechanical and Electrical Installation The corresponding 5-pin circular connectors with pin inserts are available from companies such as Kostal or Lumberg. Rules: Circular The following applies for all connections to circular connectors: Connectors/ Remove the cable insulation so that the screw is tightly held by the Sockets clamping ring in the circular connector.

  • Page 78: Wiring Of The Bus Connection

    Mechanical and Electrical Installation 4.3.1 Wiring of the Bus Connection Note The bus connection is a 12-pin socket of the ET 200C module. Introduction The following ET 200C modules have a bus connection: Digital modules (2 bus connections) Analog modules (2 bus connections) T connector (2 bus connections –...

  • Page 79: Pin Assignment Of The Bus Connection Where Only The Sinec L2-Dp Is Connected

    Mechanical and Electrical Installation Connection The SINEC L2-DP and power supply can be connected in one of three ways: Options SINEC L2-DP only connected to the bus connection Power supply only connected to the bus connection SINEC L2-DP and power supply connected to a bus connection. Warning If you connect an external power supply to a bus connection, It is only permissible to connect the 2-core (!) SINEC L2 bus cable to the...

  • Page 80: Pin Assignment Of The Bus Connection Where Only The Power Supply Is Connected

    Mechanical and Electrical Installation Wiring of the Bus Connection, Continued Connecting only If you only wish to connect the power supply, you require power supply 12-pin circular connectors 3-core cable with a diameter of 6 to 10 mm. Connect the circular connectors in accordance with the following table: Table 4-4 Pin Assignment of the Bus Connection where only the Power Supply is Connected...

  • Page 81: Wiring Of Et 200C; Di 8

    Mechanical and Electrical Installation 4.3.2 Wiring of ET 200C; DI 8 DC 24V (6ES7 141-0BF00-0XB0) Connecting Inputs To wire the inputs you will require 5-pin circular plugs Flexible 4-core Cu cables with a minimum core cross-section of 0.75 mm Connect the inputs in accordance with the pin assignment in the following table.

  • Page 82: Sensor Supply Returned To Input Without Load

    Mechanical and Electrical Installation Wiring of ET 200C; DI 8 DC 24V (6ES7 141-0BF00-0XB0), Continued Return Sensor The following must be noted if you feed the sensor supply of an input di- Supply to Inputs rectly to an input (”Read back output” function): If no load is connected, –...

  • Page 83: Dc 24V/0.5A (6Es7 142-0Bf00-0Xb0) Dc 24V/2A (6Es7 142-0Bf10-0Xb0)

    Mechanical and Electrical Installation 4.3.3 Wiring of ET 200C; DO 8 DC 24V/0.5A (6ES7 142-0BF00-0XB0) and ET 200C; DO 8 DC 24V/2A (6ES7 142-0BF10-0XB0) Connecting To wire the outputs you will require Outputs 5-pin circular plugs Flexible 3-core Cu cables with a minimum core cross-section of 0.75 mm Connect the outputs in accordance with the pin assignments in the table below.

  • Page 84: Output Returned To Input Without Load

    Mechanical and Electrical Installation Wiring of ET 200C; DO 8 DC 24V/0.5A (6ES7 142-0BF00-0XB0) and ET 200C; DO 8 DC 24V/2A (6ES7 142-0BF10-0XB0), Continued Return Outputs to If you run an output or sensor supply input directly to an input (“Read back Inputs output”...

  • Page 85: Wiring Of Et 200C; Di 16/Do 16

    Mechanical and Electrical Installation 4.3.4 Wiring of ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0) Connecting To wire the inputs/outputs you will require Inputs/Outputs 5-pin circular plugs Flexible 3-core Cu cables with a minimum core cross-section of 0.75 mm Connect the inputs in accordance with the pin assignments in the following table.

  • Page 86: Output Returned To Input Without Load

    Mechanical and Electrical Installation Wiring of ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0), Continued Return Outputs to If you run an output or sensor supply input directly to an input (“Read back Inputs output” function), you must take the following into account: If no load is connected, –...

  • Page 87: Dc 24V/2A

    Mechanical and Electrical Installation 4.3.5 Wiring of ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL10-0XB0) Connecting Inputs Connect the signal lines to the screw terminals in the module. and Outputs Proceed as follows: 1. Open the module using a screwdriver. 2.

  • Page 88: Arrangement Of Screw Terminals Of Et 200C Di 16/Do 16 Dc 24V/2A (6Es7 143-0Bl10-0Xb0)

    Mechanical and Electrical Installation Wiring of ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL10-0XB0), Continued Arrangement of Figure 4-10 shows the arrangement of the screw terminals of ET 200C; the screw DI 16/DO 16 DC 24V/2A (6ES7 143-0BL10-0XB0) terminals Q0.1 Q0.0 I0.1...

  • Page 89: Wiring Of Et 200C; Ai 4/8

    Mechanical and Electrical Installation 4.3.6 Wiring of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0KB0) Connecting Inputs Connect the signal cables to the screw terminals on the lower printed-circuit board in the module. Proceed as follows: 1. Open the module using a screwdriver. 2.

  • Page 90: Wiring Of Et 200C; Ai 4/8

    Mechanical and Electrical Installation Wiring of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0KB0), Continued Terminal Connect the signal lines to the terminals in accordance with the table below. Assignment Table 4-11 Connection Assignment of the Inputs of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0KB0) Terminal Assignment for connection of ...

  • Page 91: Dil-Switch Blocks In The Et 200C; Ai

    Mechanical and Electrical Installation Arrangement of Figure 4-12 shows the arrangement of screw terminals and DIL switches in Screw Terminals the ET 200C; AI 4/8 12 Bit. and DIL Switches Screw terminal labels for Screw terminal labels resistance thermometers for thermocouples and voltage sensors COMP DIL switches...
  • Page 92 Mechanical and Electrical Installation Wiring of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0KB0), Continued Thermocouple: The illustration on this page shows how thermocouples are connected for Floating floating measurement and external floating compensation: Measurement and Floating External Compensation Compensator COMP Thermal Coupling...
  • Page 93 Mechanical and Electrical Installation Thermocouple: The illustration on this page shows how thermocouples are connected for Non-Floating non-floating measurement and external non-floating compensation: Measurement and Non-Floating External Compensation Compensation COMP Thermal Coupling Shield Figure 4-14 Connection to ET 200C; AI 4/8 12 Bit of Thermocouples for Non-Floating Measurement and External Non-Floating Compensation ET 200C Distributed I/O Station...
  • Page 94 Mechanical and Electrical Installation Wiring of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0KB0), Continued Thermocouple: The illustration on this page shows how thermocouples are connected for Non-Floating non-floating measurement and internal compensation: Measurement and Internal Compensation COMP Schirm Figure 4-15 Connection to ET 200C;...
  • Page 95 Mechanical and Electrical Installation Resistance The resistance of the resistance thermometer (Pt 100) is measured with the Thermometer, aid of a 2-wire circuit. A maximum of four Pt 100 thermometers can be con- 2-Wire Circuit nected (1 resistance thermometer per channel group). The resistance thermometer receives a constant current supply via terminals / CH2 and CH0...
  • Page 96 Mechanical and Electrical Installation Wiring of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0KB0), Continued Resistance The resistance of the resistance thermometer (Pt 100) is measured with the Thermometer, aid of a 4-wire circuit. 4-Wire Circuit The resistance thermometer receives a constant current Ic via terminals CH0 / CH2 and CH0 / CH2...
  • Page 97 Mechanical and Electrical Installation Voltage Sensors Free channels can be used to connect voltage sensors ( 80 mV, 250 mV, 500 mV, 1000 mV). The settings of the switches in DIL switch block S4 determine whether mea- surement is floating or non-floating (see Section 4.4.2). Note If a voltage sensor is used for floating measurement, the maximum permissible common-mode voltage is U...

  • Page 98: Bit (6Es7 144-0Hf00-0Kb0)

    Mechanical and Electrical Installation 4.3.7 Wiring of ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0KB0) Connecting Inputs Connect the signal cables to the screw terminals on the lower printed-circuit board in the module. Proceed as follows: 1. Open the module using a screwdriver. 2.

  • Page 99: Connection Assignment Of The Inputs Of Et 200C; Ai

    Mechanical and Electrical Installation Terminal Connect the signal lines to the terminals in accordance with the table below. Assignment Table 4-13 Connection Assignment of the Inputs of ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0KB0) Channel Terminal Assignment Measuring line (+) Measuring line (–) Measuring line (+) Measuring line (–)

  • Page 100: Dil Switch Blocks In Et 200C; Ai

    Mechanical and Electrical Installation Wiring of ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0KB0), Continued Arrangement of Figure 4-20 shows the arrangement of screw terminals and DIL switches in Screw Terminals the ET 200C; AI 4 12 bit and DIL Switches DIL Switches Figure 4-20 Arrangement of Screw Terminals and DIL Switches in ET 200C;...
  • Page 101 Mechanical and Electrical Installation Voltage Sensors Voltage sensors can be connected for the measured-value ranges 1.25 V, 2.5 V, 5 V, 10 V. The settings of the switches in DIL switch block S4 determine whether mea- surement is floating or non-floating (see Section 4.4.1). Note If a voltage sensor is used for floating measurement, the maximum permissible common-mode voltage is U...
  • Page 102 Mechanical and Electrical Installation Wiring of ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0KB0), Continued Current Sensors Current sensors can be connected for the measured-value ranges 0 ... 20 mA, 4 ... 20 mA, 20 mA. The parallel shunt resistor must be activated before a channel can be used for measuring currents.

  • Page 103: Wiring Of Et 200C; Ao 4

    Mechanical and Electrical Installation 4.3.8 Wiring of ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0KB0) Connecting Connect the signal cables to the screw terminals on the lower printed-circuit Outputs board in the module. Proceed as follows: 1. Open the module using a screwdriver. 2.

  • Page 104: Pin Assignment, Outputs Of Et 200C; Ao

    Mechanical and Electrical Installation Wiring of ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0KB0), Continued Terminal Connect the signal lines to the terminals in accordance with the table below. Assignment Table 4-15 Pin Assignment, Outputs of ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0XB0) Chan...

  • Page 105: Dil Switch Blocks In Et 200C; Ao

    Mechanical and Electrical Installation Arrangement of Figure 4-24 shows the arrangement of screw terminals and DIL switches in Screw Terminals the ET 200C; AO 4 12 Bit. and DIL Switches DIl Switches Figure 4-24 Arrangement of Screw Terminals and DIL Switches in ET 200C; AO 4 12 Bit Table 4-16 DIL Switch Blocks in ET 200C;...
  • Page 106 Mechanical and Electrical Installation Wiring of ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0KB0), Continued Load in 4-Wire The voltage is connected for the load via two high-resistance sensor lines Circuit (Voltage (S+, S– at terminals ) for each channel. In this way it is possible to –...
  • Page 107 Mechanical and Electrical Installation Load in 2-Wire In a 2-wire circuit there are no sensor lines. A 2-wire circuit for voltage out- Circuit (Voltage put is possible if the line resistance of the signal lines is negligible with Output) respect to the load resistance. Close the DIL switches in DIL switch block S2 in order to obtain a precise output voltage in the 2-wire circuit.
  • Page 108 Mechanical and Electrical Installation Wiring of ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0KB0), Continued Load in 2-Wire The illustration below shows how to connect loads in a 2-wire circuit for cur- Circuit (Current rent output. Output) Shield Figure 4-27 Connection of Loads to ET 200C;...

  • Page 109: Wiring Of The Load Voltage Supply

    Mechanical and Electrical Installation 4.3.9 Wiring of the Load Voltage Supply Introduction The digital output module ET 200C; DO 8 DC 24V/0.5A and ET 200C; DO 8 DC 24V/2A are each equipped with a connection for the load supply voltage. The load supply voltage can be also be routed from an ET 200C; DO 8 DC 24V/0.5A module via a second connection to a further digital module with outputs.

  • Page 110: 4.3.10 Wiring Of The External Power Supply To The Ps Connector

    Mechanical and Electrical Installation 4.3.10 Wiring of the External Power Supply to the PS Connector Introduction An external power supply must be connected to the power supply connector. Connecting To connect the external power supply you will require External Power 6-pin circular socket Supply Flexible 3-core Cu cables:...

  • Page 111: 4.4 Setting Dil Switches On Analog Modules Of Et 200C

    Mechanical and Electrical Installation 4.4 Setting DIL Switches on Analog Modules of ET 200C Introduction In the following analog modules, the lower printed-circuit board accommo- dates the terminal block plus a number of DIL switch blocks: ET200C; AI 4/8 12 bit ET200C;...

  • Page 112: Setting The Station Number Of Analog Modules By Means Of Dil Switch Block S1

    Mechanical and Electrical Installation 4.4.1 Setting the Station Number of Analog Modules by Means of DIL Switch Block S1 Basic Requirement DIL switch block S1 is in the default position (as delivered). In the default position the single DIL switch is set to E (for Electronic parameterization via the bus) and the seven DIL switches in the array for setting the station num- ber are set to 1 (see Figure 4-28).
  • Page 113 Mechanical and Electrical Installation Rules The rules which apply to setting the station number by means of the DIL switches in DIL switch block S1 are as follows: The single DIL switch of DIL switch block S1 must be set to M (for Manual setting via DIL switch).

  • Page 114: Setting The Measurement Type For Analog Module Et 200C; Ai

    Mechanical and Electrical Installation 4.4.2 Setting the Measurement Type for Analog Module ET 200C; AI 4/8 12 Bit Basic Requirement The lower printed-circuit board in the analog module ET 200C; AI 4/8 12 Bit accommodates the following module-specific DIL switch blocks: Table 4-19 Module-Specific DIL Switch Blocks in ET 200C;...

  • Page 115: Dil Switches In Dil Switch Block S2

    Mechanical and Electrical Installation Setting DIL Switch DIL switch block S2 on the AI 4/8 module enables you to select 2-wire or Block S2 4-wire connection for Pt 100 resistance thermometers. Set DIL switch block S2 as follows: Table 4-20 DIL Switches in DIL Switch Block S2 DIL switch Default Switch ON...

  • Page 116: Setting Measurement Type For Analog Module Et 200C; Ai 4/8

    Mechanical and Electrical Installation Setting Measurement Type for Analog Module ET 200C; AI 4/8 12 Bit, Continued Note If you use a 2-wire circuit for measuring with thermocouples or for voltage measurement, make sure that the corresponding DIL switch in DIL switch block S2 is ON.

  • Page 117: Dil Switches In Dil Switch Block S4

    Mechanical and Electrical Installation Setting DIL Switch DIL switch block S4 on the AI 4/8 module enables you to select floating/non- Block S4 floating measurement. Set DIL switch block S4 as follows: Table 4-22 DIL Switches in DIL Switch Block S4 DIL switch Default Switch ON...

  • Page 118: Setting Measurement Type For Analog Module Et 200C Ai 4 12 Bit

    Mechanical and Electrical Installation 4.4.3 Setting Measurement Type for Analog Module ET 200C; AI 4 12 Bit Basic Requirement The lower printed-circuit board in the analog module ET 200C; AI 4 12 Bit accommodates the following module-specific DIL switch block: Table 4-23 Module-Specific DIL Switch Block in ET 200C;...

  • Page 119: Dil Switches In Dil Switch Block S5

    Mechanical and Electrical Installation Setting DIL Switch DIL switch block S5 on the AI 4 module enables you to select voltage or cur- Block S5 rent measurement and floating or non-floating measurement. Set DIL switch block S5 as follows: Table 4-24 DIL Switches in DIL Switch Block S5 DIL switch block Default Switch ON...

  • Page 120: 12 Bit

    Mechanical and Electrical Installation 4.4.4 Setting Connection Mode for Analog Module ET 200C; AO 4 12 Bit Basic Requirement The lower printed-circuit board in the analog module ET 200C; AO 4 12 Bit accommodates the following module-specific DIL switch block: Table 4-25 Module-specific DIL-switch block in ET 200C;...

  • Page 121: Dil Switches In Dil Switch Block S2

    Mechanical and Electrical Installation Setting DIL Switch DIL switch block S2 on the AO 4 module enables you to select 2-wire or Block S2 4-wire connection. Set DIL switch block S2 as follows: Table 4-26 DIL Switches in DIL Switch Block S2 DIL switch Default Switch ON...
  • Page 122 Mechanical and Electrical Installation ET 200C Distributed I/O Station 4-54 EWA 4NEB 812 6119-02b...
  • Page 123 Address Assignment and Parameterization with COM ET 200 Introduction This chapter is based on the ET 200 Distributed I/O System manual. The ET 200 Distributed I/O System manual contains basic information on COM ET 200. Address assignment is an important aspect of COM ET 200. In the ET 200 Distributed I/O System manual, you will find information on the type of ad- dress assignment (linear addressing or dual-port RAM addressing).

  • Page 124: Address Assignment With Com Et 200 V4

    4.1). If you are currently working with COM ET 200 V4.0, you can ob- tain Version 4.1 of COM ET 200 free of charge from your contact at Siemens. Alternatively, you can download the appropriate type file from the interface centre via modem under the following mailbox number: Tel.: +49 911/73-7972...

  • Page 125: Enter Station Number

    Address Assignment and Parameterization with COM ET 200 5.1.1 Enter Station Number Basic Requirement You have processed the ET 200 system parameters in the COM ET 200 form ”ET 200 SYSTEM PARAMETERS” (see the manual ET 200 Distributed I/O System). Rules Please note the following when editing the station number: An ET 200C station must have a station number between 3 and 124.
  • Page 126 Address Assignment and Parameterization with COM ET 200 Enter Station Number, Continued Example In our example the station is being assigned the station number “3”. Program file selected: TEST@@ET.200 SIMATIC S5 / COM ET 200 CONFIGURING Station number: 3 ENTER HELP EXIT Figure 5-1...

  • Page 127: Enter Address Area And Station Type

    Address Assignment and Parameterization with COM ET 200 5.1.2 Enter Address Area and Station Type Basic Requirement If the station has not already been configured, two additional entry fields “Area” and “Station type” appear in the “CONFIGURING” screen after entry of the station number (see Section 5.1.1).
  • Page 128 Address Assignment and Parameterization with COM ET 200 Enter Address Area and Station Type, Continued Example In our example, a digital input module (6ES7 141-0BF00-0XB0) is to be con- figured. The inputs of the module are addressed linearly in the P peripheral area.

  • Page 129: Enter Station Name, Addresses And Address Identifier

    Address Assignment and Parameterization with COM ET 200 5.1.3 Enter Station Name, Addresses and Address Identifier Basic Requirement After the station type has been entered (see Section 5.1.2), additional entry fields for configuring the inputs and outputs appear in the “CONFIGURING” screen.

  • Page 130: Address Identifiers For Et 200C (Dp Standard)

    Address Assignment and Parameterization with COM ET 200 Enter Station Name, Addresses and Address Identifier, Continued 3. Confirm the entries with <F6> (ENTER). Result COM ET 200 automatically displays the initial module address in the output field ”Module address: Q:”: in field ”I:”...
  • Page 131 Address Assignment and Parameterization with COM ET 200 Example In our example, ET 200C; DI 16/DO 16 DC 24V/2A is to be used for ”Press control”. Addresses: 16 digital inputs: I 0.0 ... 0.7, I 1.0 ... 1.7, 16 digital outputs: Q 0.0 ... 0.7, Q 1.0 ... 1.7, Address identifier: 16 digital inputs: 017 16 digital outputs: 033...
  • Page 132 Address Assignment and Parameterization with COM ET 200 Enter Station Name, Addresses and Address Identifier, Continued Procedure: Enter Table 5-2 contains all of the address identifiers you require for ET 200C. Address Identifiers If the address identifiers are not available, you can have them created by Individually COM ET 200.
  • Page 133 Address Assignment and Parameterization with COM ET 200 Special Points of The process image is created one word at a time by the CPUs 941, 942, 943 Interest with and 944 (AG S5-115U/H series). In the case of ET 200C, this means that two Regard to slave stations can be addressed within one word: Addressing...

  • Page 134: Enter Parameterization Frame With Com Et 200 V4.X

    Address Assignment and Parameterization with COM ET 200 5.1.4 Enter Parameterization Frame with COM ET 200 V4.x Introduction The diagnostic behavior of each individual input or output or the entire mod- ule (16 DI/16 DO) is defined for the digital ET 200C modules using the parameterization frame.
  • Page 135 Address Assignment and Parameterization with COM ET 200 Result The defined diagnostic behavior is stored in the preselected program file. Structure of the The diagnostic behavior of the ET 200C; DI 16/DO 16 DC 24V/2A is de- Parameterization fined in byte 0 of the parameterization frame. Byte 0 contains ”00 ”...
  • Page 136 Address Assignment and Parameterization with COM ET 200 ET 200C Distributed I/O Station 5-14 EWA 4NEB 812 6119-02b...

  • Page 137: Startup And Test With Com Et 200

    Startup and Test with COM ET 200 Startup Options There are 2 options available for starting and testing the ET 200C distributed I/O station: Using the ET 200 handheld Using COM ET 200 and programmer (with interface module CP5410-S5DOS/ST) Handheld Start-up and testing of ET 200C using the ET 200 handheld is described in the ET 200 Handheld manual.

  • Page 138: Connecting The Programmer

    Startup and Test with COM ET 200 Connecting the Programmer Introduction There are two options for starting up the ET 200C station with a programmer and COM ET 200: The ET 200C module is disconnected from the bus. You connect the programmer to the ET 200C module.
  • Page 139 Startup and Test with COM ET 200 Requirements for In order to connect the programmer to the SINEC L2-DP field bus, you will Connecting the require Programmer to the A programmer connector (see Section 3.10), Field Bus An adapter cable (see Section 3.13) and The programmer connecting cable (Order No.

  • Page 140: Starting Up And Testing The Et 200C Distributed I/O Station

    Startup and Test with COM ET 200 Starting Up and Testing the ET 200C Distributed I/O Station Assumption The ET 200C distributed I/O station has been assigned a station number with the ET 200 handheld (see Chapter 9). It is now time to start the station with the programmer and COM ET 200 V4.x.
  • Page 141 Startup and Test with COM ET 200 Example In our example, the ET 200C station is to be assigned the station number “3”. SIMATIC S5 / COM ET 200 Program file selected: TEST@@ET.200 SYSTEM START-UP/TEST: STATION SELECTED Station number: ENTER HELP EXIT Figure 6-3...

  • Page 142: Testing The Et 200C Distributed I/O Station

    Startup and Test with COM ET 200 Testing the ET 200C Distributed I/O Station Basic Requirement Once you have parameterized your ET 200C station (see Section 6.2), COM ET 200 V4.x automatically goes to the ”STARTUP/TEST: STATUS/ CONTROL” form. Procedure: The slot of the input/output port is selected as follows: Select Slot 1.
  • Page 143 Startup and Test with COM ET 200 Example The digital module ET 200C; DO 8 DC 24V/0.5A is tested in our example. Program file selected: TEST@@ET.200 SIMATIC S5 / COM ET 200 START-UP / TEST: STATUS/CONTROL Station number: 6 Station type: C-8DO Station name: PRESS Station status: Slot: 0...
  • Page 144 Startup and Test with COM ET 200 Testing the ET 200C Distributed I/O Station, Continued Procedure: Inputs are tested as follows: Test Inputs 1. Preselect the input signals (sensor signals) for the module. 2. Press <F6> (ENTER). Result: The input data for the selected module and (station) diagnostic data is requested.

  • Page 145: Fault Diagnostics With The Im 308-B

    Fault Diagnostics with the IM 308-B In this Chapter This chapter contains information on diagnosing faults on the ET 200C dis- tributed I/O station. This chapter describes fault detection: via LEDs on the front panel of the module (see Section 7.1) with COM ET 200 V4.x and the programmer (see Section 7.2) via STEP 5 (see Section 7.3) Fault detection via STEP 5 (station diagnostics) is included here for situa-...

  • Page 146: 7.1 Using Leds To Diagnose Problems

    Wire breakage at the sensor supply 4 LEDs lit (red) Internal blowing of fuse 8 LEDs lit (red) Either Undervoltage of the module supply Internal blowing of fuse Ask your SIEMENS contact partner ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 147 The diagnostics message remains for a further 20 s (approx.) in the case of ET 200C; DO 8 DC 24V/2A after the short-circuit has been eliminated (e.g. when an output is reset). Not with ET 200C; DO 8 DC 24V/2A Ask your SIEMENS contact person ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 148 Fault Diagnostics with the IM 308-B Using LEDs to Diagnose Problems, Continued Table 7-3 Fault Messages through LEDs of the ET 200C; DI 16/DO 16 DC 24V/2A Optical Signal Explanation Lit (green) ET 200C; DI 16/DO 16 DC 24V/2A is in the RUN mode (power supply switched on) Lit (green) Load voltage for channel group Q0 present...

  • Page 149: 7.2 Using Com Et 200 V4.X To Diagnose Problems

    Fault Diagnostics with the IM 308-B 7.2 Using COM ET 200 V4.x to Diagnose Problems Introduction The COM ET 200 V4.x software package provides the ”DIAGNOSTICS” form for diagnostics functions. Requirement The following are prerequisites for using the diagnostics functions: You have a programmer with a CP5410-S5DOS/ST programmer bus interface connected to the SINEC L2-DP bus.
  • Page 150 Fault Diagnostics with the IM 308-B Using COM ET 200 V4.x to Diagnose Problems, Continued Example One or several signaling transmitter lines of the ET 200C; DI 8 DC 24V are interrupted or short-circuited in our example. The device-related diagnos- tics have a length of 7 bytes (incl.

  • Page 151: Using Step 5 To Diagnose Problems (Station Diagnosis)

    Fault Diagnostics with the IM 308-B 7.3 Using STEP 5 to Diagnose Problems (Station Diagnosis) Introduction You can use STEP 5 with the IM 308-B master interface for the systematic pinpointing and diagnosis of faults. STEP 5 The table below lists the STEP 5 diagnostics facilities: Diagnostics Facilities Table 7-4...

  • Page 152: Structure Of The Station Diagnostics For Et 200C

    Fault Diagnostics with the IM 308-B Using STEP 5 to Diagnose Problems (Continued) Station 16 bytes per slave station are reserved for the station diagnostics. The 16 by- Diagnostics tes are organized into 8 words. To avoid confusion, the 2 diagnostics bytes of the diagnostics words are re- ferred to below as “Diagnostics address”...
  • Page 153 Fault Diagnostics with the IM 308-B Request The diagnostics are loaded word by word and transferred to the diagnostics Diagnostics word. (The load and transfer operations in this section refer to the default diagnostics address 252). When you use dual-port RAM addressing, the diagnostics word is located in the basic dual-port RAM page.

  • Page 154: Overview" Diagnostics

    Fault Diagnostics with the IM 308-B 7.3.1 “Overview” Diagnostics Introduction The diagnostics ”Overview” includes all stations for which diagnostics data is available. Request The STEP 5 program is programmed as follows: diagnostics ”Overview” Explanation L KY 127,n Store the value 127 (code for T PW 252 diagnostics ”Overview”...
  • Page 155 Fault Diagnostics with the IM 308-B Structure: The structure of the diagnostics word is as follows after the diagnostics Diagnostics Word ”Overview” has been requested: ”Overview” Diagnostics word Diagnostics overview; n = 0, 1, 2, ..., 7 Diagnostics address Diagn. address + 1 5 4 3 2 1 0 7 6 5 4 3 2 1 0 1: Station (n...

  • Page 156: Parameter Assignment And Addressability" Diagnostics

    Fault Diagnostics with the IM 308-B 7.3.2 ”Parameter Assignment and Addressability” Diagnostics Introduction The diagnostics for ”parameter assignment and addressability” cover all stations which can be parameterized and addressed. Request The STEP 5 program is programmed as follows: Diagnostics for ”Parameter Assignment and Explanation...

  • Page 157: Combination Of The Diagnostics "Overview" And Diagnostics For "Parameter Assignment And Addressability"

    Fault Diagnostics with the IM 308-B Structure: The structure of the diagnostics word is as follows after the diagnostics for Diagnostics Word ”Parameter assignment and addressability” have been requested: ”Parameter Assignment and Addressability” Diagnostics word Diagnostics ”Parameter Assignment and Addressability”; n = 0, 1, 2, ..., 7 Diagnostics address Diagn.

  • Page 158: Station Status Diagnostics

    Fault Diagnostics with the IM 308-B 7.3.3 Station Status Diagnostics Introduction The ”Station status 1 to 3” bytes provide information on the station. The ”Master address” byte contains the address of the master station which parameterized the slave station. Request Station The STEP 5 program is programmed as follows: Status 1 and 2 Explanation...
  • Page 159 Fault Diagnostics with the IM 308-B Structure: Following request of the station status 1 and 2 (code = 0), the diagnostics Diagnostics Word word has the following structure: “Station Status 1 and 2” Diagnostics Word ”Station Status 1 and Station Status 2”, Code = 0 Diagnostics address Diagnostics address + 1 ”Station status 1”...

  • Page 160: Station Status (Station Status 3 And Master Address)

    Fault Diagnostics with the IM 308-B Station Status Diagnostics, Continued Request Station The STEP 5 program is programmed as follows: Status 3 and Master Address Explanation L KY n,1 In the ”Diagnostics address” byte, T PW 252 the number of the slave station (n = station nuumber) which requests the master address is to be stored;...

  • Page 161: Manufacturer Identification Diagnostics

    Fault Diagnostics with the IM 308-B 7.3.4 Manufacturer Identification Diagnostics Introduction The “Manufacturer identification” byte describes the type of slave station. Request The STEP 5 program is programmed as follows: Manufacturer Identification Explanation L KY n,2 Store the number of the slave T PW 252 station (n = station number), from which the manufacturer...

  • Page 162: Device-Related Diagnostics - Digital Et 200C

    Fault Diagnostics with the IM 308-B 7.3.5 Device-related Diagnostics – Digital ET 200C Introduction The device-related diagnostics indicate which inputs or outputs are defective. The header provides information on the length of the device-related diagnos- tics. Request Header The STEP 5 program is programmed as follows: and Device-related Diagnostics for 16 DI/16 DO...
  • Page 163 Fault Diagnostics with the IM 308-B Structure: The structure of the diagnostics word is as follows after requesting the header Diagnostics Word and the device-related diagnostics for ET 200C; DI 16/DO 16 DC 24V/DC ”Header” and (code 3): Device-related Diagnostics for Diagnostics Word ”Header”...
  • Page 164 Fault Diagnostics with the IM 308-B Device-related Diagnostics – Digital ET 200C, Continued Request The STEP 5 program is programmed as follows: Device-related Diagnostics for 8 DI, 8 DO and Explanation 8DO/2A L KY n,4 Store the number of the slave T PW 252 station (n = station number), for which the device-related diagnostics...

  • Page 165: Fault Diagnostics With The Im 308-C

    Fault Diagnostics with the IM 308-C In this Chapter This chapter contains information on diagnosing faults on the ET 200C dis- tributed I/O station. This chapter describes fault detection via LEDs on the front panel of the module (see Section 8.1) via STEP 5 (see Section 8.2).

  • Page 166: 8.1 Using Leds To Diagnose Problems

    Wire breakage at the sensor supply 4 LEDs lit (red) Internal blowing of fuse 8 LEDs lit (red) Either Undervoltage of the module supply Internal blowing of fuse Ask your SIEMENS contact partner ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 167 The diagnostics message remains for a further 20 s (approx.) in the case of ET 200C; DO 8 DC 24V/2A after the short-circuit has been eliminated (e.g. when an output is reset). Not with ET 200C; DO 8 DC 24V/2A Ask your SIEMENS contact person ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 168 Fault Diagnostics with the IM 308-C Using LEDs to Diagnose Problems, Continued Table 8-3 Fault Messages through LEDs of the ET 200C; DI 16/DO 16 DC 24V/2A Optical signal Explanation Lit (green) ET 200C; DI 16/DO 16 DC 24V/2A is in the RUN mode (power supply switched on) Lit (green) Load voltage for channel group Q0 present...
  • Page 169 Wire breakage (4/8 AI, 4 AI, 4 AO) Measuring range undershot (4/8 AI, 4 AI) Measuring range overshot (4/8 AI, 4 AI) Remedy: Delete configuration of the ET 200C analog module and reconfigure. Ask your SIEMENS contact person. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 170: Using Step 5 To Diagnose Problems (Station Diagnostics)

    Fault Diagnostics with the IM 308-C Using STEP 5 to Diagnose Problems (Station Diagnostics) Introduction You can use STEP 5 for the systematic pinpointing and diagnosis of faults. STEP 5 The table below lists the STEP 5 diagnostics facilities for operation with Diagnostics IM 308-C: Facilities...

  • Page 171: Structure Of Station Diagnostics For Digital Et 200C Modules

    Fault Diagnostics with the IM 308-C Structure: Station A certain number of bytes is reserved for station diagnostics of each slave Diagnostics station. The precise number depends on the station type. The tables below illustrate the structure of station diagnostics for ET 200C: Table 8-6 Structure of Station Diagnostics for Digital ET 200C Modules Byte...

  • Page 172: 12 Bit

    Fault Diagnostics with the IM 308-C Using STEP 5 to Diagnose Problems (Station Diagnostics), Continued Table 8-7 Structure of Station Diagnostics for ET 200C; AI 4/8 12 Bit Byte Content Diagnostics byte 0 Station status 1 – PROFIBUS DP standard Diagnostics byte 1 Station status 2 –...

  • Page 173: 12 Bit

    Fault Diagnostics with the IM 308-C Table 8-8 Structure of Station Diagnostics for ET 200C; AI 4 12 Bit Byte Content Diagnostics byte 0 Station status 1 – PROFIBUS DP standard Diagnostics byte 1 Station status 2 – PROFIBUS DP standard Diagnostics byte 2 Station status 3 –...

  • Page 174: 12 Bit

    Fault Diagnostics with the IM 308-C Using STEP 5 to Diagnose Problems (Station Diagnostics), Continued Table 8-9 Structure of Station Diagnostics for ET 200C; AO 4 12 Bit Byte Content Diagnostics byte 0 Station status 1 – PROFIBUS DP standard Diagnostics byte 1 Station status 2 –...

  • Page 175: Diagram Illustrating How Station Diagnostics Is Requested With Fb Im308C

    Fault Diagnostics with the IM 308-C Request Station In order to request station diagnostics for an ET 200C station, you must call Diagnostics the FB IM308C function block (FB 192) with the function FCT = SD. The FB IM308C places the station diagnostics in the S5 data block of the CPU opened with the FM IM308C call (data block or marker area).
  • Page 176 Fault Diagnostics with the IM 308-C Using STEP 5 to Diagnose Problems (Station Diagnostics), Continued Example: Request In this example, the FB IM308C (FB 192) is used to request station diagnos- Diagnostics with tics for a slave having station number 3. The diagnostics data will be written FB IM308C to data block DB 10, starting at data word DW 0.
  • Page 177 Fault Diagnostics with the IM 308-C STL: FB 61 Explanation Name :DIA-AL48 DB 10 Move information for diagnostics DW 6 DW 62 alarm to prevent overwriting by DW 7 subsequent diagnostics alarms DW 63 DW 8 DW 64 DW 9 DW 65 DW 10 DW 66...

  • Page 178: Diagnosing The Station Status

    Fault Diagnostics with the IM 308-C 8.2.1 Diagnosing the station status Introduction The ”Station Status 1 ... 3” diagnostics bytes provide information on the station. The ”Master station number” diagnostics byte contains the number of the station which parameterized the slave station. Assumption Station diagnostics of an ET 200C module has been requested by the CPU and is stored in a data block (DB), starting at data word DW n.

  • Page 179: Structure Of The Diagnostics Word (Station Status 1 And Station Status 2)

    Fault Diagnostics with the IM 308-C Read Station The STEP 5 program is programmed as follows: Status 1 and 2 Explanation A DB 10 Call data block (here: DB 10) L DW 0 Load diagnostics word ”station L KH FFC3 status 1 and station status 2”...

  • Page 180: Structure Of The Diagnostics Word "Station Status 3 And Master Station Number"

    Fault Diagnostics with the IM 308-C Diagnosing the Station Status, Continued Read Station The STEP 5 program is programmed as follows: Status 3 and Master Station Number Explanation A DB 10 Call data block (here: DB 10), L DR 1 Load diagnostics word ”station L KB 1 status 3 and master station number...

  • Page 181: (6Es7 145-0Hf00-0Xb0)

    Fault Diagnostics with the IM 308-C 8.2.2 Diagnosing the Manufacturer Identification Introduction The ”manufacturer identification” diagnostics word describes the type of slave station. Assumption Station diagnostics has been requested by the CPU and is stored in a data block DB 10, starting at data word DW n (n = 0). See Table 8-10. Read Manufacturer The STEP 5 program is programmed as follows: Identification...

  • Page 182: Device-Related Diagnostics – Digital Et 200C

    Fault Diagnostics with the IM 308-C 8.2.3 Device-related Diagnostics – Digital ET 200C Introduction Device-related diagnostics indicates which inputs or outputs are defective. The header provides information on the length of the device-related diagnos- tics. Note Device-related diagnostics is possible only with ET 200C stations which have diagnostics capability.
  • Page 183 Fault Diagnostics with the IM 308-C Read The STEP 5 program is programmed as follows: Device-related Diagnostics Explanation A DB 10 Call data block (here: DB 10) L DW 3 Load diagnostics word ”header and L KH 0700 device-related diagnostics” No fault? SPA FBx Evaluate fault in FBx.
  • Page 184 Fault Diagnostics with the IM 308-C Device-related Diagnostics – Digital ET 200C, Continued Structure: The structure of the diagnostics word for device-related diagnostics (in our Device-related example: DW 4) for ET 200C; DI 8 DC 24V; ET 200C; Diagnostics for DO 8 DC 24V/0.5A and ET 200C;...
  • Page 185 Fault Diagnostics with the IM 308-C 8.2.4 Identification- and Device-related Diagnostics – Analog ET 200C Introduction The device-related diagnostics for an analog ET 200C module indicate which faults are reported by the module. The header provides information on the length of the device-related diagnostics. Assumption Station diagnostics of analog ET 200C modules has been requested by the CPU and is stored in a data block DB 10, starting at data word DW n.
  • Page 186 Fault Diagnostics with the IM 308-C Identification- and Device-related Diagnostics – Analog ET 200C, Continued Table 8-13 Position of the Diagnostics Data in the Data Block for ET 200C; AI 4 12 Bit Data word DW n Station status 1 Station status 2 DW n + 1 Station status 3...
  • Page 187 Fault Diagnostics with the IM 308-C Table 8-14 Position of the Diagnostics Data in the Data Block for ET 200C; AO 4 12 Bit Data word DW n Station status 1 Station status 2 DW n + 1 Station status 3 Master station number DW n + 2 Manufacturer identification...

  • Page 188: Structure Of Diagnostics Word For Identification-Related Diagnostics Dw N + 3) For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Identification- and Device-related Diagnostics – Analog ET 200C, Continued Structure: Header The structure of diagnostics word DW n + 3 for identification-related diag- – Identification- nostics of analog ET 200C modules is as follows: related Diagnos- tics (DW n + 3) Diagnostics Word ”Header”...

  • Page 189: Structure Of Diagnostics Word "Header – Device-Related Diagnostics Dw N + 4) For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Structure: Header The structure of diagnostics word DW n + 4 for header – device-related diag- – Device-related nostics of analog ET 200C modules is as follows: Diagnostics (DW n + 4) Diagnostics Word ”Header– Device-related Diagnostics” for Analog ET 200C Modules DL n + 4 DR n + 4...

  • Page 190: Structure Of Diagnostics Word "Device-Related Diagnostics Diagnostics Alarm" (Dw N + 6) For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Identification- and Device-related Diagnostics – Analog ET 200C, Continued Structure: The structure of diagnostics word DW n + 6 for analog ET 200C modules is Device-related as follows: Diagnostics for Diagnostics Alarm (DW n + 6) Diagnostics Word ”Device-related Diagnostics”...

  • Page 191: Structure Of Diagnostics Word "Device-Related Diagnostics Diagnostics Alarm" (Dw N + 8) For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Structure: The structure of diagnostics word DW n + 8 for analog ET 200C modules is Device-related as follows: Diagnostics for Diagnostics Alarm (DW n + 8) Diagnostics Word ”Device-related Diagnostics” for Analog ET 200C Modules DL n + 8 DR n + 8 ”Dev.-rel.

  • Page 192: For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Identification- and Device-related Diagnostics – Analog ET 200C, Continued Structure: The structure of diagnostics word DW n + 10 for analog ET 200C modules is Device-related as follows: Diagnostics for Diagnostics Alarm (DW n + 10) Diagnostics Word ”Device-related Diagnostics”...

  • Page 193: For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Structure: The structure of diagnostics word DW n + 12 for analog ET 200C modules is Device-related as follows: Diagnostics for Diagnostics Alarm (DW n + 12) Diagnostics Word ”Device-related Diagnostics” for Analog ET 200C Modules DL n + 12 DR n + 12 ”Dev.-rel.

  • Page 194: Structure Of Diagnostics Word "Device-Related Diagnostics Limit Value Alarm" (Dw N + 6) For Analog Et 200C Modules

    Fault Diagnostics with the IM 308-C Identification- and Device-related Diagnostics – Analog ET 200C, Continued Structure: The structure of diagnostics word DW n + 6 for analog ET 200C modules is Device-related as follows: Diagnostics for Limit Value Alarm (DW n + 6) Diagnostics Word ”Device-related Diagnostics”...
  • Page 195 Connection of the ET 200 Handheld In this Chapter This chapter describes the connection of the ET 200 handheld for startup and testing of the ET 200C distributed I/O station. In this chapter you will learn which connections are possible for the ET 200 handheld and which rules must be observed.
  • Page 196 Connection of the ET 200 Handheld Connection of the ET 200 Handheld Introduction When connecting the ET 200 handheld to the ET 200C distributed I/O sta- tion, the following rules must be observed. Requirement In order to connect the ET 200 handheld to the ET 200C station, you require adapter cable (see Section 3.13) an ET 200 handheld (from version 4.0) Rules...

  • Page 197: Connection Of Et 200 Handheld For Configuration With Power Supply Connector And Without T Connector

    Connection of the ET 200 Handheld Connection Depending on the configuration of the ET 200C (see Chapter 2 “ET 200C Options Configuration Options”), the following connections are possible for the ET 200 handheld: Configuration with power supply connector and without T connector: External Power Supply conn.

  • Page 198: Of The Et 200C Station For Configuration With Power Supply Connector And T Connector

    Connection of the ET 200 Handheld Connection of the ET 200 Handheld, Continued Connection The handheld can be connected in two different ways for the Options configuration with power supply connector and T connector: (Continued) – Plug the ET 200 handheld into the unassigned bus connector of the ET 200C station: External power supply...
  • Page 199 General Technical Specifications In this Chapter This chapter contains the general technical data. The general technical data comprises a list of all ET 200C modules the standards and specified values which are satisfied by all modules of ET 200C and the criteria applied in testing the modules. ET 200C Distributed I/O Station 10-1 EWA 4NEB 812 6119-02b...
  • Page 200 General Technical Specifications 10.1 Overview of Digital and Analog Modules for the ET 200C ET 200C Module Order number Description Digital modules: ET 200C; DI 8 DC 24 V 6ES7 141-0BF00-0XB0 8 inputs with circular socket connectors ET 200C; DO 8 DC 24 V/0.5A 6ES7 142-0BF00-0XB0 8 outputs with circular socket connectors...
  • Page 201 General Technical Specifications 10.2 General Technical Specifications Climatic Environmental Conditions Drop and topple to to IEC 1131-2 IEC 68-2-31 Tested with Height of fall 100 mm Temperature, operation – 25 ... + 60 C Electromagnetic Compatibility (EMC)/ Temperature, – 40 ... + 70 C Noise Immunity storage/transport Electrostatic discharge test...
  • Page 202 General Technical Specifications ET 200C Distributed I/O Station 10-4 EWA 4NEB 812 6119-02b...
  • Page 203 Digital Modules In this Chapter This chapter contains technical details of the digital ET 200C modules. ET 200C Distributed I/O Station 11-1 EWA 4NEB 812 6119-02b...
  • Page 204 Digital Modules 11.1 Digital Input Module ET 200C; DI 8 DC 24V (6ES7 141-0BF00-0BX0) Technical Specifications Supply Voltage for Inputs, Sensor Supply and Internal Logic Baud rates 9.6/19.2/93.75/187.5/500/ Nominal value (L+) 24 V DC 1500/3000 /6000 12000 kbaud Permissible range 20 to 30 V Mains buffering (without typ.
  • Page 205 Digital Modules Block Diagram Simplified representation of the potentials of the digital input module ET 200C; DI 8 DC 24V: 24 V Input SINEC L2-DP 12-pin bus connection Logic SINEC L2-DP Figure 11-1 Digital Input Module ET 200C; DI 8 DC 24V: Block Diagram Parameterization You define the diagnostics behavior of the ET 200C;...
  • Page 206 Digital Modules Digital Input Module ET 200C; DI 8 DC 24V (6ES7 141-0BF00-0XB0), Continued Dimension Dimension drawing for digital input module ET 200C; DI 8 DC 24 V: Drawing Figure 11-2 Digital Input Module ET 200C; DI 8 DC 24 V; Dimension Drawing ET 200C Distributed I/O Station 11-4 EWA 4NEB 812 6119-02b...
  • Page 207 Digital Modules Dimension Dimension drawing for the digital input module ET 200C; DI 8 DC 24V Drawing with T connector and plug connectors (with pin/socket inserts): 1: Observe the bending radii of the cable when installing the module. Figure 11-3 Digital Input Module ET 200C;...
  • Page 208 Digital Modules 11.2 Digital Output Module ET 200C; DO 8 DC 24V/0.5A (6ES7 142-0BF00-0XB0) Technical Specifications Supply Voltage for Outputs, Load Voltage Supply and Internal Logic Baud rates 9.6/19.2/93.75/187.5/500/ Nominal value (L+) 24 V DC 1500/3000 /6000 12000 kbaud Permissible range 20 to 30 V Mains buffering (without typ.
  • Page 209 Digital Modules Block Diagram Simplified representation of the potentials of the digital output module ET 200C; DO 8 DC 24V/0.5A: 6-pin Output load voltage connection 24 V SINEC Logic L2-DP 12-pin bus connection SINEC L2-DP Figure 11-4 Digital Output Module ET 200C; DO 8 DC 24V/0.5A: Block Diagram ET 200C Distributed I/O Station 11-7...
  • Page 210 Digital Modules Digital Output Module ET 200C; DO 8 DC 24V/0.5A (6ES7 142-0BF00-0XB0), Continued Parameterization You define the diagnostics behavior of the ET 200C; DO 8 DC 24 V/0.5A with the COM ET 200 parameterization software. The table below lists the diagnostics parameters for the ET 200C; DO 8 DC 24 V/0.5A: Table 11-2...
  • Page 211 Digital Modules Dimension Dimension drawing for digital output module ET 200C; Drawing DO 8 DC 24 V/0.5A Figure 11-5 Digital Output Module ET 200C; DO 8 DC 24 V/0.5A; Dimension Drawing ET 200C Distributed I/O Station 11-9 EWA 4NEB 812 6119-02b...
  • Page 212 Digital Modules Digital Output Module ET 200C; DO 8 DC 24V/0.5A (6ES7 142-0BF00-0XB0), Continued Dimension Dimension drawing for the digital output module ET 200C; Drawing DO 8 DC 24V/0.5A with T connectors and plug connectors (with pin/ socket inserts): 1: Observe the bending radii of the cable when installing the module. Figure 11-6 Digital Output Module ET 200C;...
  • Page 213 Digital Modules 11.3 Digital Output Module ET 200C; DO 8 DC 24V/2A (6ES7 142-0BF10-0XB0) Technical Specifications Outputs Baud rates 9.6/19.2/93.75/187.5/500/ Number of outputs 1500/3000 /6000 Connection via 5-pin circular 12000 kBaud connector Mains buffering typ. 20 ms 3-wire connection per (without sensor and load channel voltage supply)
  • Page 214 Digital Modules Digital Output Module ET 200C; DO 8 DC 24V/2A (6ES7 142-0BF10-0XB0), Continued Block Diagram Simplified representation of the potentials of the digital output module ET 200C; DO 8 DC 24V/2A: 6-pin load load voltage Output connection 24 V SINEC Logic L2–DP...
  • Page 215 Digital Modules Parameterization You define the diagnostics behavior of the ET 200C; DO 8 DC 24 V/2A with the COM ET 200 parameterization software. The table below lists the diagnostics parameters for the ET 200C; DO 8 DC 24 V/2A: Table 11-3 Parameters for Digital Output Module ET 200C;...

  • Page 216: Digital Output Module Et 200C; Do

    Digital Modules Digital Output Module ET 200C; DO 8 DC 24V/2A (6ES7 142-0BF10-0XB0), Continued Dimension Dimension drawing for digital output module ET 200C; DO 8 DC 24 V/2A Drawing Figure 11-8 Digital Output Module ET 200C; DO 8 DC 24 V/2A; Dimension Drawing ET 200C Distributed I/O Station 11-14...
  • Page 217 Digital Modules Dimension Dimension drawing for the digital output module ET 200C; Drawing DO 8 DC 24V/2A with T connectors and plug connectors (with pin/socket inserts): 1: Observe the bending radii of the cable when installing the module. Figure 11-9 Digital Output Module ET 200C;...
  • Page 218 Digital Modules 11.4 Digital Input/Output Module ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0 and 6ES7 143-0BL10-0XB0) Technical Specifications Inputs Baud rates 9.6/19.2/93.75/187.5/500/ Number of inputs 1500/3000 /6000 Connection 12000 kbaud 6ES7 143-0BL00-0XB0 via 5-pin circular connec- Mains buffering typ.
  • Page 219 Digital Modules Outputs (continued) Electrical isolation Yes, 500 V between internal logic and outputs Load voltage supply Nominal value (L1) 24 V DC Permissible range 20 ... 30 V (incl. ripple = max. 3.6 V) Output current for ”1” signal Nominal value 2 A per channel Permissible range...
  • Page 220 Digital Modules Digital Input/Output Module ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0 and 6ES7 143-0BL10-0XB0), Continued Block Diagram Simplified representation of the potentials of the digital input/output module ET 200C; DI 16/DO 16 DC 24V/2A: 6-pin load Output Q0 voltage connection Output Q1...
  • Page 221 Digital Modules Parameterization You define the diagnostics behavior of the ET 200C; DI 16/DO 16 DC 24 V/2A with the COM ET 200 parameterization software. The table below lists the diagnostics parameters for the ET 200C; DI 16/DO 16 DC 24 V/2A: Table 11-4 Parameters for Digital Input/Output Module ET 200C;...

  • Page 222: Dc 24V/2A (6Es7 143-0Bl00-0Xb0)

    Digital Modules Digital Input/Output Module ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0 and 6ES7 143-0BL10-0XB0), Continued Dimension Dimension drawing for the digital input/output module ET 200C; Drawing DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0): ET 200C ET 200C DI 16/DO 16 DC 24 V I .0...
  • Page 223 Digital Modules Dimension Dimension drawing for the digital input/output module ET 200C; Drawing DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0): ET 200C ET 200C DI 16/DO 16 DC 24 V I .0 Q .0 I .1 Q .1 I .2 Q .2 I .3 Q .3...

  • Page 224: Digital Input/Output Module Et 200C; Di 16/Do

    Digital Modules Digital Input/Output Module ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0 and 6ES7 143-0BL10-0XB0), Continued Dimension Dimension drawing for the digital input/output module ET 200C; Drawing DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0): ET 200C ET 200C DI 16/DO 16 DC 24 V I .0...

  • Page 225: Di 16/Do 16 Dc 24V/2A (6Es7 143-0Bl00-0Xb0)

    Digital Modules Dimension Dimension drawing for the digital input/output module ET 200C; Drawing DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0XB0): ET 200C ET 200C DI 16/DO 16 DC 24 V I .0 Q .0 Q .1 I .1 Q .2 I .2 I .3 Q .3...
  • Page 226 Digital Modules ET 200C Distributed I/O Station 11-24 EWA 4NEB 812 6119-02b...
  • Page 227 Analog Modules In this Chapter This chapter contains technical data for the analog modules of ET 200C. In addition to the technical data, this chapter also describes the measurement types and the measured-value presentation of the analog modules. ET 200C Distributed I/O Station 12-1 EWA 4NEB 812 6119-02b...

  • Page 228: Analog Input Module Et 200C; Ai

    Analog Modules 12.1 Analog Input Module ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0) Technical Data Inputs (Continued) Transfer rates 9.6/19.2/93.75/187.5/ Characteristic linearization for the following 500/1500 kbaud thermocouples Types N, K, T, U, J, E Bus protocol DP standard to IEC 584 Type L to DIN 43710...
  • Page 229 Analog Modules Inputs (Continued) Inputs (Continued) Measuring principle integrating Operational limit (for entire voltage-frequency temperature range, referenced conversion to input range) 80 mV Integration/conversion time/resolution (per channel) from 250 to 1000 mV 0.6 % parameterizable Thermocouples 10 K Integration time in ms Resistance Basic conversion time incl.

  • Page 230: Bit

    Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Block Diagram Simplified representation of the potentials of the ET 200C analog input mod- ule; AI 4/8 12 bit: Galvanic isolation CH 0 Channel activation CH 1 SINEC Control L2-DP...
  • Page 231 Analog Modules Parameterization You parameterize the ET 200C; AI 4/8 12 bit with the aid of the COM ET 200 Windows parameterization software. Where to Look Parameterization of the ET 200C; AI 4/8 12 bit with COM ET 200 Windows is described in detail in the Help system integrated in the COM ET 200 Windows program.
  • Page 232 Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Table 12-1 Parameters for ET 200C Analog Input Module; AI 4/8 12 Bit, Continued Byte Parameter Explanation Range of values 0 ... 7 Measurement type / Set measurement type and measuring Channel not activated measuring range CH 0/1...
  • Page 233 Analog Modules Table 12-2 Parameters for ET 200C Analog Input Module; AI 4/8 12 Bit: Range of Values, Bytes 25 to 28, Continued Range of values for bytes Explanation 17 to 20 Measurement type Pt100 climatic Measurement with Pt100 resistance thermometer (climatic) Measurement type Ni100 climatic Measurement with Ni100 resistance thermometer (climatic) Measurement type Pt100 standard...
  • Page 234 Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Analog Value The analog values of ET 200C; AI 4/8 12 Bit for SIMATIC S5 are Presentation, presented as complements of twos (range: – 2048 ... + 2047 units). SIMATIC S5 The table below shows the analog value presentation for ET 200C;...
  • Page 235 Analog Modules Table of Measured The table below shows the relationship between analog and digitized Values measured values for the measuring ranges: 80 mV, 250 mV, 500 mV 1000 mV. Table 12-5 Digitized Measured Values for ET 200C; AI 4/8 12 Bit (Measuring Ranges: 80 mV, 250 mV,...
  • Page 236 Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Table of Measured The table below shows the relationship between analog and digitized mea- Values sured values for resistance sensors (Pt 100): Table 12-6 Digitized Measured Values for ET 200C; AI 4/8 12 Bit with Resistance Sensors Units Resistance...
  • Page 237 Analog Modules Table of Measured The three tables below contain the relationships between analog and digitized Values measured values for thermocouples of types K, J and L. Table 12-7 Digitized Measured Values for ET 200C; AI 4/8 12 Bit with Linearization; Type K Thermocouple (Nickel-Chromium/Nickel-Aluminum, to IEC 584) Temperature Units...

  • Page 238: Bit

    Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Table 12-8 Digitized Measured Values for ET 200C; AI 4/8 12 Bit with Linearization; Type J Thermocouple (Iron/Copper-Nickel (Constantan), to IEC 584) Units Thermal Temperature Digitized measured value X F O Range e.m.f.
  • Page 239 Analog Modules Table 12-9 Digitized Measured Values for ET 200C; AI 4/8 12 Bit with Linearization; Type L Thermocouple (Iron/Copper-Nickel (Constantan), to DIN 43710) Temperature Units Thermal Digitized measured value X F O Range e.m.f. in e.m.f. in in C in C 15 14 13 12 11 10 9 8 5 4 3 2 1 0...
  • Page 240 Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Analog Value The analog values of ET 200C; AI 4/8 12 Bit for SIMATIC S7 are Presentation, presented as complements of twos. SIMATIC S7 The table below shows the analog value presentation for ET 200C; AI 4/8 12 Bit: Table 12-10 Presentation of an Analog Input Value as Bit Pattern for SIMATIC S7 with ET 200C;...
  • Page 241 Analog Modules Table of Measured The table below shows the digitized measured values for the ET 200C; Values AI 4/8 12 Bit for resistance sensors (Pt 100): Table 12-12 Digitized Measured Values for ET 200C; AI 4/8 12 Bit for Pt 100 Resistance Sensors Temperature Decimal...
  • Page 242 Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Table 12-14 Digitized Measured Values for ET 200C; AI 4/8 12 Bit for Type N Thermocouple Temperature Decimal Hexadecimal Range range in C Type N 1551 32767 7C8C Overflow...
  • Page 243 Analog Modules Table 12-16 Digitized Measured Values for ET 200C; AI 4/8 12 Bit for Type E Thermocouple Temperature Decimal Hexadecimal Range range in C Type E 1201 32767 7FFF Overflow 1200 12000 2EE0 Overload range 1001 10010 271A 1000 10000 2710 Nominal range...

  • Page 244: Bit

    Analog Modules ET 200C Analog Input Module; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0), Continued Dimensional Dimensional drawing for ET 200C analog input module; AI 4/8 12 Bit: Drawing Figure 12-3 ET 200C Analog Input Module; AI 4/8 12 Bit: Dimensional Drawing ET 200C Distributed I/O Station 12-18 EWA 4NEB 812 6119-02b...
  • Page 245 Analog Modules Dimensional Dimensional drawing for ET 200C analog input module; AI 4/8 12 Bit Drawing with T connector: 1: The bending radii of the cable must be taken into account for installation. Figure 12-4 ET 200C Analog Input Module; AI 4/8 12 Bit: Dimensional Drawing with T connector ET 200C Distributed I/O Station...
  • Page 246 Analog Modules 12.2 ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0) Technical Data Inputs (Continued) Transfer rates 9.6/19.2/93.75/187.5/ Permissible potential 500/1500 kbaud differential Input to input max. 10 V Bus protocol DP standard Inputs to M max. Galvanically isolated from to PE or M max.

  • Page 247: Screw Terminals With Assignments In The Et 200C; Ai

    Analog Modules Block Diagram Simplified representation of the potentials of the ET 200C analog input module; AI 4 12 Bit: Galvanic CH 0 isolation Channel activation CH 1 SINEC Control L2-DP logic CH 2 Internal supply CH 3 24 V Figure 12-5 ET200C Analog Input Module;...

  • Page 248: Bit

    Analog Modules ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Parameterization You parameterize the ET 200C; AI 4 12 bit with the aid of the COM ET 200 Windows parameterization software. Where to Look Parameterization of the ET 200C; AI 4 12 bit with COM ET 200 Windows is described in detail in the Help system integrated in the COM ET 200 Windows program.
  • Page 249 Analog Modules Table 12-17 Parameters for ET 200C Analog Input Module; AI 4 12 Bit, Continued Byte Parameter Explanation Range of values 0 ... 7 Upper limit value CH 2 Set upper limit value for channel CH 2 –32768 ... 32767 0 ...
  • Page 250 Analog Modules ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Analog Value The analog values of ET 200C; AI 4 12 Bit for SIMATIC S5 are presented Presentation, as complements of twos (range: – 2048 ... + 2047 units). SIMATIC S5 The table below shows the analog value presentation for ET 200C;...

  • Page 251: Digitized Measured Values For Et 200C; Ai

    Analog Modules Table of Measured The table below shows the relationship between analog and digitized Values measured values for the measuring ranges: 1.25 V, 2.5 V, 5 V, 10 V. Table 12-20 Digitized Measured Values for ET 200C; AI 4 12 Bit (Measuring Ranges: 1.25 V, 2.5 V,...

  • Page 252: Digitized Measured Values For Et 200C; Ai

    Analog Modules ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Table of Measured The tables below show the relationship between analog and digitized mea- Values sured values for the measuring ranges: 0 ... 20 mA, 4 ... 20 mA, 20 mA.
  • Page 253 Analog Modules Table 12-22 Digitized Measured Values for ET 200C; AI 4 12 Bit (Measuring Range: 0 ... 20 mA) Units Measured Digitized measured value X X O Range value in mA 0 ... 20 mA 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 4095 19.9951 0 1 1 1 1 1 1 1 1 1 1 1 1 0 0 1...
  • Page 254 Analog Modules ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Analog Value The analog values of ET 200C; AI 4 12 Bit for SIMATIC S7 are presented Presentation, as complements of twos. SIMATIC S7 The table below shows the analog value presentation for ET 200C; AI 4 12 Bit: Table 12-24 Presentation of an Analog Input Value as Bit Pattern for SIMATIC S7 with ET 200C;...
  • Page 255 Analog Modules Table of Measured The table below shows the digitized measured values of the ET 200C; Values AI 4 12 for the measuring range: 20 mA. Table 12-26 Digitized Measured Values for ET 200C; AI 4 12 Bit (Measuring Range: 20 mA) Measuring...
  • Page 256 Analog Modules ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Table of Measured The table below shows the digitized measured values of the ET 200C; Values AI 4 12 for the measuring ranges: 0 to 20 mA and 4 to 20 mA. Table 12-27 Digitized Measured Values for ET 200C;...
  • Page 257 Analog Modules Dimensional Dimensional drawing for ET 200C analog input module; AI 4 12 Bit: Drawing Figure 12-7 ET 200C Analog Input Module; AI 4 12 Bit: Dimensional Drawing ET 200C Distributed I/O Station 12-31 EWA 4NEB 812 6119-02b...
  • Page 258 Analog Modules ET 200C Analog Input Module; AI 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Dimensional Dimensional drawing for ET 200C analog input module; AI 4 12 Bit with Drawing T connector: 1: The bending radii of the cable must be taken into account for installation. Figure 12-8 ET 200C Analog Input Module;...
  • Page 259 Analog Modules 12.3 ET 200C Analog Output Module; AO 4 12 Bit (6ES7 145-0HF00-0XB0) Technical Data Outputs (Continued) Transfer rates 9.6/19.2/93.75/187.5/ Conversion time 500/1500 kbaud max. 1 ms per output Bus protocol DP standard Settling time for ohmic load 0.15 ms Galvanically isolated from for capacitive load 2.5 ms...

  • Page 260: Bit (6Es7 145-0Hf00-0Xb0)

    Analog Modules ET 200C Analog Output Module; AO 4 12 Bit (6ES7 145-0HF00-0XB0), Continued Block Diagram Simplified representation of the potentials of the ET 200C analog output module; AO 4 12 Bit: Galvanic isolation CH 0 CH 1 SINEC Control L2-DP logic CH 2...
  • Page 261 Analog Modules Parameterization You parameterize the ET 200C; AO 4 12 Bit with the aid of the COM ET 200 Windows parameterization software. Where to Look Parameterization of the ET 200C; AO 4 12 Bit with COM ET 200 Windows is described in detail in the Help system integrated in the COM ET 200 Windows program.

  • Page 262: Substitute Value Output Of Et 200C; Ao

    Analog Modules ET 200C Analog Output Module; AO 4 12 Bit (6ES7 145-0HF00-0XB0), Continued Substitute Value The substitute value output of the ET 200C; AO 4 12 Bit in the event of Output – an interruption in communication is described in the table below: Communication Interrupted Table 12-29 Substitute Value Output of ET 200C;...
  • Page 263 Analog Modules Analog Value The analog values of ET 200C; AO 4 12 Bit for SIMATIC S5 are Presentation, presented as complements of twos. SIMATIC S5 The table below shows the analog value presentation for ET 200C; AO 4 12 Bit: Table 12-30 Presentation of an Analog Input Value as Bit Pattern for ET 200C;...
  • Page 264 Analog Modules ET 200C Analog Output Module; AO 4 12 Bit (6ES7 145-0HF00-0XB0), Continued Table of Measured The table below shows the relationship between analog and digitized output Values signals for the ranges of values: 10 V, 0 ... 10 V, 20 mA, 0 ...

  • Page 265: Presentation Of An Analog Input Value As Bit Pattern For Simatic S7 With Et 200C; Ao 4 12 Bit

    Analog Modules Analog Value The analog values of ET 200C; AO 4 12 Bit for SIMATIC S7 are Presentation, presented as complements of twos. SIMATIC S7 The table below shows the analog value presentation for ET 200C; AO 4 12 Bit: Table 12-33 Presentation of an Analog Input Value as Bit Pattern for SIMATIC S7 with ET 200C;...
  • Page 266 Analog Modules ET 200C Analog Output Module; AO 4 12 Bit (6ES7 145-0HF00-0XB0), Continued Table of Measured The table below shows the digitized output values of the ET 200C; Values AO 4 12 for the output ranges: 20 mA, 0 to 20 mA and 4 to 20 mA. Table 12-34 Digitized Measured Values for ET 200C;...
  • Page 267 Analog Modules Table of Measured The table below shows the digitized output values of the ET 200C; Values AO 4 12 for the output ranges: 0 to 10 V and 10 V. Table 12-35 Digitized Measured Values for ET 200C; AO 4 12 Bit (Output Ranges: 0 to 10 V and 10 V) Output range...
  • Page 268 Analog Modules ET 200C Analog Output Module; AO 4 12 Bit (6ES7 144-0HF00-0XB0), Continued Dimensional Dimensional drawing for ET 200C analog output module; AO 4 12 Bit: Drawing Figure 12-11 ET 200C Analog Output Module; AO 4 12 Bit: Dimensional Drawing ET 200C Distributed I/O Station 12-42 EWA 4NEB 812 6119-02b...
  • Page 269 Analog Modules Dimensional Dimensional drawing for ET 200C analog output module; AO 4 12 Bit Drawing with T connector: 1: The bending radii of the cable must be taken into account for installation. Figure 12-12 ET 200C Analog Output Module; AO 4 12 Bit: Dimensional Drawing with T connector ET 200C Distributed I/O Station...
  • Page 270 Analog Modules ET 200C Distributed I/O Station 12-44 EWA 4NEB 812 6119-02b...

  • Page 271: Other Et 200C Components

    Other ET 200C Components In this Chapter This chapter contains technical data on the following ET 200C components: T connector Power supply connector Programmer connector Cable Terminating resistor Adapter cable ET 200C Distributed I/O Station 13-1 EWA 4NEB 812 6119-02b...

  • Page 272: T Connector (6Es5 762-2Ct11)

    Other ET 200C Components 13.1 T Connector (6ES5 762-2CT11) Technical Specifications Connections 2 12- pin socket connector 1 12-pin connector Weight approx. 160 g Dimensions (W H L) 46 26 70 mm ET 200C Distributed I/O Station 13-2 EWA 4NEB 812 6119-02b...

  • Page 273: Power Supply Connector (6Es5 762-2Cs11)

    Other ET 200C Components 13.2 Power Supply Connector (6ES5 762-2CS11) Technical Specifications Short-circuit protection Input voltage Electrical isolation Nominal value 24 V DC Insulation rating to VDE 0160 Permissible range 20.4 to 30.2 V DC Internal resistance R typ. 10 m Output voltage Connections 2 12-pin socket...

  • Page 274: Power Supply Connector

    Other ET 200C Components Power Supply Connector (6ES5 762-2CS11), Continued Dimension Dimension drawing for power supply connector: Drawing Figure 13-2 Power Supply Connector: Dimension Drawing ET 200C Distributed I/O Station 13-4 EWA 4NEB 812 6119-02b...

  • Page 275: Programmer Connector (6Es5 762-2Ca12)

    Other ET 200C Components 13.3 Programmer Connector (6ES5 762-2CA12) Technical Specifications Connections 1 12-pin socket without metal cap 1 12- pin socket with metal cap 1 12-pin male connector Weight approx. 220 g Dimensions (W H L) 55 30 63 mm Dimension Dimension drawing for programmer connector with plug connectors (with Drawing...

  • Page 276: Programmer Connector

    Other ET 200C Components Programmer Connector (6ES5 762-2CA12), Continued Dimension Dimension drawing for Programmer Connector: Drawing Coding position Figure 13-4 Programmer Connector: Dimension Drawing ET 200C Distributed I/O Station 13-6 EWA 4NEB 812 6119-02b...

  • Page 277: 13.4 Cables

    Other ET 200C Components 13.4 Cables Cables for SINEC L2-DP and Power Supply Cables for SINEC L2-DP (2-core) (5-core) Surge impedance approx. 135 to 160 Surge impedance approx. 135 to 160 (f = 3 to 20 MHz) (f = 3 to 20 MHz) Loop impedance Loop impedance Effective capacity...

  • Page 278: Terminating Resistor (6Es5 755-2Ca11)

    Other ET 200C Components 13.5 Terminating Resistor (6ES5 755-2CA11) Technical Specifications Connection 1 12-pin socket in metal Weight approx. 70 g Dimensions 26 40 mm (diameter ET 200C Distributed I/O Station 13-8 EWA 4NEB 812 6119-02b...

  • Page 279: Adapter Cable (6Es5 755-8Ca11)

    Other ET 200C Components 13.6 Adapter Cable (6ES5 755-8CA11) Technical Specifications Connections 1 9-pin D sub connector 1 12-pin connector Cable length (without 20 cm plug-in connector) Smallest permissible 7.5 D bending radius ET 200C Distributed I/O Station 13-9 EWA 4NEB 812 6119-02b...
  • Page 280 Other ET 200C Components ET 200C Distributed I/O Station 13-10 EWA 4NEB 812 6119-02b...
  • Page 281 Pin Assignments of the ET 200C Modules In this Chapter This chapter describes the pin assignments of the analog and digital modules in ET 200C. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 282: A.1 Pin Assignments Of Et 200C Digital Modules

    Pin Assignments of the ET 200C Modules Pin Assignments of ET 200C Digital Modules Pin Assignments The pin assignments for the ports of all digital modules are summarized be- low. See section 4.3 for more information on ET 200C wiring. Table A-1 Pin Assignment of Bus Connector for ET 200 C Digital Modules, only SINEC L2-DP Connected...
  • Page 283 Pin Assignments of the ET 200C Modules Table A-4 Pin Assignment, Inputs of ET 200C; DI 8 DC 24V and ET 200C; DI 16/DO 16 DC 24V/2A (6ES7 143-0BL00-0BX0) Input View 24 V DC not used Ground Signal View: mating side View: mating side The 24 V DC at pin 1 is the power supply provided by the module for the sensor.
  • Page 284 Pin Assignments of the ET 200C Modules Pin Assignments of ET 200C Digital Modules, Continued Table A-7 Pin Assignment for Load Voltage Supply, ET 200C Modules with Outputs Load voltage supply P 24 V M 24 V not used not used not used Table A-8 Pin Assignment, External Power Supply at PSU Feed...

  • Page 285: A.2 Pin Assignments Of Et 200C Analog Modules

    Pin Assignments of the ET 200C Modules Pin Assignments of ET 200C Analog Modules Pin Assignments The pin and terminal assignments for the ports of all analog modules are summarized below. See section 4.3 for more information on ET 200C wiring. Table A-9 Pin Assignment of Bus Connector for ET 200C Analog Modules, only SINEC L2-DP Connected...
  • Page 286 Pin Assignments of the ET 200C Modules Pin Assignments of ET 200C Analog Modules, Continued Table A-12 Pin Assignment, Inputs of ET 200C; AI 4/8 12 Bit (6ES7 144-0KH00-0XB0) Terminal Assignment for connection of ... channel resistance sensor channel thermocouple voltage sensor not used Compensator (+)
  • Page 287 Pin Assignments of the ET 200C Modules Table A-13 Pin Assignment, Inputs of ET 200C; AI 4 12 Bit (6ES7 144-0HF00-0XB0) Channel Terminal Assignment Measuring line (+) Measuring line (–) Measuring line (+) Measuring line (–) Measuring line (+) Measuring line (–) Measuring line (+) Measuring line (–) Analog ground (M...
  • Page 288 Pin Assignments of the ET 200C Modules Pin Assignments of ET 200C Analog Modules, Continued Table A-14 Pin Assignment, Outputs of ET 200C; AO 4 12 Bit (6ES7 145-0HF00-0XB0) Channel Terminal 4-wire layout 2-wire layout not used not used Analog output “Voltage” (+) Analog output “Current or Voltage”...
  • Page 289 Type Files Provision of Type All type files needed for the purposes of configuring ET 200 C with Files COM ET 200 V4.x and COM ET 200 Windows are available from the Inter- face Center. You can fetch the type files you need by modem by dialing the following mailbox number: Phone: (+ 49 for Germany) 911/73-7972 Provision of GSD...

  • Page 290: B.1 Type Files, Et 200C Digital Modules For Com Et 200 V4.X

    Type Files Type Files, ET 200C Digital Modules for COM ET 200 V4.x Type Files In order to configure an ET 200C with COM ET 200 V4.x, you must make sure that the type file of the ET 200C module is installed in the directory of COM ET 200 V4.x.

  • Page 291: B.1.1 Type File Sn8010Td.200: Com Et 200 V4.X - C-8Di Dp

    Type file SN8010TD.200: COM ET 200 V4.x - C-8DI DP [char.] ET200C 8DE DC 24V with LSPM 2 MLFB<6ES7 141-0BF00-0XB0> Ident 0x8010H [69 char.] V4.0; [5 char.] C-8DI [18 char.] SIEMENS [11 char.] SIMATIC_S7; [11 char.] ET200 [11 char.] ET200C/24V/DP [16 char.] 32784;...

  • Page 292: B.1.2 Type File Sn8011Td.200: Com Et 200 V4.X - C-8Do Dp

    Type file SN8011TD.200: COM ET 200 V4.x - C-8DO DP [char.] [76 char.] ET200C 8DA DC 24V / 0.5A with LSPM 2 MLFB<6ES7 142-0BF00-0XB0> Ident 0x8011 H V4.0; [5 char.] C-8DO [18 char.] SIEMENS [11 char.] SIMATIC_S7; [11 char.] ET200 [11 char.] ET200C/24V/DP [16 char.] 32785;...

  • Page 293: B.1.3 Type File Sn8012Td.200: Com Et 200 V4.X - C-8Do/2A Dp

    Type file SN8012TD.200: COM ET 200 V4.x - C-8DO/2A DP [char.] [74 char.] ET200C 8DA DC 24V / 2A with LSPM 2 MLFB<6ES7 142-0BF10-0XB0> Ident 0x8012 H V4.0; [5 char.] C-8DO/2A [18 char.] SIEMENS [11 char.] SIMATIC_S7; [11 char.] ET200 [11 char.] ET200C/24V/DP [16 char.] 32786;...

  • Page 294: B.1.4 Type File Sn8013Td.200: Com Et 200 V4.X - C-16Di/16Do/2A Dp

    Type file SN8013TD.200: COM ET 200 V4.x - C-16DI/16DO/2A DP [char.] [73 char.] ET200C 16DE / 16DA DC 24V / 0.5A MLFB<6ES7 143-0BL.0-0XB0> Ident 0x8013 H V4.0; [5 char.] C-16DI/16DO/2A DP; [18 char.] SIEMENS [11 char.] SIMATIC_S7; [11 char.] ET200 [11 char.] ET200C/24V/DP [16 char.] 32787;...

  • Page 295: B.2 Type Files Of Et 200C Analog Modules For Com Et 200 Windows

    Type Files Type Files of ET 200C Analog Modules for COM ET 200 Windows Type Files In order to configure an ET 200C with COM ET 200 Windows, you must make sure that the type file of the ET 200C module is installed in the direc- tory of COM ET 200 Windows.

  • Page 296: B.2.1 Type File Si800Fad.200: Com Et 200 Windows - C-4/8Ai Dp

    Type File SI800FAD.200: COM ET 200 Windows - C-4/8AI DP Type file SI800FAD.200: COM ET 200 Windows - C-4/8AI DP [char.] [71 char.] ET 200C AI4/8 x 12 Bit, MLFB<6ES7 144-0KH00-0XB0>, Siemens-Slave, V 1.0 V5.x; [5 char.] C-4/8AI [18 char.] SIEMENS [11 char.]...
  • Page 297 Type Files Type file SI800FAD.200: COM ET 200 Windows - C-4/8AI DP [char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] PSL023;...
  • Page 298 Type Files Type file SI800FAD.200: COM ET 200 Windows - C-4/8AI DP [char.] ”Measurement type 48 ohms resistance ”00065”; [39 char.] ”Measurement type 150 ohms resistance ”00066”; [39 char.] ”Measurement type 300 ohms resistance ”00068”; [39 char.] ”Measurement type 600 ohms resistance ”00070”;...
  • Page 299 Type Files Type file SI800FAD.200: COM ET 200 Windows - C-4/8AI DP [char.] DBO004”2”External error (wire break) ”1”; [43 char.] DBO004”3”Channel is errored ”1”; [43 char.] DBO004”6”Module not parameterized ”1”; [43 char.] DBO004”7”Module parameterization error ”1”; [43 char.] DBO005”4”Channel information waiting ”1”;...
  • Page 300 Type Files Type file SI800FAD.200: COM ET 200 Windows - C-4/8AI DP [char.] SO000; [6 char.] 016; [4 char.] MLFB000; [8 char.] LSK000; [7 char.] 000; [4 char.] SPT000; [7 char.] HTT000; [7 char.] ET 200C Distributed I/O Station B-12 EWA 4NEB 812 6119-02b...

  • Page 301: B.2.2 Type File Si800Ead.200: Com Et 200 Windows - C-4Ai Dp

    Type File SI800EAD.200: COM ET 200 Windows - C-4AI DP Type file SI800EAD.200: COM ET 200 Windows - C-4AI DP [char.] [70 char.] ET 200C AI 4 x 12 Bit, MLFB<6ES7 144-0HF00-0XB0>, Siemens-Slave, V 1.0 V5.x; [5 char.] C-4AI [18 char.] SIEMENS [11 char.]...
  • Page 302 Type Files Type file SI800EAD.200: COM ET 200 Windows - C-4AI DP [char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] PSL015;...
  • Page 303 Type Files Type file SI800EAD.200: COM ET 200 Windows - C-4AI DP [char.] ”enable (specify limit value) ”00001”; [39 char.] KV004; [6 char.] 004”000”000”143”192”; [21 char.] 004”000”000”155”064”; [21 char.] 004”000”000”143”192”; [21 char.] 067”067”000”021”196”; [21 char.] [3 char.] DKM020; [7 char.] DBO004”0”Module malfunction ”1”;...

  • Page 304: B.2.3 Type File Si800Dad.200: Com Et 200 Windows - C-4Ao Dp

    Type File SI800DAD.200: COM ET 200 Windows - C-4AO DP Type file SI800DAD.200: COM ET 200 Windows - C-4AO DP [char.] [69 char.] ET 200C AO4 x 12 Bit, MLFB<6ES7 145-0HF00-0XB0>, Siemens-Slave, V 1.0 V5.x; [5 char.] C-4AO [18 char.] SIEMENS [11 char.]...
  • Page 305 Type Files Type file SI800DAD.200: COM ET 200 Windows - C-4AO DP [char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] [3 char.] PSL018;...
  • Page 306 Type Files Type file SI800DAD.200: COM ET 200 Windows - C-4AO DP [char.] ”enable (specify limit value) ”00001”; [39 char.] KV004; [6 char.] 004”000”000”143”192”; [21 char.] 004”000”000”155”064”; [21 char.] 004”000”000”143”192”; [21 char.] 131”067”000”037”224”; [21 char.] [3 char.] DKM031; [7 char.] DBO004”1”Internal error ”1”;...
  • Page 307 Safety-Related Guidelines In this Chapter The following guidelines are intended to ensure personal safety as well as to protect the products and equipment connected against damage. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 308: C.1 Active And Passive Faults In Automation Equipment

    (“Berufsgenossenschaften”). Pay particular attention to paragraph 8, “Permissible exceptions when working on live parts”. Repairs may only be carried out by Siemens service personnel or Siemens- authorized repair shops. ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

  • Page 309: C.2 Suggestions For Configuring And Installing A Distributed I/O Station

    Safety-Related Guidelines Suggestions for Configuring and Installing a Distributed I/O Station Warnings A distributed I/O station is often used as a component in a larger system. The suggestions contained in the following warning are intended to help you install your distributed I/O system safely. Warning Adhere to any safety and accident-prevention regulations applicable to your situation and system.
  • Page 310 Safety-Related Guidelines ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 311 Glossary Active nodes Can transmit data to other nodes or request data from other nodes when they have a permission to send (= master station). An active node is, for example, the IM 308-B master interface module. Baud rate Data transmission speed: specifies the number of bits transmitted per second (baud rate = bit rate).
  • Page 312 DP master Master system which communicates with the slave stations in accor- dance with a defined algorithm and supplies the user with data. DP Siemens Bus protocol developed by Siemens. ET 200C Distributed I/O Station Glossary-2 EWA 4NEB 812 6119-02b...
  • Page 313 Earthing measures All measures taken to establish a chassis connection. ET 200 Distributed I/O system from Siemens for connecting distributed I/O stations to the programmable controllers S5-115U ... S5155U or any other adequate master. The ET 200 is characterized by fast response times as only small volumes of data (bytes) are transferred.
  • Page 314 Device master data file. File in which the slave-specific characteristics such as number of inputs and outputs, number of diagnostics bytes, SYNC capabil- ity etc. are defined. One GSD file is available for each Siemens DP standard slave. This file is only necessary if you wish to connect DP standard slaves to a non-Siemens DP master.
  • Page 315 Glossary Master interface Module for distributed configurations. The IM 308-B master interface mod- module ule is used for “connecting” the distributed I/O to the programmable control- ler. Master-slave Bus access method providing for only one active node while all other access method nodes are passive.
  • Page 316 Glossary Protective A conductor required for protective measures against shock currents. It is conductor symbolized by PE. Reference Potential to which the voltages of the circuits concerned are referred and/or potential with respect to which they are measured. Response time Period between an edge at the input and the programmed output signal change.
  • Page 317 The type file contains slave-specific characteristics such as number of inputs and outputs, number of diagnostics bytes, SYNC capability etc. are defined. One type file, which is generated by Siemens and is part of COM ET 200 (from version 4.1), is available for each ET 200C station type. UNFREEZE...
  • Page 318 Glossary ET 200C Distributed I/O Station Glossary-8 EWA 4NEB 812 6119-02b...
  • Page 319 Index Bus segment, Glossary-1 Active nodes, Glossary-1 Adapter cable, 1-4, 2-16, 3-23, 6-2, 6-3, 9-2 connections, 3-23 technical specifications, 13-9 Cables, 1-4, 3-20 Address area, 5-5 made up by the customer, 4-8 Address assignment, 5-1 prefabricated, 4-8 Addressing, 5-1, 5-7 technical specifications, 13-7 Analog input module AI 4 x 12 Bit, 1-3 Characteristics, of ET 200C, 1-4, 1-5, 1-6...
  • Page 320 Distributed I/O, Glossary-2 digital input/output module DP master, Glossary-2 DI 16/DO 16 x DC 24V/2A, 3-8 DP Siemens, Glossary-2 DP standard, Glossary-3 digital output module DO 8 x DC 24V/0.5A, Drill-hole templates, 4-2 digital output module DO 8 x DC 24V/2A,...
  • Page 321 Index Handheld, connect, 9-2 Output channels, 3-5, 3-7, 3-9 Header, 7-18 Outputs Host, Glossary-4 connect for 6ES7 143-0BL10-0XB0, 4-17, 4-19 connecting, 4-15, 4-35 Overview, of digital and analog modules for the ET 200C, 10-2 Individual diagnostics, 7-5, 7-18 ”Overview” diagnostics, Glossary-5 Input channels, 3-3, 3-9 Inputs connect for 6ES7 143-0BL10-0XB0, 4-17,...
  • Page 322 Index Pin assignment (6-pin circular plug) for external power supply, A-4 Screen for load voltage supply, A-4 CONFIGURING (1), 5-3, 5-4 Power supply CONFIGURING (2), 5-5, 5-6 See also Power supply connector CONFIGURING (3), 5-7, 5-9 connect, rules, 2-15 DIAGNOSTICS: OVERVIEW, 7-5 connections, 3-18, 4-10 INDIVIDUAL DIAGNOSTICS, 7-5 external, connect, 4-42...
  • Page 323 Index Technical specifications adapter cable, 13-9 UNFREEZE, Glossary-7 cables, 13-7 Ungrounded configuration, 4-6 digital input module DI 8 x DC 24V, 11-2 rules, 4-6 digital input/output module UNSYNC, Glossary-7 DI 16/DO 16 x DC 24V/2A, 11-16 digital output module DO 8 x DC 24V/0.5A, 11-6 digital output module DO 8 x DC 24V/2A, 11-11...
  • Page 324 Index ET 200C Distributed I/O Station Index-6 EWA 4NEB 812 6119-02b...
  • Page 325 Siemens AG AUT 125 Doku Postfach 1963 D–92209 Amberg Federal Republic of Germany From: Your Name: ............
  • Page 326 Your comments and recommendations will help us to improve the quality and usefulness of our publications. Please take the first available opportunity to fill out this questionnaire and return it to Siemens. Please do not forget to state the title, order number, and release of your manual.
  • Page 327 163 mm 6.42 inches Drill-hole template ET 200C DI 8 DC 24V ET 200C DO 8 DC 24V/0.5 A ET 200C DO 8 DC 24V/2A ET 200C AI 4/8 12 Bit ET 200C AI 4 12 Bit ET 200C AO 4 12 Bit Drill-holes: M4 thread 163 mm...
  • Page 328 163 mm 6.42 inches Drill-hole template ET 200C DI 8 DC 24V ET 200C DO 8 DC 24V/0.5 A ET 200C DO 8 DC 24V/2A ET 200C AI 4/8 12 Bit ET 200C AI 4 12 Bit ET 200C AO 4 12 Bit Drill-holes: M4 thread 163 mm...
  • Page 329 163 mm 6.42 inches Drill-hole template ET 200C DI 8 DC 24V ET 200C DO 8 DC 24V/0.5 A ET 200C DO 8 DC 24V/2A ET 200C AI 4/8 12 Bit ET 200C AI 4 12 Bit ET 200C AO 4 12 Bit Drill-holes: M4 thread 163 mm...
  • Page 330 110 mm Drill-hole template ET 200C DI 16/DO 16 DC 24V/2A Drill-holes: M4 thread ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 331 110 mm Drill-hole template ET 200C DI 16/DO 16 DC 24V/2A Drill-holes: M4 thread ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...
  • Page 332 63 mm 63 mm 2.48 inches 2.48 inches Drill-hole template Drill-hole template Power-supply connector Power-supply connector Drill-holes: M4 thread Drill-holes: M4 thread 63 mm 63 mm 2.48 inches 2.48 inches Drill-hole template Drill-hole template Power-supply connector Power-supply connector Drill-holes: M4 thread Drill-holes: M4 thread 63 mm 63 mm...
  • Page 333 14 mm 14 mm 0.55 inch 0.55 inch 14 mm 14 mm 0.55 inch 0.55 inch 14 mm 14 mm 0.55 inch 0.55 inch ET 200C Distributed I/O Station EWA 4NEB 812 6119-02b...

Table of Contents