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CMK2000 1 ___________________ Introduction 2 ___________________ Safety notes LOGO! 3 ___________________ System overview 4 ___________________ Application planning CMK2000 Operating Instructions 5 ___________________ Installing/mounting 6 ___________________ Connection Generation of user functions 7 ___________________ with LOGO! Configuring and ___________________ 8 commissioning using ETS ___________________ 9 Service and maintenance ___________________ 10 Technical data ___________________ A Appen
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Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger.
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Table of contents 1 Introduction ............................................................................................................................................. 9 1.1 2 3 4 5 Safety notes .......................................................................................................................................... 11 2.1 Safety instructions ...................................................................................................................11 2.2 IT security .
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Table of contents 8 9 10 Configuring and commissioning using ETS ........................................................................................... 39 8.1 Software and hardware requirements (ETS) ......................................................................... 39 8.2 Overview of ETS configuration steps ..................................................................................... 39 8.3 Programming the physical address........................................................
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Table of contents A Appendix............................................................................................................................................... 85 A.1 Certificates and approvals ......................................................................................................85 A.2 A.2.1 A.2.2 A.2.3 A.2.4 Service & Support ...................................................................................................................86 Technical Support ..............
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Table of contents CMK2000 8 Operating Instructions, 11/2015, A5E34877550B/001
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1 Introduction 1.1 Preface Purpose of this documentation These operating instructions contain all the information required for configuring, installing, commissioning and operating the CMK2000.
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Introduction 1.1 Preface Naming conventions and abbreviations The term "CMK2000" or "device" is sometimes used in this documentation instead of the full product name "LOGO! CMK2000 KNX module". If "LOGO! 8" is meant, only the term "LOGO!" is used.
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2 Safety notes 2.1 Safety instructions CAUTION Observe the safety instructions on the inside front cover of this documentation. CMK2000 devices correspond to the approvals printed on the rating plate. If you have questions about whether it is permissible to install the device in the planned environment, please contact your service representative. NOTICE Alterations to the devices are not permitted.
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Safety notes 2.1 Safety instructions Safety extra-low voltage Note Only connect the device via a safety extra-low voltage The device is designed for operation using directly connectable safety extra-low voltage (SELV) with safe electrical isolation according to IEC 60950-1 / EN 60950-1 / VDE 0805-1. The following applies to use in North America: The power supply unit for supplying the device with power must comply with NEC Class 2 in accordance with National Electrical Code (ANSI / NFPA 70).
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Safety notes 2.2 IT security 2.2 IT security IT security guidelines Siemens provides products and solutions with industrial security functions that support the secure operation of plants, solutions, machines, equipment and/or networks. They are important components in a holistic industrial security concept. With this in mind, Siemens’ products and solutions undergo continuous development. Siemens recommends strongly that you regularly check for product updates.
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Safety notes 2.
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3 System overview 3.1 Field of application Image 3-1 LOGO! 8 and CMK2000 The CMK2000 is a communication module from the LOGO! series with KNX interface. The LOGO! 8 can be integrated into the KNX system using the CMK2000. It is then possible to exchange information and data between LOGO! 8 and KNX. The LOGO! 8 is then a universal and flexible control unit in the KNX network.
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System overview 3.2 Features 3.2 Features ● CMK2000 together with LOGO! allows the use of inexpensive actuators and sensors in the KNX environment ● KNX devices can access the signal states of all inputs and outputs of the LOGO! 8. ● Standard LOGO! functions can be used, e.g.: logic functions, ON/OFF delays. ● Various KNX data point types can be made available by CMK2000 and LOGO!. ● Various LOGO! variable types can be sent to KNX devices, e.g.
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System overview 3.3 System configuration 3.3 System configuration System configuration The following picture shows a basic system configuration with a CMK2000 as the communication module between LOGO! and KNX. Image 3-2 CMK2000 configuration example Tasks and meanings of the system components The CMK2000 communication module allows the transfer and system-compatible scaling of data between KNX and LOGO!.
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System overview 3.4 System requirements 3.4 System requirements System requirements ● LOGO! 8 ● 24 V power supply ● KNX bus ● KNX interface (USB or Ethernet) ● Windows PC (for commissioning, maintenance and diagnostics) ● LOGO! Soft Comfort (for programming user functions) ● ETS4 or ETS5 ● A switch from the LOGO! series is recommended for commissioning, maintenance and diagnostics Note Compatibility with the previous versions of the LOGO! 8 does not exist.
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System overview 3.
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System overview 3.
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System overview 3.5 Design 3.
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System overview 3.6 Operator controls and display elements 3.6 Operator controls and display elements 3.6.
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System overview 3.
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System overview 3.6 Operator controls and display elements 3.6.2 Programming key / Reset key The key on the front of the CMK2000 has the following functions depending on how long it is pressed: • Programming key for assigning the physical address via the ETS • Restart CMK2000 Assign physical address (KNX) By briefly pressing the programming key (< 10 seconds), the module switches to the KNX programming mode. In this mode, you can enter the physical address (KNX) using the ETS.
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Application planning 4.1 4 General installation guidelines General installation guidelines The following guidelines must be observed when mounting and connecting the CMK2000: ● When connecting the CMK2000, make sure that you observe all applicable and legally binding standards. Adhere to the relevant national and regional regulations when installing and operating the device. Check with the local authorities regarding the standards and rules to be followed in your particular case.
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Application planning 4.2 Installation location NOTICE Damage due to overheating You must comply with all the instructions regarding the installation site and mounting position. Otherwise the device may malfunction or incur permanent damage as a result of overheating. Pollution degree The CMK2000 is designed for pollution degree 2.
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Application planning 4.3 Transportation 4.3 Transportation The devices must be transported in a clean and dry state, preferably in their original packaging. The transport temperature must be between - 40 °C and + 70 °C. Temperature fluctuations greater than 20 K per hour are not permitted. 4.4 Storage The devices must be stored in clean and dry rooms, preferably in their original packaging. The storage temperature must be between -40 °C and +70 °C. 4.
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Application planning 4.
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Installing/mounting 5.1 5 Installing the CMK2000 The CMK2000 can be mounted on a 35 mm standard mounting rail according to DIN EN 60715 or on a wall / control panel. Permissible installation positions: Horizontal and vertical. Flat mounting is not permissible. Information on selection of the mounting location and on minimum spacing can be found in chapter Installation location (Page 25). Mounting on a standard mounting rail Proceed as follows: 1. Hook the CMK2000 onto the rail. 2.
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Installing/mounting 5.1 Installing the CMK2000 Mounting on a control panel / wall Proceed as follows: 1. Move the sliders ① to the outside until they latch in place. 2. The dimensions for the holes are shown in the following picture. Hole for M4 screw, tightening torque 0.8 Nm to 1.2 Nm. Image 5-2 CMK2000 wall mounting NOTICE If the CMK2000 is not mounted on the wall, the mounting sliders must always be left in the factory-set positions, i.e. within the range shown in the above picture.
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6 Connection 6.1 Safety instructions and guidelines Safety instructions WARNING Risk of electric shock May cause death or serious injury • Voltages > 60 V are present in the control cabinet. Therefore appropriate safety precautions must be taken to prevent contact during commissioning and maintenance work. • Before carrying out any work on the CMK2000 or on connected components, make sure that the installation/system is in a zero-voltage state.
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Connection 6.2 Connecting the power supply 6.2 Connecting the power supply 24 V DC power supply The power supply to the CMK2000 device is made using an external 24 V DC supply for the LOGO! side. Note The CMK2000 bridges brief voltage interruptions (< 1.5 ms) in its 24 V DC supply without influencing the function. Longer voltage interruptions must be buffered by an appropriate power supply unit, e.g. from the LOGO!Power series.
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Connection 6.2 Connecting the power supply Connection Connect the CMK2000 to the power supply as shown below: 24 V DC connection Description ① ② L+ Connection using 2-pole screw terminal (0.5 ... 2.5 mm2), max.. M (ground) torque 0.
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Connection 6.3 Connecting the functional ground 6.3 Connecting the functional ground Connect the functional ground (e.g. from the standard mounting rail) in order to discharge EMI such as bursts or surges to the FE terminal ①. Permissible conductor cross-section: 0.5 ... 6.0 mm2 Image 6-1 Position of FE terminal ① Note EMC-compliant functional grounding • Use as short a stranded-wire conductor as possible with a large cross section.
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Connection 6.5 Connecting the KNX bus NOTICE Do not violate the minimum bending radius limit of the Ethernet cable, otherwise this will result in attenuation of the shielding effect. Furthermore there is a danger that the cable shield will break. Note We recommend using RJ45 connectors from the Siemens FastConnect system as the plugin connectors for the Ethernet cabling. 6.5 Connecting the KNX bus The CMK2000 is connected to the KNX bus using the red/black KNX terminal.
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Connection 6.
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Generation of user functions with LOGO! 7.1 7 Software and hardware requirements (LOGO!) Requirements ● A PC is connected to the LOGO! 8. ● The LOGO! Soft Comfort programming software Version V8.0 or later is installed on the PC. Note CMK2000 is not compatible with previous versions of the LOGO! 8. 7.
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Generation of user functions with LOGO! 7.3 Compatibility with LOGO! 0BA7 projects 7.3 Compatibility with LOGO! 0BA7 projects The following describes how you can proceed with existing LOGO! 0BA7 projects. LOGO! 0BA7 projects can be used further. Changes are only required for the communication direction KNX → LOGO!. Direct writing to analog or digital inputs and outputs by the KNX module is no longer possible.
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Configuring and commissioning using ETS 8.1 8 Software and hardware requirements (ETS) Requirements ● A commissioning PC is connected via a KNX interface to the CMK2000. ● ETS (Version 4 or higher) is installed on the PC. ETS product database The product database for the LOGO! CMK2000 KNX module is available starting with ETS 4 as a knxprod file for downloading. ● http://www.siemens.com/gamma-td (search text "LOGO") 8.
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Configuring and commissioning using ETS 8.3 Programming the physical address 8.3 Programming the physical address Set the device to programming mode using the key on the front of the CMK2000. In this programming mode it is possible to assign (program) the address to the CMK2000 using the ETS. The physical address (1.0.1 to 15.15.254) unambiguously identifies a KNX in a KNX installation. The physical address is assigned using the topology configured in ETS.
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Configuring and commissioning using ETS 8.4 General parameter assignments 8.4 General parameter assignments All KNX products can be configured and assigned parameters using the ETS. Depending on the parameter assignments, the device makes available communication objects with standardized data point types (DPT) for data exchange with other KNX devices.
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Configuring and commissioning using ETS 8.4 General parameter assignments Note Guideline for setting the update rate • If the cycle time of the LOGO! is overloaded due to a high level of data exchange (high update rate), a larger value must be used for the update rate, e.g. 200 ms. • If the response time for LOGO → KNX is too slow, e.g. for switching lights, a smaller value must be selected for the update rate, e.g. 50 ms.
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Configuring and commissioning using ETS 8.4 General parameter assignments Date and time synchronization Two mechanisms are available for date and time synchronization: ● Synchronization of the time used in the KNX network with the time of the LOGO! 8. ● Synchronization of the time used in the LOGO! 8 with the time in the KNX network. Note • The CMK2000 does not have a real-time clock.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels 8.5 Parameter assignments for the KNX channels 8.5.1 Data exchange between KNX and LOGO! Data exchange between KNX and LOGO! is carried out using channels. Each of these channels is able to: ● Receive values from 1 bit up to 4 bytes from KNX or pass them on (transformed if necessary) to LOGO!. ● Pass on data from LOGO! (DI, DO, AI, AQ, VM,...) transformed as KNX data points.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels 8.5.3 LOGO! data types, inputs and outputs Overview The CMK2000 exchanges data with LOGO! via a network connection and thereby directly accesses the variable memory. Inputs/outputs and flags of the LOGO! For all physical inputs and outputs of the LOGO! (I, Q, AI, AQ), as well as for all analog and digital flags, you can specify the number of the object (e.g.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels LOGO! variable memories LOGO! also makes data available in the so-called variable memory, e.g. intermediate results or scaled or calculated display values for an HMI panel. For all data types in the variable memory you can specify the address of the variable memory of the LOGO! 8 from which the values are to be read or to which they are to be written. Note Note that all channels access the same variable memory, i.e.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels 8.5.4 Value update with data transfer from LOGO! to KNX In order to optimize the bus load (message frame rate) on KNX, it is possible to activate sending of values when they change. Each KNX channel can be parameterized such that a KNX message frame is only sent upon certain changes in value.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels 8.5.5 Value scaling of the channels LOGO! and KNX work internally with different ranges of values. Therefore scaling is required for transferring certain data types between KNX and LOGO!. Linear scaling can be parameterized using two interpolation points. Parameter assignment Transfer from LOGO! to KNX Transfer from KNX to LOGO! Linear scaling can be parameterized for the following linked objects.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels Linear scaling between two interpolation points Scaling is specified using 2 interpolation points as parameters per channel. The reference values for the interpolation points are specified in the KNX context and in the LOGO! 8 context.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels Response with different data widths and/or different signs If the selected data format is insufficient for successful scaling, the value is automatically set to the maximum or minimum value, even though the original value would require a higher or lower value. In this case the target value of the scaling is limited and remains in this constraint until the maximum/minimum value is undershot or exceeded again.
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Configuring and commissioning using ETS 8.5 Parameter assignments for the KNX channels 8.5.6 Response upon loss of KNX bus voltage The response upon loss of the KNX bus voltage can be set for the communication direction KNX to LOGO!. Upon loss of KNX bus voltage Upon loss of the KNX bus voltage, you can specify whether ● the last KNX value is sent to LOGO! or ● the value "0" is sent to LOGO! 8.5.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6 Transfer of data from LOGO! to KNX 8.6.1 Overview Data transfer from LOGO! to KNX The CMK2000 allows the transfer of simple digital values. In addition, the linking of two digital values is used which are defined in KNX as "Key operation with two independent keys" (2-bit). Function DPT in KNX Parameter assignment in the ETS tool Normal 1 bit The output information of the LOGO! 8 CPU is mapped 1:1 to the KNX bus.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX Values from the LOGO! variable memory If a value to be transferred is to be read from the variable memory of the LOGO!, the corresponding byte address must be specified. The following byte addresses are possible: ● For 1-byte variable memory: 0 to 850 ● For 2-byte variable memory: 0 to 849 ● For 4-byte variable memory: 0 to 847 If a 1-bit value is involved, the corresponding bit address must be specified in addition.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.3 Transfer of 1-bit values Image 8-7 Data transfer LOGO! to KNX: 1-bit values LOGO! data type Set a 1-bit LOGO! data type as the preselection for the transfer: ● Digital input ● Digital output ● Digital flag ● 1-bit variable memory KNX data type 1 bit - DPT 1.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.4 Special functions: dimming and solar protection 8.6.4.1 Dimming (1 bit) This function makes it possible to switch lamps or groups of lamps on and off or to adjust their dimming using just one bit in the LOGO!. Image 8-8 Data transfer LOGO! to KNX: Dimming - DPT 1.001 and DPT 3.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX Dimming (long setting 500 ms or more) - DPT 3.007 With long setting, dimming is brighter or darker depending on the object value and the last controlled dimming direction. If the dimming actuator was switched off, long setting results in brighter dimming. If the actuator was switched on by short setting, the first long setting results in darker dimming.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.4.2 Dimming (2 bits) with stop message frame The two configured binary tags can be used together with short setting to switch on or off or, together with long setting, to dim brighter or darker. You can select which binary variable is to be used for switching off and dimming darker or for switching on and dimming brighter.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.4.3 Solar protection control (1 bit) This function enables you to to lower or raise solar protection, to stop the movement, or to open and close slats using just one binary variable.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX Stop or Slats open / close (short setting up to 500 ms) - DPT 1.009 In the case of short setting, a message frame is sent which results in stopping of the drive when the solar protection is moving or, when the solar protection is stationary, results in a short movement step opposite to the previous direction of movement saved in the moved object. With closed blind slats, this would result e.g. in opening of the slats by one step.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.4.4 Solar protection control (2 bits) The two configured binary tags can be used together with long setting to raise or lower the solar protection up to the respective end position or, together with short setting, to terminate the movement or to adjust the slats by one step.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX Slats open / close (short setting up to 500 ms) - DPT 1.009 The "Stop" or "Slats open / close" commands are sent via the group address linked to this object. Short setting of the corresponding binary tags in the LOGO! always generates a command to stop the movement or adjust the slats by one step. Which of the binary tags generates an open or close message frame in the case of short setting can be set in the ETS.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.5 Transferring percentage values Percentage values are handled in the LOGO! in the range 0...255. Percentage values DPT 5.001 are frequently used in KNX, where the values for KNX are expected in the range 0...255. Scaling is therefore necessary. Image 8-14 Data transfer LOGO! to KNX: Percentage values LOGO! data type "1-byte variable memory" is predefined as the LOGO! data type. KNX data type 1 byte 0…100% - DPT 5.
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Configuring and commissioning using ETS 8.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.6 Transferring integer values Image 8-15 Data transfer LOGO! to KNX: Integer values LOGO! data type / KNX data type LOGO! data type KNX data type Analog input • 2 bytes unsigned - DPT 7.xxx (default) Analog output • 2 bytes signed - DPT 8.xxx • 1 byte unsigned - DPT 5.010 • 1 byte signed - DPT 6.010 • 2 bytes unsigned - DPT 7.xxx (default) • 2 bytes signed - DPT 8.xxx • 4 bytes unsigned - DPT 12.
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Configuring and commissioning using ETS 8.6 Transfer of data from LOGO! to KNX 8.6.7 Sending float values Image 8-16 Data transfer LOGO! to KNX: Float values LOGO! data type / KNX data type LOGO! data type KNX data type 2-byte variable memory 2-byte float value - DPT 9.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7 Data transfer KNX to LOGO! 8.7.1 Overview Data transfer from KNX to LOGO! Function Normal DPT in KNX 1 bit Configuration in ETS The input information DPT 1.xxx of the KNX bus is mapped 1:1 to the input image of LOGO! 8. Transfer of 1-bit values (Page 69) Digital input with monoflop response. DPT 1.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.2 Supported KNX data types You can use the variable memory and the flags of the LOGO! 8 to exchange data with the KNX bus. Supported KNX data types The following data types are supported for the transfer of data from the KNX bus to the LOGO!: Image 8-17 Data types KNX to LOGO! Settings which are always available All settings are available in the same manner for values in the variable memory and for flags.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.3 Transfer of 1-bit values Image 8-19 KNX to LOGO!: Transfer of 1-bit values KNX data type / LOGO! data type KNX data type 1 bit - DPT 1.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.4 Using digital inputs of the LOGO! 8 as monoflop The monoflop response can be used to map a digital trigger of KNX in the LOGO! 8 direction as a signal with defined duration. The monoflop can be retriggered, i.e. the monoflop time is restarted if another trigger signal is received within the monoflop time. If the bus voltage returns and the current value of KNX is read and is still set, the monoflop time restarts.
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Configuring and commissioning using ETS 8.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.5 Transfer of KNX bus state If the special function "KNX bus state" is configured, the current KNX bus state is transferred directly to the LOGO!. This means that the value is "1" if communication to KNX is OK. The value is "0" if an error has occurred. Note • It may be the case that an error on the KNX bus is only detected following a delay of several seconds.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.6 Transferring percentage values Percentage values with DPT 5.001 are transferred to KNX as 1-byte values and must therefore be rescaled so that they can be optimally processed further as LOGO! analog values. Image 8-24 Data transfer from KNX to LOGO!: Percentage values KNX data type / LOGO! data type KNX data type LOGO! data type 1 byte 0…100% - DPT 5.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.7 Transferring integer values Image 8-25 KNX to LOGO! integer values KNX data type / LOGO! data type KNX data type LOGO! data type 1 byte unsigned - DPT 5.010 1-byte variable memory 1 byte signed - DPT 6.010 1-byte variable memory 2 bytes signed - DPT 8.xxx 2-byte variable memory 2 bytes unsigned - DPT 7.xxx • Analog flag • 2-byte variable memory (default) 4 bytes unsigned - DPT 12.
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Configuring and commissioning using ETS 8.7 Data transfer KNX to LOGO! 8.7.8 Sending float values Image 8-26 KNX to LOGO! float values KNX data type / LOGO! data type KNX data type LOGO! data type 2-byte float value - DPT 9.
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Configuring and commissioning using ETS 8.
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Service and maintenance 9.1 9 Diagnostics und maintenance via web The device provides functions for ● Diagnostics ● Updating the firmware via Ethernet communication. Requirements ● Internet Explorer 10 ● Mozilla Firefox portable Version 31 ● Switch Note • The use of cookies must be permitted in the browser • The web interface is optimized for a resolution of 1280 x 1024 pixels. • Only the connection to a PC is simultaneously supported.
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Service and maintenance 9.2 Cleaning Diagnostics The diagnostics page with the following display appears following logon: Image 9-1 Example of a diagnostics page The LEDs shown in the picture correspond to the states described in section Status LEDs (Page 22). If an error has occurred, you can obtain further information on the error codes from Support (http://support.automation.siemens.com).
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Service and maintenance 9.2 Cleaning 9.2 Cleaning The device is designed for maintenance-free operation. ● Nevertheless, clean the surfaces at regular intervals. ● Remove dirt from the enclosure to avoid impairment of the operator control functions and the enclosure ventilation. 9.3 Disposal The devices described in these instructions can be recycled thanks to their low-pollution design.
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Service and maintenance 9.
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10 Technical data 10.1 Dimensional drawing 10.1.
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Technical data 10.2 Technical specifications 10.2 Technical specifications 10.2.1 Technical specifications Technical specifications 6BK1700-0BA20-0AA0 General information Firmware version • FW update possible Yes Installation type/mounting Installation On 35 standard mounting rail, 4 WM Supply voltage Rated value (DC) 24 V • 12 V DC No • 24 V DC Yes Permissible range, lower limit (DC) 19.2 V Permissible range, upper limit (DC) 28.
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Technical data 10.
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Technical data 10.
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A Appendix A.1 Certificates and approvals Note Approvals are only valid when marked on the product The specified approvals apply only when the corresponding mark is printed on the product. You can check which of the following approvals have been granted for your product by the markings on the type plate. CE marking The CMK2000 device complies with the requirements and protection objectives of the following EC directives.
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Appendix A.2 Service & Support A.2 Service & Support A.2.1 Technical Support Technical Support You can contact the Technical Support experts in Germany at the following number: ● Phone: + 49 (0) 911 895 7222 ● The contact data for Technical Support in other countries can be found in the Siemens contact database (http://w3.siemens.com/aspa_app/). A.2.2 Siemens Industry Online Support Siemens Industry Online Support You can find various services on the Support home page (http://support.automation.
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Glossary Actuator KNX actuators convert received commands into actions. Examples: Actuators for dimmers, shutters/blinds or switches Data point type (DPT) ETS ETS (Engineering Tool Software) is vendor-independent software for commissioning all KNX products which are developed and marketed by the KNX Association. For further information, see www.knx.org. KNX KNX is a global standard for home and building control installations.
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Glossary Physical address Each KNX device in a KNX installation is assigned an unambiguous and unique number, the physical address.
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Index A Approvals, 85 B Basic knowledge Documentation, 9 C CE marking, 85 Certificates and approvals CE marking, 85 Declaration of Conformity, 85 EMC Directive, 85 CMK2000, 21 D Declaration of Conformity, 85 Delivery Unpacking, 27 Documentation Basic knowledge, 9 History, 9 Purpose, 9 Target group, 9 Validity, 9 E EMC Directive, 85 H History Documentation, 9 Minimum spacing, 26 Mounting position, 26 Notes, 26 IT security, 13 L LOGO! Trademark, 9 N Notes Installation, 26 P Purpose Documentation, 9
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Index CMK2000 90 Operating Instructions, 11/2015, A5E34877550B/001