JUMO LOGOSCREEN es Interface Description
  1. Manuals
  2. Brands
  3. JUMO Manuals
  4. Voice Recorder
  5. LOGOSCREEN es
  6. Interface description
JUMO LOGOSCREEN es Interface Description

JUMO LOGOSCREEN es Interface Description

Paperless recorder for secure acquisition of fda-compliant measurement data, profibus dp
Hide thumbs
Table of Contents

Advertisement

Quick Links

Download this manual
es
Paperless Recorder
for secure acquisition of
FDA-compliant
measurement data
B 70.6560.2.3
PROFIBUS DP
Interface Description
11.07/00416051

Advertisement

Table of Contents
loading

Related Manuals for JUMO LOGOSCREEN es

Summary of Contents for JUMO LOGOSCREEN es

  • Page 1 Paperless Recorder for secure acquisition of FDA-compliant measurement data B 70.6560.2.3 PROFIBUS DP Interface Description 11.07/00416051...

  • Page 3: Table Of Contents

    Contents Introduction Preface ......................5 Typographical conventions ................. 6 1.2.1 Warnings ...................... 6 1.2.2 Note signs ....................6 Profibus description Profibus types ....................7 RS485 transmission technology ..............8 PROFIBUS DP ..................... 11 Configuring a PROFIBUS system GSD files ...................... 13 Configuration procedure ................
  • Page 4 5.10.3 Setting the slave address ................37 5.10.4 Diagnosis and status messages ..............37 5.10.5 Acyclic data transmission ................37 5.10.6 Extension of the address range for LOGOSCREEN es and cf ....38 5.10.7 Process data ....................39 5.10.8 PLC data in 16-bit format ................46 5.10.9 Bit-wise coded binary logic signals ............

  • Page 5: Introduction

    1 Introduction 1.1 Preface Please read this manual before starting up the interface. Keep the manual in a place which is accessible to all users at all times. Please assist us to improve this manual. Your suggestions will be welcome. If any difficulties should arise during commissioning, you are asked not to carry out any unauthorized manipulations.

  • Page 6: Typographical Conventions

    1 Introduction 1.2 Typographical conventions 1.2.1 Warnings The signs for Danger and Caution are used in this manual under the following conditions: Danger This symbol is used where there may be danger to personnel if the instruc- tions are disregarded or not followed accurately! Caution This symbol is used where there may be damage to equipment or data if the instructions are disregarded or not followed accurately!

  • Page 7: Profibus Description

    2 Profibus description PROFIBUS is a manufacturer-independent, open fieldbus standard for a wide range of applications in manufacturing, process and building automation. Manufacturer independence and openness are ensured by the international standard EN 50 170. Using PROFIBUS, devices from different manufacturers can communicate without any special interface adjustments.

  • Page 8: Rs485 Transmission Technology

    2 Profibus description 2.2 RS485 transmission technology Transmission takes place according to the RS485 standard. It covers all areas in which a high transmission speed and simple, cost-effective installation are required. A shielded twisted copper cable with one conductor pair is used. The bus structure permits addition and removal of stations or step-by-step commissioning of the system without affecting the other stations.
  • Page 9 2 Profibus description Cable length The maximum cable length depends on the transmission speed. The cable length specified can be extended by using repeaters. It is recommended not to connect more than 3 repeaters in series. Baud rate 19.2 93.75 187.5 1500 12000...
  • Page 10 2 Profibus description Data rate For installation, the use of stub cables must be avoided for data rates above 1.5 Mbit/sec. For important tips on installation, please refer to the Installation Guidelines PROFIBUS DP, Order No. 2.111 by the PNO (Profibus User Organization).

  • Page 11: Profibus Dp

    2 Profibus description 2.3 PROFIBUS DP PROFIBUS DP is designed for high-speed data exchange at the field level. The central control devices, PLC/PC for instance, communicate through a fast serial connection with distributed field devices such as I/O, paperless recorders and controllers. Data exchange with these distributed devices is mainly cyclic.
  • Page 12 2 Profibus description Cyclic The data transmission between the master and the DP slaves is carried out by data the master in a defined, recurring order. When configuring the bus system, the transmission user defines the assignment of a DP slave to the master. It is also defined which DP slaves are to be included in, or excluded from, the cyclic user data communication.

  • Page 13: Configuring A Profibus System

    3 Configuring a PROFIBUS system 3.1 GSD files Device base data (GSD) enable open project design. PROFIBUS devices have different features. They differ with respect to the available functionality (e. g. number of I/O signals, diagnostic messages) or possible bus parameters, such as baud rate and time monitoring. These pa- rameters vary individually for each device type and manufacturer.

  • Page 14: Configuration Procedure

    3 Configuring a PROFIBUS system 3.2 Configuration procedure Plug & Play To simplify the configuration of the PROFIBUS system, the master (PLC) is configured using the PROFIBUS configurator and the GSD files, or in the PLC through the hardware configurator. Configuration steps: - Create GSD file by using the GSD generator - Load GSD files of the PROFIBUS slaves into the PROFIBUS network...

  • Page 15: The Gsd Generator

    3 Configuring a PROFIBUS system 3.3 The GSD generator 3.3.1 General GSD files for recorders with a PROFIBUS interface are generated by the user with the aid of the GSD generator. The recorders with a PROFIBUS interface can send or receive a large variety of variables (parameters).
  • Page 16 3 Configuring a PROFIBUS system File menu The file menu can be called up using the Alt-D combination or the left mouse button. It provides the following options: After calling up the function which creates a new GSD file, the available devices are selected. After se- lection of the required device, all available parame- ters are shown in the parameter window.

  • Page 17: Example Report

    3 Configuring a PROFIBUS system 3.3.3 Example report I/O report Device: RECORDER Length of inputs (byte): Length of outputs (byte): Inputs Byte Description Type ------------------------------------------------------------------------- [ 0] Interface status BYTE [ 1] int. logic inputs\Bool_Out01 BOOLEAN [ 2] int. logic inputs\Bool_Out02 BOOLEAN [ 3] int.
  • Page 18 3 Configuring a PROFIBUS system Select If an existing file has been opened, or a new one created, all available parame- parameter ters are shown in the parameter window. Device name (editable). The name is shown in the PLC program (hardware catalog).

  • Page 19: Connection Example

    3 Configuring a PROFIBUS system 3.4 Connection example The example below shows the path for the connection of a recorder to a S7 from Siemens. 3.4.1 RECORDER h Connect the device to the PLC. h Set the device address. The device (instrument) address can be selected via the instrument keys or through the setup program.

  • Page 20: Plc Configuration

    3 Configuring a PROFIBUS system h Save the GSD file in any folder. 3.4.3 PLC configuration h Start the PLC software. h Call up the hardware configuration and execute menu command “Install new GSE”. PLC with its components The new GSD file is read in and processed, and the recorder is inserted in the hardware catalog.
  • Page 21 3 Configuring a PROFIBUS system h Open the hardware catalog and place the new device in the working area. The recorder is placed on the bus using the left mouse button. After releas- ing the mouse button, the recorder address has to be assigned. The baud rate is determined automatically.
  • Page 22 3 Configuring a PROFIBUS system...

  • Page 23: Data Format Of The Recorder

    4 Data format of the recorder When using recorders in a PROFIBUS DP system, please take note of their data format. Integer values Integer values are transmitted in the following format: - first the high byte, - then the low byte. Float values/ The float/real values of the cyclic data for the paperless recorder are transmit- real values...
  • Page 24 4 Data format of the recorder MODbus float format Address x Address x+1 MMMMMMMM MMMMMMMM SEEEEEEE EMMMMMMM byte 3 byte 4 byte 1 byte 2 After/before the transmission from/to the device, the bytes of the float value have to be swapped accordingly. Many compilers (e.g.

  • Page 25: Device-Specific Data

    5 Device-specific data This chapter describes the connection of the - paperless recorder LOGOSCREEN, or the - paperless recorder LOGOSCREEN es to the PROFIBUS DP. All the devices described can be used exclusively as DP slaves.

  • Page 26: Paperless Recorder Logoscreen

    5 Device-specific data 5.1 Paperless recorder LOGOSCREEN The paperless recorder can be used to record and display, amongst other in- puts, up to 36 analog channels from a PLC. 5.2 System requirements The following requirments must be met when connecting a paperless recorder to the PROFIBUS DP: - Fit the PROFIBUS DP interface to the paperless recorder - Program version from 100.03.02...

  • Page 27: Setting The Slave Address

    5 Device-specific data When making the connection to the PROFIBUS DP it is important to ensure that the connectors 20 and 21 are not swapped. Connec- tor 20 is reserved for the serial interface. The serial interface is used to read out instrument and process data from the paperless recorder.
  • Page 28 5 Device-specific data Control byte The control byte (byte No. 1) is organized as follows: bit 0 — 3: length of actual data (in words) bit 4 — 5: "toggle flag" The two bits have their state changed (toggled) with every new job that is sent to the device so that it can recognize the new command.
  • Page 29 5 Device-specific data Base address: 0x35 Address Access Data type Signal designation of variable 0x00 real Meas. input 1 (analog input 1) 0x02 real Meas. input 2 (analog input 2) 0x04 real Meas. input 3 (analog input 3) 0x06 real Meas.
  • Page 30 5 Device-specific data 0x38 real External analog input 9 0x3A real External analog input 10 0x3C real External analog input 11 0x3E real External analog input 12 0x40 real External analog input 13 0x42 real External analog input 14 0x44 real External analog input 15 0x46...
  • Page 31 5 Device-specific data Base address: 0xA6 Address Access Data type Signal designation of variable 0x00 char 21 Text 1 for batch report 0x0B char 21 Text 2 for batch report 0x16 char 21 Text 3 for batch report 0x21 char 21 Text 4 for batch report Addresses are defined as bytes in the report, addressing of data word by word.

  • Page 32: Plc Data In 16-Bit Format

    5 Device-specific data 5.7 PLC data in 16-bit format The functions described below can only be implemented on paperless recor- ders from program version 100.03.05. Internal From program version 100.03.05, the internal measurement inputs (1 — 6 or measurement 1 — 12) can not only be sent to the PROFIBUS master (PLC) in “Real” format inputs of the (4 bytes), but also in “Integer”...
  • Page 33 5 Device-specific data The analog input of the PLC provides a 16-bit measurement in the range from -27648 to +27648; the ranges depend on the input sensor that was selected or the input card being used. Example Input Standardiza- Range Scaling meas.

  • Page 34: Bit-By-Bit Coding Of Binary Signals

    5 Device-specific data 5.8 Bit-by-bit coding of binary signals The signals described below are available for paperless recorders with pro- gram version 100.03.05 or above and can be addressed using the GSD gene- rator. Address Access Data type Signal designation Alarm_Group1-6 bit0 Alarm group 1...

  • Page 35: External Inputs And Faults In The Data Exchange

    5 Device-specific data Address Access Data type Signal designation Output1-6 bit0 Relay output 1 0 = not active / 1 = active bit1 Relay output 2 bit2 Relay output 3 bit3 Relay output 4 bit4 Relay output 5 bit5 Open-collector output 0 = not active / 1 = active bit6-7 not used...

  • Page 36: Paperless Recorders Logoscreen Es And Cf

    5 Device-specific data 5.10 Paperless recorders LOGOSCREEN es and cf A paperless recorder can be used to record and display, amongst other inputs, up to 36 analog channels from a PLC. 5.10.1 System requirements The following conditions must be fulfilled in order to connect a paperless re-...

  • Page 37: Setting The Slave Address

    5 Device-specific data When making the connection to the PROFIBUS DP it is important to ensure that the connectors 20 and 21 are not swapped. Connector 20 is reserved for the serial interface. The serial interface is used to read out device and process data from the paperless recorder. The connection and function of the serial interface are described in the Interface Description B 70.6560.2.0.

  • Page 38: Extension Of The Address Range For Logoscreen Es And Cf

    5 = 1 was not fault-free ................Function 0x03: read 0x10: write 5.10.6 Extension of the address range for LOGOSCREEN es and cf The (previously) unused bits 7, 6 and 5 from the function byte are used to form an 11-bit wide Modbus address.

  • Page 39: Process Data

    5 Device-specific data Function byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 0000 1010 read or 0000 0011 write Bit10 Bit9 Bit8 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Address byte Highest address...
  • Page 40 5 Device-specific data Address Access Data type Signal designation bit11 Logic input 4 bit12 Logic input 5 bit13 Logic input 6 bit14 Logic input 7 bit15 not used 0x0001 Logic signals bit0 CompactFlash card is in the slot (0 = no, 1 = yes) bit1 CF card has been stolen (0 = no, 1 = card was removed...
  • Page 41 5 Device-specific data Address Access Data type Signal designation bit3 Relay output 4 bit4 Relay output 5 bit5 Open-collector output 0 = not active / 1 = active bit6-15 not used 0x0003 External logic inputs (either from external I/O modules or via Modbus) bit0 External logic input 1...
  • Page 42 5 Device-specific data 0x0014 float Meas. input 11 (analog input 11) 0x0016 float Meas. input 12 (analog input 12) 0x0018 float not used 0x001A float not used 0x001C float not used 0x001E float not used 0x0020 float Counter value 1 0x0022 float Counter value 2...
  • Page 43 5 Device-specific data 0x004E float External analog input 20 0x0050 float External analog input 21 0x0052 float External analog input 22 0x0054 float External analog input 23 0x0056 float External analog input 24 0x0058 float External analog input 25 0x005A float External analog input 26 0x005C...
  • Page 44 (R/W) can be programmed via the serial interface or connected to the paperless recorder in the form of modules of the JUMO mTRON automation system. For ad- ditional information, please refer to the Operating Instructions 70.6560.2.1 (LON interface).
  • Page 45 5 Device-specific data Example Text 1 for the batch report has to be written- Since a batch text can have a ma- (write): ximum of 20 characters, it will be transmitted in 2 sections, each consisting of 10 characters. The 21st character (0x) can be left out. The following bytes must be transmitted to the recorder: a.) Bytes 1 —...

  • Page 46: Plc Data In 16-Bit Format

    5 Device-specific data 5.10.8 PLC data in 16-bit format The functions described below are only available for paperless recorders with a program version 100.03.05 or above. Internal From program version 100.03.05 on, the internal measurement inputs (1 — 6 measurement or 1 —...
  • Page 47 5 Device-specific data The analog input of the PLC provides a 16-bit measurement signal within the range from -27648 to +27648, whereby the measurement ranges depend on the type of input sensor that is selected and the input card that is used. Example: Input range Normalization...

  • Page 48: Bit-Wise Coded Binary Logic Signals

    5 Device-specific data 5.10.9 Bit-wise coded binary logic signals The signals described below are available for paperless recorders that have a program version 100.03.05 or above, and can be accessed through the GSD generator. Address Data type Signal designation cess Alarm_Group1-6 bit0 Alarm group 1...

  • Page 49: 10External Inputs And Faults In The Data Exchange

    5 Device-specific data Address Data type Signal designation cess Output1-6 bit0 Relay output 1 0 = not active / 1 = active bit1 Relay output 2 bit2 Relay output 3 bit3 Relay output 4 bit4 Relay output 5 bit5 Open-collector output 0 = not active / 1 = active bit6-7 not used...
  • Page 50 5 Device-specific data...
  • Page 56 JUMO GmbH & Co. KG JUMO Instrument Co. Ltd. JUMO Process Control, Inc. Street address: JUMO House 8 Technology Boulevard Moltkestraße 13 - 31 Temple Bank, Riverway Canastota, NY 13032, USA 36039 Fulda, Germany Harlow, Essex CM20 2TT, UK Phone:...

This manual is also suitable for:

Logoscreen cf

Table of Contents