Summary of Contents for Siemens SIMATIC NET SINAUT ST7
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Preface Introduction to the SINAUT ST7 system Installation guide SIMATIC NET Network structures and topologies SINAUT ST7 Station control system Installing and putting a TIM into operation Installing and putting a SINAUT modem into System Manual operation Volume 1: System and Hardware 05/2007 C79000-G8976-C178-06...
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Trademarks All names identified by ® are registered trademarks of the Siemens AG. The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights of the owner.
Table of contents Preface ..............................15 Introduction to the SINAUT ST7 system ....................17 Area of application ........................17 Components in a SINAUT ST7 system ..................18 SINAUT TIM communication modules..................19 2.3.1 Overview of All TIM Variants......................20 2.3.2 The TIM 3V-IE variants ........................22 2.3.3 Design of the TIM 3V-IE variants ....................23 2.3.4...
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Table of contents 2.9.3 Overview for ordering SINAUT ST7 software ................93 2.9.4 Installation of the SINAUT ST7 standard software package............93 2.9.5 Uninstalling SINAUT ST7 software packages................94 2.10 SINAUT ST7cc, the add-on for WinCC..................95 2.10.1 Area of application ........................95 2.10.2 The special properties of SINAUT ST7cc ...................
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Table of contents Design of the TIM 3 and TIM 4 modules..................168 5.3.1 Front view of the TIM 3 / TIM 4 with closed front panels ............168 5.3.2 Front view of the TIM 3 / TIM 4 with front panels removed ............169 5.3.3 LEDs of the TIM 3 / TIM 4......................170 5.3.4...
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Table of contents 6.6.3 Connectors and configuration switches accessible from below..........284 6.6.4 Connecting the MD3 with a TIM and TAE6 outlet..............287 6.6.5 Connecting the MD3 with TIM, LTOP and dedicated line............288 6.6.6 User-configurable profiles ......................294 6.6.7 LTOP line transformer with overvoltage protection..............
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Table of contents Table 5-7 Meaning of the LEDs on the right of the front panel of the TIM 4R-IE........163 Table 5-8 Pinout of the connector of the combined RS-232/RS-485 port ..........163 Table 5-9 Pinout of the RJ-45 Western jack for the Ethernet port .............164 Table 5-10 Standard connecting cables for the serial port of the TIM 4R-IE ..........164 Table 5-11...
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Table of contents Table 5-43 Dimensions for installing the SINAUT TIM modules ..............213 Table 5-44 LED activity on the TIM 3V-IE variants during the various startup phases....... 221 Table 5-45 LED activity on the TIM 4R-IE during the various startup phases ..........223 Table 5-46 LED activity on the TIM 3 / TIM 4 during the various startup phases ........
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Table of contents Table 6-32 Basic setting for dedicated line mode ..................280 Table 6-33 Setting standard dedicated line profiles ..................281 Table 6-34 Setting the loudspeaker ......................282 Table 6-35 Pinout of the X3 RJ-12 jack for the MD3 modem ..............285 Table 6-36 Standard connecting cable for the RJ-12 port of the MD3 modem ...........285 Table 6-37 Pinout of the RJ-12 and TAE6 connectors ................286...
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Table of contents Figure 2-14 Connectors of the MD720-3 modem ................... 66 Figure 2-15 MD740-1 modem ........................67 Figure 2-16 Connectors of the MD740-1 modem ................... 67 Figure 2-17 ANT794-4MR GSM/GPRS antenna.................... 68 Figure 2-18 LTOP2 overvoltage protection module ..................73 Figure 2-19 Examples of DCF77 antennas, left an indoor antenna, right an outdoor antenna......
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Table of contents Figure 3-11 Direct communication over a standalone TIM 4R-IE and a TIM 3V-IE Advanced (direct communication paths are shown as dashed lines) ..............130 Figure 3-12 Direct communication over a TIM 4 (standalone), MPI and a TIM 4R-IE, installed in an S7-300;...
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Table of contents Figure 5-6 Assembly of the standard connecting cable 6NH7701-0AR............. 159 Figure 5-7 Pinout of a crossover Ethernet RJ-45 cable ................159 Figure 5-8 Front view of the TIM 4R-IE with closed front panel ..............160 Figure 5-9 Front view of the TIM 4R-IE with removed front panel .............
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Table of contents Figure 5-42 Power supply connection for TIM 3 and TIM 4 ................214 Figure 5-43 Connecting TIM 3V-IE variants and the TIM 4R-IE to the power supply ........215 Hardware Catalog Figure 5-44 The catalog window with the SINAUT ST7 folder open ......216 Figure 5-45 S7-300 station with installed TIM and TIM parameter assignment dialog .........217 Figure 5-46...
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Table of contents Figure 6-28 Assembly of the standard connecting cable 6NH7701-4DL ............. 274 Figure 6-29 View of the MD3 modem from above..................275 Figure 6-30 Possible settings with the DIL switches accessible from above ..........276 Figure 6-31 Point-to-point link between two MD3 modems over a 2-wire dedicated line ......281 Figure 6-32 Setting the DIL switch for a modem reset .................
● Phone: +49 (0) 180 5050 222 ● Fax: +49 (0) 180 5050 223 You will find further information on our Technical Support on the Web at http://www.support.automation.siemens.com SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Siemens contact. You will find the addresses in the following sources: ● On the Internet at: http://www.siemens.com/automation/partner ● On the Internet at http://www.siemens.com/simatic-net specifically for SIMATIC NET products ● In the catalog CA 01 ●...
Introduction to the SINAUT ST7 system Area of application Process control over WAN and Ethernet SINAUT ST7 is a system based on SIMATIC S7 for fully automatic monitoring and control ® ® of process stations that exchange data with another and with one or more control centers over a WAN (wide area network) or Ethernet (TCP/IP).
Introduction to the SINAUT ST7 system 2.2 Components in a SINAUT ST7 system SINAUT over Ethernet SINAUT communication is possible between station and control center and between stations over Ethernet or IP-based networks. This includes transmission using the GPRS service in mobile wireless networks (GSM networks).
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules ● Mobile wireless components (GSM) ● LTOP overvoltage protection modules ● Radio clock components ● Connecting cables Software components The range of software components includes: ● Standard software for SINAUT ST7 consisting of the individual packages –...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 4R-IE The TIM 4R-IE is suitable for installation in a SIMATIC S7-300 as a communications module and can also be connected over Ethernet to one or more SIMATIC S7-400s and to ST7cc or ST7sc PC control centers as a standalone device.
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules Table 2-1 Overview of All TIM Variants Can be used in Ethernet RS-232/ Ded. line Analog dial- ISDN DCF77 Order no. conjunction with port port RS-485 Modem up modem modem radio clock...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules 2.3.2 The TIM 3V-IE variants The TIM 3V-IE is available in standard and advanced versions. The two communications processors share the following properties: ● TIM without integrated modem, single width ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules Figure 2-1 SINAUT TIM 3V-IE communications module 2.3.3 Design of the TIM 3V-IE variants The TIM 3V-IE variants have all the advantages of the SIMATIC S7-300 system design: ● Compact design; single standard width of the SM modules of the SIMATIC S7-300 ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules RS232 interface (9-pin, male): WAN access point via external modem RJ45 interface: Ethernet access point 24 V Figure 2-2 Ports of the TIM 3V-IE or TIM 3V-IE Advanced 2.3.4 Technical specifications of the TIM 3V-IE variants Technical specifications of the TIM 3V-IE TIM 3V-IE...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 3V-IE Construction Module format Compact module for S7-300, single width • • Dimensions (W x H x D) in mm 40 x 125 x 120 • • Weight Approx.
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 3V-IE Asynchronous character format SINAUT ST7 protocol, 10 or 11 bits • • polling or spontaneous SINAUT ST7 protocol, 10 bits • • multi-master polling SINAUT ST1 protocol, polling 11 bits •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 3V-IE Advanced Permitted ambient conditions Operating temperature 0 °C through +60 °C • • Transport/storage temperature -40 °C through +70 °C • • Relative humidity Max. 95 % at +25 °C •...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 3V-IE Advanced Mode with dedicated line/wireless network SINAUT ST7 protocol - Polling • • - Polling with time slots - Multi-master polling with time slots SINAUT ST1 protocol - Polling •...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules ● This allows these devices to handle SINAUT communication: – Over any two SINAUT WANs with SINAUT ST7 and SINAUT ST1 partners – Over two Ethernet-based networks (WAN or LAN) with SINAUT ST7 subscribers ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules 2.3.6 Design of the TIM 4R-IE The TIM 4R-IE variants have all the advantages of the SIMATIC S7-300 system design: ● Compact design; double standard width of the SM modules of the SIMATIC S7-300 ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules 2.3.7 Technical specifications of the TIM 4R-IE Technical specifications of the TIM 4R-IE TIM 4R-IE General Transmission rate RS-232/RS-485 50 to 38,400 bps • • Ethernet 10/100 Mbps autosensing •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 4R-IE Configuration Software for PG SINAUT ST7 configuration software • • for PG Software for CPU (optional) SINAUT TD7 block library for CPU • • Storage of TIM configuration data - on internal TIM flash memory;...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 4R-IE Mode with dedicated line/wireless network SINAUT ST7 protocol - Polling • • - Polling with time slots - Multi-master polling with time slots SINAUT ST1 protocol - Polling •...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules – Over the MPI interface of this CPU with other CPUs and control center PCs (ST7cc, ST7sc) connected over the MPI bus – With other TIMs in this rack ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules 2.3.9 Design of the TIM 3 variants The TIM 3 types have all the advantages of the SIMATIC S7-300 system design: ● Compact design; double standard width of the SM modules of the SIMATIC S7-300 ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules 2.3.10 Technical specifications of the TIM 3 variants Technical specifications of the TIM 32 TIM 32 General Interfaces Attachment to dedicated line RJ-12 • • Connection to power supply 4-pin terminal strip •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 32 Transmission protocols SINAUT ST7 Selectable protocols • SINAUT ST1 • Mode SINAUT ST7 protocol - Polling • • - Polling with time slots - Multi-master polling with time slots SINAUT ST1 protocol - Polling...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 32 Lower / upper keying frequency At 1200 bps 1300 Hz / 2100 Hz • • At 2400 bps 2400 Hz / 3300 Hz • • At 9600 and 19200 bps 20800 Hz / 33600 Hz •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 33 Construction Module format Compact module for S7-300, double width • • Dimensions (W x H x D) in mm 80 x 125 x 120 • • Weight Approx.
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 33 Integrated modem MD3 Transmission path Analog dial-up telephone network V.22 1200 bps, duplex Available ITU transmission standards • V.22bis 2400 bps, duplex • V.32bis 4800 bps, duplex •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules Technical specifications of the TIM 34 TIM 34 General Interfaces Attachment to ISDN network RJ-12 • • Connection to power supply 4-pin terminal strip • • Power supply 24 V DC; min. 20.4 V; max. 28.8 V Current consumption From backplane bus 60 mA...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 34 SINAUT ST7 Selectable protocols • SINAUT ST1 • Mode SINAUT ST7 protocol Spontaneous • • SINAUT ST1 protocol Spontaneous • • Asynchronous character format SINAUT ST7 protocol 10 or 11 bits •...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules ● Compact unit that can be used in a wide variety of situations: – as a communications processor (CP) in an S7-300 – as a standalone device combined with one or more S7-400s, S7-300s or control center PCs (SINAUT ST7cc or ST7sc) over their MPI interface ●...
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules The following TIM 4 variants with integrated modems and optional DCF77 radio clock are available: TIM 42 TIM 4 with integrated modem MD2 (dedicated line) TIM 42D TIM 4 with integrated modem MD2 (dedicated line) and DCF77 radio clock receiver TIM 43 TIM 4 with integrated modem MD3 (analog telephone network)
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules Combined RS232/RS485 interface (9-pin, male): WAN access point via external modem MPI interface (9-pin, female) DCF77 antenna or GPS receiver 24 V Figure 2-9 Ports of the TIM 4V The following figure shows the ports of the two TIM 4R variants (schematic representation with covers removed).
Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules ● MPI interface (9-pin SUB D socket) for connecting the TIM as a standalone device to one or more S7 CPUs or control center PCs ● 4-pin terminal block for connecting the external power supply of 24 V DC ●...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 42 / TIM 42D Construction Module format Compact module for S7-300, double width • • Dimensions (W x H x D) in mm 80 x 125 x 120 •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 42 / TIM 42D Asynchronous character format SINAUT ST7 protocol, 10 or 11 bits • • polling or spontaneous SINAUT ST7 protocol, 10 bits • • multi-master polling SINAUT ST1 protocol, polling 11 bits •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 42 / TIM 42D Surge withstand capability to DIN VDE 0804 1.2/50 between supply circuit and FSK remote line circuits 2.5 kV • • Optical relay output 2.5 kV •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 43 / TIM 43D Construction Module format Compact module for S7-300, double width • • Dimensions (W x H x D) in mm 80 x 125 x 120 •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 43 / TIM 43D Asynchronous character format SINAUT ST7 protocol, 10 or 11 bits • • polling or spontaneous SINAUT ST7 protocol, 10 bits • • multi-master polling SINAUT ST1 protocol, polling 11 bits •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules Technical specifications of the TIM 44 / 44D TIM 44 / TIM 44D General Interfaces Attachment to ISDN network RJ-12 • • Connection to external data transmission 9-pin D-sub male connector, RS-232 can be •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 44 / TIM 44D Local communication in standalone mode Over MPI port of the CPU with CPUs, other Possible over TD7onCPU (for S7-300 and • • TIMs and/or PCs S7-400) and S7 communication (for ST7cc/ST7sc and TIMs) Work memory required on the S7 CPU...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 44 / TIM 44D Integrated modem MD4 Transmission path Digital ISDN network V.110 1200 bps, duplex Available standard transmission standards • V.110 2400 bps, duplex • V.110 9600 bps, duplex •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 4V / TIM 4VD Construction Module format Compact module for S7-300, double width • • Dimensions (W x H x D) in mm 80 x 125 x 120 •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 4V / TIM 4VD Asynchronous character format SINAUT ST7 protocol, 10 or 11 bits • • polling or spontaneous SINAUT ST7 protocol, 10 bits • • multi-master polling SINAUT ST1 protocol, polling 11 bits •...
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Introduction to the SINAUT ST7 system 2.3 SINAUT TIM communication modules TIM 4R / TIM 4RD Construction Module format Compact module for S7-300, double width • • Dimensions (W x H x D) in mm 80 x 125 x 120 •...
Introduction to the SINAUT ST7 system 2.4 The SINAUT ST7 modems TIM 4R / TIM 4RD Asynchronous character format SINAUT ST7 protocol, 10 or 11 bits • • polling or spontaneous SINAUT ST7 protocol, 10 bits • • multi-master polling SINAUT ST1 protocol, polling 11 bits •...
Introduction to the SINAUT ST7 system 2.4 The SINAUT ST7 modems 2.4.1 The modem variants The following modem variants are available: Dedicated line modem for multipoint connection, can be tapped, can also be used as a repeater, max 19,200 bps Modem for the analog telephone network, max.
Introduction to the SINAUT ST7 system 2.4 The SINAUT ST7 modems 2.4.2 Overview of all modem variants and accessories The modems are supplied along with the necessary WAN connecting cable. Cables for connecting the modems to a TIM must be ordered separately. Table 2-2 Overview of all modem variants Short name...
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Introduction to the SINAUT ST7 system 2.4 The SINAUT ST7 modems Transmission path 2-wire, 2 x 2-wire or 4-wire, twisted pair, without loading coils or with few coils Frequency shift keying (FSK) Type of modulation • 1200 bps Transmission speeds •...
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Introduction to the SINAUT ST7 system 2.4 The SINAUT ST7 modems Technical specifications of the MD3 analog dial-up modem Interfaces Attachment to telephone network or dedicated RJ-12 • • line 9-pin D-sub male connector • RS-232 attachment to DTE • 9-pin D-sub female connector •...
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Introduction to the SINAUT ST7 system 2.4 The SINAUT ST7 modems Asynchronous character format 10 or 11 bits 300 bps (direct) Standard dedicated line profile • 1200 bps (direct) • 2400 bps (direct) • 9600 bps (direct) • 19,200 bps (direct) •...
Introduction to the SINAUT ST7 system 2.5 Mobile wireless components Construction Module format Compact module for S7-300, double width • • Dimensions (W x H x D) in mm 80 x 125 x 120 • • Weight Approx. 300 g •...
Introduction to the SINAUT ST7 system 2.5 Mobile wireless components 2.5.1 GSM modem MD720-3 With the GSM modem MD720-3, a TIM can transmit data by establishing a dial-up connection over a mobile wireless network (CSD: Circuit Switched Data). The maximum data transmission speed is 9600 bps.
Introduction to the SINAUT ST7 system 2.5 Mobile wireless components The following figure shows further details of the modem module. Figure 2-14 Connectors of the MD720-3 modem 2.5.2 MD740-1 GPRS modem Using the MD740-1 GPRS modem, a TIM can establish a permanent connection between a station and control center using the GPRS service of a GSM mobile wireless provider.
Introduction to the SINAUT ST7 system 2.5 Mobile wireless components Figure 2-15 MD740-1 modem The following figure shows further details of the modem module. Figure 2-16 Connectors of the MD740-1 modem 2.5.3 ANT794-4MR GSM/GPRS antenna The ANT794-4MR GSM/GPRS antenna The quadband ANT794-4MR antenna is available for use in GSM/GPRS networks. To improve the field strength, it can be installed inside and outside buildings.
Introduction to the SINAUT ST7 system 2.5 Mobile wireless components Figure 2-17 ANT794-4MR GSM/GPRS antenna Short name Order no. Explanation ANT794-4MR 6NH9 860-1AA00 GSM/GPRS quadband antenna; weatherproof for indoor and outdoor areas; 5 m connecting cable connected permanently to the antenna; SMA connector, including installation bracket, screws, wall plugs The antenna must be ordered separately.
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Compatible with GSM modems • MC45 • Certifications and approvals R&TTE EN 55024 EN 55022 Class A EN 61000-6-2 National approvals For up-to-date information, check the Internet at http:/www.siemens.com/simatic-net/ik-info SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Introduction to the SINAUT ST7 system 2.5 Mobile wireless components Technical specifications of the MD740-1 GPRS modem MD740-1 General Interfaces Application interface RJ-45 female (10/100 Mbps, TP, • • autocrossover) Service interface 9-pin D-sub female connector • • (with gender changer pin) Antenna connector SMA female connector, •...
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KEMA: 03 ATEX 1229 X CLI, DIV2, GP. A,B,C,D T4 • • Ta = 20 °C...50 °C • • National approvals For up-to-date information, check the Internet at http:/www.siemens.com/simatic-net/ik-info SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Introduction to the SINAUT ST7 system 2.6 LTOP overvoltage protection modules Figure 2-18 LTOP2 overvoltage protection module The LTOP overvoltage protection module is available in two variants: LTOP 1 Overvoltage protection module for use at the start or end of a 2-wire dedicated line. LTOP2 Overvoltage protection module for use at the start or end of a 4-wire dedicated line or in a 2- wire tapping point.
Introduction to the SINAUT ST7 system 2.6 LTOP overvoltage protection modules 2.6.2 Technical specifications of the LTOP overvoltage protection module LTOP Transmission paths Private transmission lines with or without loading coils Transmission ratio 1 : 1; ± 5 % (e.g. 600/600 ohms in the voice band) Transmission range 300 Hz to 35 kHz Frequency-dependent attenuation...
Introduction to the SINAUT ST7 system 2.7 Radio clock components Radio clock components 2.7.1 Accessories for DCF77 DCF77 radio clock An adapter cable is required to connect the DCF77 radio clock to an indoor or outdoor antenna. The cable has a BNC male connector to which the normal antenna cable can be connected.
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Introduction to the SINAUT ST7 system 2.7 Radio clock components Figure 2-19 Examples of DCF77 antennas, left an indoor antenna, right an outdoor antenna The following figure shows the interconnection of the various DCF77 components (the adapter cable 6NH7700-0AD15 is supplied with each TIM with an integrated DCF77 radio clock receiver).
Introduction to the SINAUT ST7 system 2.7 Radio clock components Indoor antenna incl. 10 m antenna cable 6NH9 831-0AA Outdorr antenna Adapter cable (1,5 m) incl. 20 m is included antenna cable: (spare part order no. 6NH7 700-0AD15) - for flat roof or wall mounting 6NH9 831-0BA - für mast mounting...
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Introduction to the SINAUT ST7 system 2.7 Radio clock components Figure 2-21 The GPS receiver module (left) and the recommended lightning protection device for outdoor antennas (right) The following figure shows the interconnection of the various GPS components (the adapter cable 6NH7700-0AD15 is supplied with each TIM with an integrated DCF77 radio clock receiver).
Introduction to the SINAUT ST7 system 2.7 Radio clock components Short name Order no. Explanation GPS kit 6NH9831-8AA GPS complete package for simulating the DCF77 time signal, consisting of GPS receiver, GPS outdoor antenna including 25 m cable, BNC adapter connector, configuration software, PC adapter cable, and documentation.
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Introduction to the SINAUT ST7 system 2.7 Radio clock components DCF77 antennas Response time < 1 ns Protection level at 6 kV 1.5/50 µs wave at input < 12 V Insertion loss for DCF77 signal Max. 3 dB Input / output BNC female / BNC female Input / output impedance 50 ohms...
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Introduction to the SINAUT ST7 system 2.7 Radio clock components GPS receiver Outdoor antennas Type of antenna Micro-strip line with preamplifier Center frequency 1575.42 MHz Bandwidth 10 MHz View angle +10° above horizon Power supply (over antenna cable) 4.5 to 7 V DC Impedance 50 ohms Power gain...
Introduction to the SINAUT ST7 system 2.8 Connecting cables Connecting cables A series of standard connecting cables is available to connect individual SINAUT components with each other and to WANs. Some of these connecting cables are supplied along with the hardware components. Other cables can be ordered as necessary. 2.8.1 Cable for connecting TIM and modem modules Table 2-6...
Introduction to the SINAUT ST7 system 2.8 Connecting cables Order no. Description Illustration 6NH1701-7AN Cable for connecting a TIM 11 (RS-232) with one of the SINAUT ST7 MD2, MD3 or MD4 modems (RS-232). Cable length 2.5 m 6NH1701-7BK Cable for connecting a TIM011B (RS-232) with one of the SINAUT ST7 MD2, MD3 or MD4 modems (RS-232).
Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package 2.8.3 TIM 4R / 4RD interface adapter cable The TIM 4R or TIM 4RD does not have an integrated modem but instead has a second serial port (combined RS-232/485). The port connector is accessible at the same location as the RJ-12 connector of the integrated modem in the form of an 8-pin RJ-45 plug.
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Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Note Data communication from the CPU to other CPUs or to ST7cc/ ST7sc over a WAN connection can only be implemented with the SINAUT TD7 software. This is not possible with the S7 communication SFBs/SFCs for configured and unconfigured connections.
Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package 2.9.2 SINAUT ST7 configuration software for the PG The configuration tools operate under Windows 2000 or XP. An installed version of the STEP 7 software V5.1 SP 2 or higher is also required; for SINAUT connections over Ethernet, STEP 7 V5.3 SP 2 or higher.
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Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Figure 2-23 Module manager for SINAUT ST7 The WAN manager for SINAUT ST7 NetPro The SINAUT WAN manager expands the catalog for the STEP 7 network Subnets configuration tool.
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Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Figure 2-24 The WAN manager for SINAUT ST7 NetPro When necessary, the properties dialog of a TIM module can also be opened in . You HW Config have the same configuration options as in The SINAUT ST7 configuration tool Unlike the two managers mentioned up to now, the SINAUT ST7 configuration tool does not...
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Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Figure 2-25 The SINAUT ST7 configuration tool Subscriber administration tool then provides the user with a list of all available SINAUT subscribers. Where necessary, you can make subscriber-specific adaptations, for example, changing the SINAUT subscriber number of the individual devices or the configuration of message texts to be sent as an SMS.
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Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Figure 2-26 Configuring SMS messages The SINAUT ST7 diagnostics and service tool In addition to the diagnostic functions familiar from STEP 7, you also have access here to SINAUT-specific diagnostic information.
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Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Figure 2-27 Examples of SINAUT ST7 diagnostics SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package 2.9.3 Overview for ordering SINAUT ST7 software Table 2-9 Overview for ordering SINAUT ST7 software Short name Order no. Explanation SW ST7 6NH7997-0CA15-0AA0 Standard software for SINAUT ST7, consisting of SINAUT TD7 library with blocks for the CPU SINAUT ST7 configuration and diagnostic software for the programming device...
Introduction to the SINAUT ST7 system 2.9 The SINAUT ST7 standard software package Select the components you want to install (you can select several packages at once using Install shift-click) and start the installation by clicking the button. Note TD7 Library Manager To configure SINAUT systems, you must install the two packages During installation, the setup program will prompt you for any necessary information.
Introduction to the SINAUT ST7 system 2.10 SINAUT ST7cc, the add-on for WinCC 2.10 SINAUT ST7cc, the add-on for WinCC 2.10.1 Area of application SINAUT ST7cc is the ideal control center system based on SIMATIC WinCC for both SINAUT ST7 and SINAUT ST1. It is specially designed for event-driven and time-stamped data transmission in the SINAUT system.
Introduction to the SINAUT ST7 system 2.10 SINAUT ST7cc, the add-on for WinCC Note The SINAUT ST7cc for WinCC expansion packet is described in detail in a separate manual. To complete the introduction to the SINAUT ST7 system in this chapter, we will nevertheless briefly outline the properties of the SINAUT ST7cc package.
Introduction to the SINAUT ST7 system 2.10 SINAUT ST7cc, the add-on for WinCC ● Counted values – Overflow handling with absolute counters – Counted value scaling using factors – Calculation of correctly timed interval quantities – Entry of currently accumulating interval quantities in the assigned WinCC tags –...
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Introduction to the SINAUT ST7 system 2.10 SINAUT ST7cc, the add-on for WinCC ST7cc redundant system Number Software package Windows 2000, XP, or Server 2003 WinCC full package* WinCC runtime package WinCC redundancy package (with two licenses) SIMATIC NET with license for CP software ST7cc redundancy package (with two licenses) SW ST7cc S (with a license for six stations) SW ST7cc M (with license for 12 stations)
Introduction to the SINAUT ST7 system 2.10 SINAUT ST7cc, the add-on for WinCC When supplying the current time of day, the following situations must be distinguished: ● For TIMs (TIM 4x), connected to the ST7cc PC over MPI, time synchronization is possible only with a TIM equipped with a DCF77 receiver.
Introduction to the SINAUT ST7 system 2.11 SINAUT ST7sc SCADA Connect software 2.10.5 Technical specifications of SINAUT ST7cc SINAUT ST7cc Operating systems Windows XP Prof. SP1, SP2, Windows 2000 Prof. SP1, 2, 3, 4 Windows Server 2003 Standard Edition + SP1 WinCC versions WinCC V5.0 SP2 or higher WinCC V5.1 SP1 or higher...
Introduction to the SINAUT ST7 system 2.11 SINAUT ST7sc SCADA Connect software Figure 2-31 Control center system and SINAUT ST7sc with attached ST7 and ST1 stations 2.11.1 The special properties of SINAUT ST7sc Acquiring process data The SINAUT station acquires the process data when it changes and transfers this to SINAUT ST7sc over the WAN.
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Introduction to the SINAUT ST7 system 2.11 SINAUT ST7sc SCADA Connect software client later, ST7sc includes the "item buffering" technique that helps to avoid data loss on the way to the OPC client, as follows: ● When the OPC "Data Access" interface that represents a process image is updated by the SINAUT stations more quickly than the client can read it.
Introduction to the SINAUT ST7 system 2.11 SINAUT ST7sc SCADA Connect software Configuration ST7sc is configured with the ST7sc Config tool supplied on the ST7sc software CD. The documentation on ST7sc and the Config tool is also on this CD. 2.11.2 System prerequisites Structure...
Introduction to the SINAUT ST7 system 2.11 SINAUT ST7sc SCADA Connect software When supplying the current time of day, the following situations must be distinguished: ● For TIMs (TIM 4x), connected to the ST7sc PC over MPI, time synchronization is possible only with a TIM equipped with a DCF77 receiver.
Introduction to the SINAUT ST7 system 2.11 SINAUT ST7sc SCADA Connect software 2.11.4 Technical specifications of SINAUT ST7sc SINAUT ST7sc Programming Open and standardized; OPC interface "Data Access Interface V2.05"; Synchronous (IOPCSyncIO) and asynchronous (IOPCAsyncIO2) reading and writing of variables over the standard interface;...
Introduction to the SINAUT ST7 system 2.12 Standards and approvals of SINAUT ST7 products 2.12 Standards and approvals of SINAUT ST7 products 2.12.1 Standards and approvals for the TIM 3 / TIM 4 and the SINAUT modems 2.12.1.1 Notes on the CE marks of SINAUT ST7 products List of SINAUT ST7 products Short name Order no.
2.12 Standards and approvals of SINAUT ST7 products In accordance with the EU directives mentioned above, the EU conformity declarations are available for the relevant authorities at the following address: Siemens Aktiengesellschaft Industrial Solutions & Services I&S IS 6 E D Postfach 3249...
Introduction to the SINAUT ST7 system 2.12 Standards and approvals of SINAUT ST7 products UL/CSA approval The SINAUT ST7 products included in the "List of SINAUT ST7 products" are certified as follows: UL Recognition Mark Underwriters Laboratories (UL) based on: Standard UL 508 CSA Certification Mark Canadian Standards Association (CSA) based on:...
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If they do, you will be notified in advance to give you an opportunity to maintain uninterrupted telephone service. If you experience trouble with this telephone equipment, please contact SIEMENS Energy & Automation, Inc. Factory Service Center 3000 Bill Garland Road...
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Ringer Equivalence Numbers of all the devices does not exceed 5. REN: 0.9 Repair Service Center: SIEMENS Energy & Automation, Inc. Factory Service Center 3000 Bill Garland Road Johnson City, Tennessee 37605 Tel.
● 94/9/EC "Equipment and protective systems intended for use in potentially explosive atmospheres" (Explosion Protection Directive) The EC Declarations of Conformity are available for the responsible authorities according to the above-mentioned EC Directive at the following address: ● Siemens Aktiengesellschaft Bereich A&D Industrielle Kommunikation SIMATIC NET Postfach 4848 D-90327 Nürnberg, Germany...
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You will find these conditions here: • on the SIMATIC NET Manual Collection CD • on the Internet at the address http://www4.ad.siemens.de/WW/news/en/13702947 Machinery directive The product remains a component according to Article 4(2) of the EC Machinery Directive 89/392/EC.
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Introduction to the SINAUT ST7 system 2.12 Standards and approvals of SINAUT ST7 products UL und CSA approvals Note You will recognize the approval, UL/CSA or cULus, assigned to your product from the mark on the rating plate. UL approval UL Recognition Mark Underwriters Laboratories (UL) complying with Standard UL 508: ●...
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Introduction to the SINAUT ST7 system 2.12 Standards and approvals of SINAUT ST7 products Note This equipment is suitable for use in Class I, Division 2, Group A, B, C, D or non- hazardous locations only. Note This plant has to be mounted according to the NEC (National Electrical Code) stipulations.
Installation guide Horizontal and vertical installation Horizontal and vertical installation You can operate the SINAUT ST7 components both in horizontally and in vertically installed racks. Permitted ambient temperature The SINAUT ST7 components can be operated in the same temperature range specified for the S7-300.
Installation guide 3.2 Dimensions for installation of the SINAUT ST7 components Dimensions for installation of the SINAUT ST7 components Introduction This section contains information on the dimensions for installing SINAUT ST7 components. You will require this information when planning the mechanical layout of a SINAUT ST7 system.
Installation guide 3.3 Current consumption and power loss of the SINAUT ST7 components Table 3-3 Current consumption and power loss of the SINAUT ST7 TIM and modem components Short module name Module order no. Current consumption Current consumption Power loss (nominal) from backplane bus from 24 V load power (max.)
Installation guide 3.3 Current consumption and power loss of the SINAUT ST7 components Calculation of the current and power loss balance The following table contains the power consumption and loss balance for the S7- 300 configuration described above. This current consumption and power loss balance does not include any actuators connected to the outputs.
Installation guide 3.4 Installing the TIM 3V-IE variants in an S7-300 Installing the TIM 3V-IE variants in an S7-300 Introduction The TIM 3V-IE variants can be used in an S7-300 as communications processors (CP). In principle, all S7-300 standard and compact CPUs can be combined with these TIMs. There are, however, constraints that must be taken into account relating to the way in which data exchange between the TIM and the CPU in the rack is handled (the SINAUT program).
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Installation guide 3.4 Installing the TIM 3V-IE variants in an S7-300 CPU 317F-2 PN/DP as of 6ES7 317-2FJ10-0AB0 * (CPU 318-2 DP) as of 6ES7 318-2AJ00-0AB0 * CPU 319-3 PN/DP as of 6ES7 318-3EL00-0AB0 * "TD7onCPU" can be used with these CPUs if the "SINAUT TD7 library for the CPU" as of V2.2 and the TIM firmware as of V1.2 are used.
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Installation guide 3.4 Installing the TIM 3V-IE variants in an S7-300 If a SINAUT modem of the type MD2, MD3 or MD4 is used, this can be installed on a separate S7-300 rail or on a 35 mm DIN rail (an adapter is available). To save space, it can also be installed in a free slot of racks 0 to 3.
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Installation guide 3.4 Installing the TIM 3V-IE variants in an S7-300 Figure 3-2 SIMATIC S7-300 with TIM 3V-IE with 1 connection to Ethernet-based WAN A module is required at the Ethernet port (RJ-45) of the TIM to link the TIM to an Ethernet- based WAN.
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Installation guide 3.4 Installing the TIM 3V-IE variants in an S7-300 S7-300 with two WAN attachments To achieve two connections to a WAN for an S7-300, in other words, classic WAN access and Ethernet-based access, a TIM 3V-IE Advanced must be used. A TIM 3V-IE is not suitable in this case, because only one of its two interfaces can be used.
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Installation guide 3.4 Installing the TIM 3V-IE variants in an S7-300 Connection to ST7cc / ST7sc over MPI The following figure shows a configuration in which the TIM is connected to the PC over the MPI interface of its CPU. This is possible only when one of the CPU modules listed in the section "Installation of the TIM 3 / TIM 4 as CP in an S7-300 (Page 136)"...
Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 Figure 3-7 SINAUT ST7cc / ST7sc control center system with a TIM 3V-IE providing a connection over Ethernet, 1 classic connection to WAN. Even with this configuration, further TIM 3V-IE Advanced modules can be inserted in the S7-300 rack.
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 TD7onCPU can be used for several CPU types if the following software packages are used: – "SINAUT TD7 library for the CPU" as of V2.2 – "TIM firmware" as of V1.0 You will find the CPUs affected in the list below.
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 C7 control systems C7-613 as of 6ES7 613-1CA00-0AE3 (C7-623/P) as of 6ES7 623-1DE01-0AE3 (C7-626/P) as of 6ES7 626-1DG02-0AB3 (C7-626/P DP) as of 6ES7 626-2DG02-0AB3 (C7-633/P) as of 6ES7 633-1DF00-0AB3 (C7-633/DP) as of 6ES7 633-2BF00-0AB3 (C7-634/P) as of 6ES7 634-1DF00-0AB3...
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 S7-300 with one TIM 4R-IE With an S7-300 and one TIM 4R-IE, it is possible to set up an extremely efficient node station. The following figure shows an example in which the control center is connected over one of the two Ethernet ports of the TIM.
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 Standalone TIM 4R-IE as control center or node station The following figure shows the use of the TIM 4R-IE in a standalone configuration; in other words, without an S7-300 CPU. This configuration is found typically in a control center. It could, however, also be used in a node station if its sole purpose is to interconnect the various networks over the TIM and no local control or data acquisition is required.
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 Direct communication over TIM 4R-IE and other TIM modules As described above, with a TIM 4R-IE, direct communication is possible between all stations on all networks connected to the TIM. If there are other TIM modules on Ethernet or on the MPI bus in addition to the TIM 4R-IE, direct communication can also be extended to the networks of the other TIMs.
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 Figure 3-12 Direct communication over a TIM 4 (standalone), MPI and a TIM 4R-IE, installed in an S7-300; communication within the S7-300 over the backplane bus (direct communication paths are shown as dashed lines) A further example shows the path of direct communication between stations connected to a TIM 4R-IE and a TIM 4 or TIM 3.
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Installation guide 3.5 Installing the TIM 4R-IE in an S7-300 Figure 3-13 Direct communication over a TIM 4R-IE and a TIM 3 or TIM 4 in an S7-300 rack; communication within the S7-300 over the backplane bus (direct communication paths are shown as dashed lines) In this example, the CPU of station 3 (not shown in figure) on WAN 3 communicates with the control center and one or more stations on WAN 1 over a TIM 3 or TIM 4 and the TIM 4R-IE.
Installation guide 3.6 Standalone TIM 4R-IE with an S7-400 or PC Standalone TIM 4R-IE with an S7-400 or PC Introduction In standalone mode, in other words, without an S7-300-CPU, the TIM 4R-IE is ideally suited as a SINAUT communications processor for an S7-400 or for the PC of the ST7cc or ST7sc control center.
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Installation guide 3.6 Standalone TIM 4R-IE with an S7-400 or PC Figure 3-14 SIMATIC S7-400 with TIM 4R-IE connected over Ethernet, 1 connection to Ethernet-based WAN or LAN, 2 classic connections to WAN, for example over SINAUT MDx modems Instead of the MDx SINAUT modem, other modems with an RS-232 or RS-485 interface can also be used, for example wireless devices or the SINAUT GSM modem MD720-3.
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Installation guide 3.6 Standalone TIM 4R-IE with an S7-400 or PC Figure 3-15 SINAUT ST7cc / ST7sc control center system with TIM 4R-IE connected over Ethernet, 1 connection to Ethernet-based WAN or LAN, 2 classic connections to WAN, for example over SINAUT MDx modems Other modems with an RS-232 or RS-485 interface can be used instead of the SINAUT MDx modems, for example wireless devices or the SINAUT GSM modem MD720-3.
Installation guide 3.7 Installation of the TIM 3 / TIM 4 as CP in an S7-300 Figure 3-16 Redundant SINAUT ST7cc / ST7sc control center system with TIM 4R-IE connected over Ethernet, 1 connection to Ethernet-based WAN or LAN, 2 classic connections to WAN, for example over SINAUT MDx modems Installation of the TIM 3 / TIM 4 as CP in an S7-300 Introduction This section explains the installation of the various TIM 3 and TIM 4 modules in an S7-300.
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Installation guide 3.7 Installation of the TIM 3 / TIM 4 as CP in an S7-300 Standard CPU modules CPU 312 as of 6ES7 312-1AE13-0AB0 CPU 314 as of 6ES7 314-1AE02-0AB0 (CPU 314 IFM) as of 6ES7 314-5AE02-0AB0 (CPU 315) as of 6ES7 315-1AF01-0AB0 CPU 315-2 DP as of 6ES7 315-2AF01-0AB0...
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Installation guide 3.7 Installation of the TIM 3 / TIM 4 as CP in an S7-300 Installation in a rack With standard and compact CPU modules, the TIM can be inserted into any of the racks 0 to 3 but only in expansion racks 1 to 3 if these racks are connected to the CPU over the IM 360/IM 361 interface modules.
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Installation guide 3.7 Installation of the TIM 3 / TIM 4 as CP in an S7-300 S7-300 with two WAN attachments If an S7-300 require two connections to classic WAN networks, a TIM 4 can be installed. The modem integrated in the TIM provides the first connection to a WAN. The second WAN can be connected over the RS-232/RS-485 port of the TIM 4, for example over a SINAUT MD modem MD for dedicated line or telephone network.
Installation guide 3.8 Standalone TIM 4 with an S7-400 or PC S7-300 with maximum configuration The maximum number of TIMs that can installed in an S7-300 depends on the connection resources provided by the CPU. Two connection resources per TIM are required on the CPU.
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Installation guide 3.8 Standalone TIM 4 with an S7-400 or PC Note A TIM 4 can be connected not only to a S7-400-CPU over its MPI port, but in principle with every S7-300 CPU, in other words, also with the CPU types 317, 318 and 319 and with the CPU 315-2 PN/DP with which a TIM 4 cannot be installed as a CP in the S7-300 rack.
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Installation guide 3.8 Standalone TIM 4 with an S7-400 or PC Figure 3-21 SIMATIC S7-400 with TIM 4 on MPI bus, 1 connection to WAN (1) over integrated modem, 1 connection to WAN (2) over external MDx modem If none of the integrated modems of the TIM 4 can be used, a TIM 4R without integrated modem can be used.
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Installation guide 3.8 Standalone TIM 4 with an S7-400 or PC Figure 3-22 SIMATIC S7-400 and S7-300 with TIM 4 on MPI bus, 1 connection to WAN (1) over integrated modem In the configuration shown above the TIM 4 provides access to the WAN for both the S7-400 and the S7-300.
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Installation guide 3.8 Standalone TIM 4 with an S7-400 or PC Figure 3-23 SINAUT ST7cc / ST7sc control center systems with TIM 4 on MPI bus, 1 connection to WAN over integrated modem In much the same way as with an S7-400, ST7cc / ST7sc can also have two connections to a WAN.
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Installation guide 3.8 Standalone TIM 4 with an S7-400 or PC SINAUT ST7cc / ST7sc and the central controller are then both supplied with parallel data. Both can receive the same data or data specifically intended for one or the other. The transfer of commands, setpoints, parameters etc.
Network structures and topologies The following overview shows you the network structures that can be implemented with SINAUT ST7 in a WAN and on Industrial Ethernet. For each network configuration, you will also see the protocols and modes with which SINAUT can handle communication over the network.
Network structures and topologies 4.2 Network configurations Network configurations Dedicated line configurations Figure 4-1 Dedicated line configurations SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Network structures and topologies 4.2 Network configurations Radio network configuration Figure 4-2 Radio network configurations SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Network structures and topologies 4.2 Network configurations Dial-up network configuration Figure 4-3 Dial-up network configurations SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Network structures and topologies 4.2 Network configurations Examples of redundant configurations Figure 4-4 Redundant configurations SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a TIM into operation Design of the TIM 3V-IE variants This section explains the design of the TIM 3V-IE variants. 5.1.1 Front view of the TIM 3V-IE variants with closed front panel Figure 5-1 Front view of a TIM 3V-IE variant with closed front panel SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a TIM into operation 5.1 Design of the TIM 3V-IE variants 5.1.2 Front view of the TIM 3V-IE variants with front panel removed Figure 5-2 Front view of a TIM 3V-IE variant with front panel removed For information on the RESET button, refer to "Default startup" in the section "Startup activities of the TIM 3V-IE variants".
Installing and putting a TIM into operation 5.1 Design of the TIM 3V-IE variants Table 5-1 Meaning of the LEDs on the front panel of the TIM 3V-IE variants LED no. Labeling Relevant TIM port Description Group error Indicates missing or bad parameter settings and RAM errors. None LINK Ethernet...
Installing and putting a TIM into operation 5.1 Design of the TIM 3V-IE variants 5.1.4 Pinout of the ports RS-232 interface The connector for the RS-232 port is designed as a 9-pin D-sub miniature connector (male). The pinout is shown in the following table. As an RS-232 port, the pinout corresponds to that of a standardized PC connector.
Installing and putting a TIM into operation 5.1 Design of the TIM 3V-IE variants 5.1.5 Standard connecting cables for the TIM 3V-IE variants An external modem or other transmission device can be connected to the 9-pin connector of the RS-232 port. To connect to this connector, the following standard connecting cables are available.
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Installing and putting a TIM into operation 5.1 Design of the TIM 3V-IE variants Figure 5-3 Assembly of the standard connecting cable 6NH7701-4AL Figure 5-4 Assembly of the standard connecting cable 6NH7701-5AN Figure 5-5 Assembly of the standard connecting cable 6NH7701-4BN SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Installing and putting a TIM into operation 5.1 Design of the TIM 3V-IE variants Figure 5-6 Assembly of the standard connecting cable 6NH7701-0AR Connecting cables for connecting to Ethernet There is no standard connecting cable available in the SINAUT range to connect the TIM 4R-IE to Ethernet.
Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Design of the TIM 4R-IE 5.2.1 Front view of the TIM 4R-IE with closed front panel 6NH7800-4BA00 Figure 5-8 Front view of the TIM 4R-IE with closed front panel For information on the RESET button, refer to "Default startup"...
Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE 5.2.2 Front view of the TIM 4R-IE with removed front panel Figure 5-9 Front view of the TIM 4R-IE with removed front panel On the rear of the housing, there is an opening for the optional C-PLUG. The configuration data of the TIM 4R-IE can be stored on the C-PLUG.
Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Table 5-6 Meaning of the LEDs on the front panel of the TIM 4R-IE LED no. Labeling Relevant TIM port Type of WAN Description driver BATF If there is a functioning battery installed, the LED is off.
Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Table 5-7 Meaning of the LEDs on the right of the front panel of the TIM 4R-IE LED no. Labeling Relevant TIM port Description Group error Indicates missing or bad parameter settings and RAM errors. Ethernet Connection to Ethernet (port 1) LED lights up yellow if there is a physical connection to Ethernet.
Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Ethernet ports The two Ethernet ports are designed as 8-pin RJ-45 Western jacks. The pinout is shown in the following table. Table 5-9 Pinout of the RJ-45 Western jack for the Ethernet port Illustration Pin no.
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Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Order no. Description Illustration 6NH7701-5AN Cable for connecting the TIM (RS-232) to the GSM modem MC45 or MD720-3 (RS-232). Also suitable for third-party modems or wireless devices with RS-232 standard. Cable length 2.5 m 6NH7701-4BN Cable with one end without connector for connecting the...
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Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Figure 5-11 Assembly of the standard connecting cable 6NH7701-4DL Figure 5-12 Assembly of the standard connecting cable 6NH7701-5AN Figure 5-13 Assembly of the standard connecting cable 6NH7701-4BN SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Installing and putting a TIM into operation 5.2 Design of the TIM 4R-IE Figure 5-14 Assembly of the standard connecting cable 6NH7701-0AR Connecting cables for connecting to Ethernet There is no standard connecting cable available in the SINAUT range to connect the TIM 4R-IE to Ethernet.
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules Design of the TIM 3 and TIM 4 modules Introduction This section explains the design of the TIM modules of the series TIM 3 and TIM 4, in other words, all TIM types except for the TIM 3V-IE variants and the TIM 4R-IE.
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules 5.3.2 Front view of the TIM 3 / TIM 4 with front panels removed Figure 5-17 Front view of the TIM with removed front panels For information on the RESET button, refer to "Default startup"...
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules 5.3.3 LEDs of the TIM 3 / TIM 4 The following table summarizes the meaning of the six LEDs during normal operation. The display during startup is explained in the section "Startup activities of the TIM 3 and TIM 4 (Page 225)".
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules 5.3.4 Pinout of the X1 and X2 connectors The X1 connector is designed as a 9-pin D-sub miniature male connector. The pinout is shown in the following table.
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules 5.3.5 Standard connecting cables that can be connected to connector X1 An external modem or other transmission device can be connected to the 9-pin X1 connector of the combined RS-232/RS-485 port.
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Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules (the port must then be switched to RS-485 functionality). This allows a dedicated line star network to be connected to the X1 connector. For more detailed information, refer to the sections with the network examples.
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Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules Figure 5-20 Assembly of the standard connecting cable 6NH7701-5AN Figure 5-21 Assembly of the standard connecting cable 6NH7701-4BN Figure 5-22 Assembly of the standard connecting cable 6NH7701-0AR SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules 5.3.6 View of the TIM 3 / TIM 4 from above Figure 5-23 View of the TIM from above SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a TIM into operation 5.3 Design of the TIM 3 and TIM 4 modules 5.3.7 View of the TIM 3 / TIM 4 from below Figure 5-24 View of the TIM from below DCF77 adapter cable An adapter cable is required to connect the integrated DCF77 radio clock to an indoor or outdoor antenna.
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-15 Adapter cable for a TIM 4 with integrated DCF77 radio clock Order no. Description Illustration 6NH7700-0AD15 Adapter cable for connecting a DCF77 radio clock integrated in a TIM, to adapt the internal connector to the external BNC connector.
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.1 Options for attachment and settings for the TIM 32 T X D R X D M P I / K T I M - B U S D C F 7 7 Figure 5-25...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Figure 5-26 Possible DIL switch settings for the integrated MD2 modem When the TIM 32 ships, all DIL switches are in the OFF position. This corresponds to the following basic setting: ●...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Setting on Meaning DIL switch Transmit level 0 dB / -9 dB This allows the distance to be increased without regeneration. For more detailed information, refer to the description of the 10-pin DIL switch at switch 10.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Note The transmission speeds 1200 and 2400 bps are suitable for lines whose bandwidth is limited to the normal voice band (300 Hz ... 3400 Hz). This is typically the case with lines leased from public telephone companies.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Setting on Meaning DIL switch Character format: Message consisting of a series of asynchronous characters, each 10-bit (1 start bit, 8 data bits, 1 stop bit). This setting is required for transmitting SINAUT ST7 messages over dedicated lines with the optional FT 2 message format.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-19 Default settings for terminating resistors at the WAN end Attachment type Baud rate Setting on Remark DIL switch End point 1200 bps The MD2 is located at the beginning or...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Attenuation values of the MD2 modem Table 5-21 Attenuation values dependent on the transmission speed and wire diameter Transmission Attenuation per km (dB) at wire diam.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants When calculating the maximum range, a power margin of 4 dB was included. This is to compensate for fluctuations in cable properties that experience has shown to occur in practise, and thus always ensure that sufficient signal level is available for problem-free data transmission.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Determining the receive level To determine the receive level, the test mode "Test f " must be set on the MD2 H constant modem at the beginning of the trunk line.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants The technical specifications of this output are as follows: ● max. connected voltage = 60 V AC/DC ● R max = 3 ohms ●...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-26 Connecting a TIM 32 / TIM 42 to a dedicated line, 2-wire and 4-wire end point variants 2-wire end point 4-wire end point SINAUT ST7 Station control system - System Manual...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-27 Connecting a TIM 32 / TIM 42 to a dedicated line, 2 x 2-wire end point and 2-wire tapping point 2 x 2-wire end point 2-wire tapping point SINAUT ST7 Station control system - System Manual...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-28 Connecting a TIM 32 / TIM 42 to a dedicated line, 4-wire tapping point variant 4-wire tapping point SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.2 Options for attachment and settings for the TIM 33 (hardware version ≥ 6) T X D R X D M P I / K T I M - B U S D C F 7 7...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Note The following description of the possible settings on the integrated MD3 modem apply only to the TIM 33 (6NH7800-3AA30) with a hardware version ≥ 6. Settings with the DIL switches accessible from above On the integrated MD3 modem, the metering pulse filter must be selected and the basic setting for dial-up mode made.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Standard profile for dial-up network OFF OFF OFF OFF AT- mode Figure 5-29 Possible settings with the DIL switches accessible from above Note Always leave reserved DIL switches set to the default position as shipped.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Basic settings for dialing mode Certain basic settings must be made for the dialing mode. The settings relate to the data format, the dialing procedure, and line adjustment.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Loudspeaker ON or OFF The integrated MD3 modem is equipped with a loudspeaker. The loudspeaker allows you to hear all the signal tones during the connection phase and during data transmission. The loudspeaker can be turned on for test purposes or for normal operation.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants When shipped, the switches are set as shown in the following figure. Figure 5-31 Default settings of the DIL switches SW1 and SW2 Pinout of the X3 jack for the MD3 integrated modem The X3 connector of the integrated MD3 modem is designed as a 6-pin RJ-12 Western jack.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Note The 6NH7700-3BR60 connecting cable has a ferrite at one of the cable ends to suppress electromagnetic interference over the connecting cable. You should not normally remove the ferrite.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Figure 5-32 Connecting the TIM 33/43 to the telephone outlet Note For more detailed information on parallel connection of the MD3 and telephone to a TAE6 outlet, refer to the description of installing and putting the MD3 modem into operation.
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.3 Options for attachment and settings for the TIM 34 T X D R X D M P I / K T I M - B U S D C F 7 7 Figure 5-33...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 1. Resetting the integrated MD4 modem to its default settings, for example, to reactivate the modem when it no longer reacts. 2.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Pinout of the X3 RJ-12 Western jack for the MD4 integrated modem The X3 connector of the integrated MD4 modem is designed as a 6-pin RJ-12 Western jack. The pinout is shown in the following table.
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-38 Pinout of the RJ-12 and RJ-45 Western connectors RJ-12 Western plug Signal name RJ-45 Western plug Illustration Pin no.
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.4 Possible attachments and settings for the TIM 4V and TIM 4VD MPI / K TIM - BUS DCF77 Figure 5-36 Possible attachment and settings for the TIM 4V or TIM 4VD SINAUT ST7 Station control system - System Manual...
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.5 Possible attachments and settings for the TIM 42 and TIM 42D T X D R X D M P I / K T I M - B U S D C F 7 7 Figure 5-37...
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.6 Options for attachment and settings for the TIM 43 and TIM 43D (hardware version ≥ 6) T X D R X D M P I / K T I M - B U S...
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.7 Possible attachments and settings for the TIM 44 and TIM 44D T X D R X D M P I / K T I M - B U S D C F 7 7 Figure 5-39...
Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants 5.4.8 Possible attachments and settings for the TIM 4R and TIM 4RD T X D R X D M P I / K T I M - B U S D C F 7 7 Figure 5-40...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-39 Pinout of the X3 RJ-45 Western jack for the RS-232/RS-485 port Illustration Pin no. Signal name Signal direction Remark Input Input...
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Installing and putting a TIM into operation 5.4 Options for attachment and settings of the TIM 3 and TIM 4 variants Table 5-41 Pinout of the RJ-45 module connector and the 9-pin D-sub connector RJ-45 Western plug Signal name 9-pin D-sub male connector Illustration Pin no.
Installing and putting a TIM into operation 5.5 Installing a TIM Installing a TIM Introduction All TIM types can be installed as a CP in an S7-300 device. With the exception of the TIM 3V-IE, every type of TIM can be operated with several other TIMs in an S7-300 rack. The TIM 4 or TIM 4R-IE can also be mounted as a standalone device on an S7-300 rail and then communicates with S7-400 or S7-300 CPU modules and/or a PC control center over its MPI interface (TIM 4) or over Ethernet (TIM 4R-IE).
Installing and putting a TIM into operation 5.5 Installing a TIM 7. In the case of a TIM with an internal modem, insert the cable supplied with the TIM for the internal modem into the X3 RJ-12 Western jack. This is located above the power supply connector of the TIM.
Installing and putting a TIM into operation 5.5 Installing a TIM 3. Connect the TIM to the power supply. Since this is a separate TIM rack, this does not need to be the power supply of the CPU with which the TIM is connected over MPI or Ethernet.
Installing and putting a TIM into operation 5.5 Installing a TIM Permitted ambient temperature The SINAUT ST7 components can be operated in the same temperature range specified for the S7-300. Table 5-42 Permitted ambient temperatures for the SINAUT TIM modules Installation position Permitted ambient temperature (operation) 0 to 60 °C...
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Installing and putting a TIM into operation 5.5 Installing a TIM WARNING The power for the device (24 V DC) must be generated as a safe extra low voltage. This means it must be a SELV (Safety Extra Low Voltage) or PELV (Protective Extra Low Voltage) according to DIN VDE 0100 Part 410 (IEC 60364-4-41).
Installing and putting a TIM into operation 5.6 Configuring a TIM and setting parameters Figure 5-43 Connecting TIM 3V-IE variants and the TIM 4R-IE to the power supply Note If one or more TIMs are installed as a CP in an S7-300 device, the CPU and TIMs must be connected to the same power supply.
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Installing and putting a TIM into operation 5.6 Configuring a TIM and setting parameters Hardware Catalog Figure 5-44 The catalog window with the SINAUT ST7 folder open You can select the TIM you want to install in a rack from this catalog. The following figure shows an S7-300 station with a TIM and various other modules installed.
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Installing and putting a TIM into operation 5.6 Configuring a TIM and setting parameters Figure 5-45 S7-300 station with installed TIM and TIM parameter assignment dialog Setting parameters for networks and network nodes The next step is to connect the various stations in a WAN. This part of the configuration is NetPro done with the STEP 7 program.
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Installing and putting a TIM into operation 5.6 Configuring a TIM and setting parameters Figure 5-46 Networked system with parameter assignment dialogs for network and network nodes opened The properties of the two classic WANs are specified in a parameter assignment dialog for dedicated lines and for dial-up networks.
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Installing and putting a TIM into operation 5.6 Configuring a TIM and setting parameters Figure 5-47 SINAUT ST7 configuration tool for connection configuration and subscriber administration Select the required connections from the right-hand pane of the connection configuration by transferring them to the left-hand pane. After saving the selected connections, you then open Subscriber administration.
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Installing and putting a TIM into operation 5.6 Configuring a TIM and setting parameters Figure 5-48 System data blocks (SDBs) in the program directory of the TIM The SDBs are transferred to a TIM as follows: ● Over the MPI interface of the TIM 4 if this is installed as a stand-alone device. ●...
Installing and putting a TIM into operation 5.7 Startup activities of the TIM module Startup activities of the TIM module 5.7.1 Startup of the TIM 3V-IE variants Introduction During startup, the LEDs on the front panel of the TIM 3V-IE variants have a different significance than during normal operation.
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Installing and putting a TIM into operation 5.7 Startup activities of the TIM module Group error LED If a problem occurs during startup, the red group error LED (SF) lights up and a diagnostic interrupt is sent to the CPU. A message to this effect is also entered in the diagnostic buffer of the TIM.
Installing and putting a TIM into operation 5.7 Startup activities of the TIM module 5.7.2 Startup activities of the TIM 4R-IE Introduction During startup, the LEDs on the front panel of the TIM 4R-IE have a different significance than during normal operation. They are optical indicators of the various startup phases and provide detailed information about any errors detected during startup.
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Installing and putting a TIM into operation 5.7 Startup activities of the TIM module Phase Activity STOP KBUS TXD1 RXD1 TXD2 RXD2 Startup aborted due to incorrect Flashes Flashes firmware (firmware does not match module type) The LEDs operate in normal mode The LEDs stop in the phase in which the error occurred.
Installing and putting a TIM into operation 5.7 Startup activities of the TIM module 5.7.3 Startup activities of the TIM 3 and TIM 4 Introduction During startup, the LEDs on the front panel of the TIM 3 / TIM 4 have a different significance than during normal operation.
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Installing and putting a TIM into operation 5.7 Startup activities of the TIM module Group error LED If an error occurs during startup, the red group error LED (SF) lights up and, if the TIM 3 / TIM 4 is installed as a CP in an S7-300 rack, a diagnostic interrupt is sent to the CPU. A message to this effect is also entered in the diagnostic buffer of the TIM 3 / TIM 4.
Installing and putting a SINAUT modem into operation Introduction Introduction The following modem variants are available in the SINAUT ST7 range. MD720-3 GSM wireless modem for data transmission over the GSM mobile wireless network by establishing a dial-up connection (CSD, Circuit Switched Data), max.
Installing and putting a SINAUT modem into operation 6.2 GSM modem MD720-3 6.2.1 Displays and connectors The following figure shows the front view of the MD720-3 modem. Connector for 24 V DC power supply SET button for service functions Antenna connector Display elements 9-pin connector X1 (RS-232 female) Order number of the modem...
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Installing and putting a SINAUT modem into operation 6.2 GSM modem MD720-3 Pinout of the X1 port The X1 port is designed as a 9-pin D-sub miniature female connector. The female connector can be changed to male with the supplied "pin" gender changer. As an RS-232 port, the pinout corresponds to that of a standardized PC connector.
Installing and putting a SINAUT modem into operation 6.2 GSM modem MD720-3 CAUTION Only use antennas from the range of accessories SINAUT Telecontrol intended for the MD720-3 modem. Other antennas may have detrimental effects on the device characteristics and may even cause damage. Connecting to the power supply Figure 6-1 Connector for 24 V DC power supply...
Installing and putting a SINAUT modem into operation 6.3 GPRS/GSM wireless modem MD740-1 6.2.3 Prerequisites for operation The following requirements must be met to use the SINAUT MD720-3 in terminal mode: ● SIM card of a GSM network provider with activated CSD data service 9600 bps and call number for data calls ●...
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Installing and putting a SINAUT modem into operation 6.3 GPRS/GSM wireless modem MD740-1 LED displays of the MD740-1 The following tables summarize the meaning and activity of the LEDs on the front of the modem. Table 6-5 Meaning of the LEDs (DC5V, STAT, LINK, VPN) on the front panel of the MD740-1 Color Status Meaning...
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Installing and putting a SINAUT modem into operation 6.3 GPRS/GSM wireless modem MD740-1 Pinout of the X1 service port The X1 port is designed as a 9-pin D-sub miniature female connector. The female connector can be changed to male with the supplied "pin" gender changer. As an RS-232 port, the pinout corresponds to that of a standardized PC connector.
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Installing and putting a SINAUT modem into operation 6.3 GPRS/GSM wireless modem MD740-1 Antenna connector The jack for connecting an antenna cable with an SMA connector is located at the top of the front panel. ● Impedance: Approx. 50 ohms CAUTION Only use antennas from the range of accessories SINAUT Telecontrol intended for the MD740-1 modem.
Installing and putting a SINAUT modem into operation 6.3 GPRS/GSM wireless modem MD740-1 6.3.2 Connecting the MD740-1 to the TIM and antenna The following figure shows how the GPRS modem MD740-1 is connected to a TIM over its Ethernet connector (IE) and how the SMA connector is connected to an antenna. Figure 6-4 Connecting the MD740-1 to a TIM and an antenna 6.3.3...
Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem 6.3.4 Further documentation For more detailed information on the GPRS/GSM wireless modem MD740-1, refer to the SIMATIC NET Manual Collection. The separate manual on the MD740-1 on this CD, includes among other things information on the following topics: ●...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem LED displays of the MD2 The following table summarizes the meaning and activity of the six LEDs on the front of the modem. Table 6-10 Meaning and activity of the LEDs on the front of the MD2 LED no.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-6 Front view of the MD2 modem with removed front panels Pinout of the RS-232 and RS-485 ports The X1 connector is designed as a 9-pin D-sub miniature male connector. The pinout is shown in the following table.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Table 6-11 Pinout of the X1 RS-232 connector Illustration Pin no. Signal name Signal direction Remark Output Output Input Input Output Input Output RI / T Output The X2 RS-485 connector is designed as a 9-pin D-sub miniature female connector.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Table 6-13 Standard connecting cables for the RS-232 and RS-485 port Order no. Description Illustration 6NH7701-4AL Connecting cable to connect the MD2 modem (RS-232) to a TIM 3V-IE, TIM 4 or TIM 4R-IE (RS-232) or other DTE with a 9-pin RS-232 interface with an identical pin assignment.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-7 Assembly of the standard connecting cable 6NH7701-4AL Figure 6-8 Assembly of the standard connecting cable 6NH7701-4DL Figure 6-9 Assembly of the standard connecting cable 6NH7701-1CB SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem You will find examples of connecting the MD2 to a TIM, parallel connection of more than one MD2 to connect a star ring network to a TIM, or the interconnection of two MD2s to form a Connecting the MD2 to TIM, LTOP and dedicated line repeater below in the section 6.4.2...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-11 Possible settings with the DIL switches accessible from above When the MD2 modem ships, all DIL switches are in the OFF position. This corresponds to the following basic setting: ●...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Setting on Meaning DIL switch Transmit level 0 dB / -9 dB For more detailed information, refer to the description of the 10- pin DIL switch at switch 10. This allows the distance to be increased without regeneration.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Note The transmission speeds 1200 and 2400 bps are suitable for lines whose bandwidth is limited to the normal voice band (300 Hz – 3400 Hz). This is typically the case with lines leased from public telephone companies.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Setting on DIL switch Meaning Test mode: Test f baud *) In this test mode, the lower and upper keying frequency is output alternately at the clock rate of the transmission speed at the transmitter output of the modem.
Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Setting on DIL switch Meaning Reset "Test receive" off / normal transmit level *) Depending on the selected mode, this switch has two meanings: In the "Test receive" mode, this switch setting has no function. In all other modes, the transmit level for operation of the modem on normal dedicated lines is set depending on switch S1 (5-pin DIL switch) to 0 dB (S1 = ON) or –6 dB (S1 = OFF).
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-12 View of the MD2 modem from below DIL switch for activating the RS-232 or RS-485 port On the bottom of the modem housing, a 4-pin DIL switch is accessible with which you can specify whether the RS-232 or the RS-485 port is active.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem DIL switch for activating WAN terminating resistors On the bottom of the MD2 housing, a further 4-pin DIL switch is accessible. This switch activates terminating resistors at the WAN end. The following figure summarizes the possible settings, the table lists the default settings.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Table 6-17 Pinout of the X3 RJ-12 Western jack for the MD2 modem Illustration Pin no. Signal name Signal direction Remark Input or bidirectional (channel 1) With 2-wire: Input and output channel 1 With 4-wire: Input Output or bidirectional (channel 2)
Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem 6.4.4 Connecting the MD2 with TIM, LTOP and dedicated line Introduction The following figures illustrate the various options for connecting the MD2 modem to a TIM or other MD2 modems as well as to a dedicated line over an LTOP. For more detailed information on connecting, wiring up and setting the LTOP, refer to the Line transformer with LTOP overvoltage protection section...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-16 Connecting an MD2 to a TIM over RS-232, 2 x 2-wire end point and 2-wire tapping point variants SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-17 Connecting an MD2 to a TIM over RS-232, 4-wire tapping point variant Note Any TIM with an RS-232 port can be used, in other words, the TIM 3V-IE variants, the TIM 4R-IE and all TIM 4 types.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-18 Connecting several MD2s to one TIM over RS-485, star-shaped convergence of several dedicated lines For the connection from the TIM to the first MD2, the 6NH7701-4DL standard connecting cable is used.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem The dedicated line is connected over the LTOP 1 or LTOP 2 overvoltage protection module. The figure shows various options for connecting a 1 x 2-wire, 1 x 4-wire or 2 x 2-wire end point per MD2 modem.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-20 Assembly of the standard connecting cable 6NH7701-4DL (parallel connection of the MD2) SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Connecting two MD2s to form a repeater Two MD2 modems can be connected to form a repeater when the distances to be covered are too great (2-wire or 4-wire repeater). The repeater amplifies the signal and regenerates the individual characters.
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Figure 6-22 Two MD2s as 4-wire repeater with simultaneous 4-wire tapping of a TIM 32 or TIM 42 In most cases, a repeater is placed at a location where there is also an ST7 station that includes a TIM with an integrated MD2 modem (TIM 32 or TIM 42).
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Transmission speeds and frequencies of the MD2 modem Table 6-19 Transmission speeds and frequencies of the MD2 modem Transmission Center frequency Frequency Lower keying Upper keying speed (bps) [Hz] deviation Δf (Hz) frequency (Hz)
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem Maximum range (km) Core diameter 0.9 mm 1200 36.2 – NTP x 0.9 36.6 – NTP x 0.5 42.8 – NTP x 0.9 43.3 – NTP x 0.5 2400 29.6 –...
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Installing and putting a SINAUT modem into operation 6.4 MD2 dedicated line modem − − − − × × − × m ax − − − − × m ax 23,2 − × − × m ax m ax Using the above formula, users can create their own calculations if the data of the cable being used is known.
Installing and putting a SINAUT modem into operation 6.5 LTOP line transformer with overvoltage protection LTOP line transformer with overvoltage protection Introduction Copper dedicated lines are highly susceptible to electromagnetic interference. The coupling of extraneous voltages can be inductive or capacitive, for example due to the effects of lightning.
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Installing and putting a SINAUT modem into operation 6.5 LTOP line transformer with overvoltage protection Note The protection elements in the OPM (Overvoltage Protection Module) undergo high stress during discharge processes and progressively deteriorate. It is therefore recommended that you replace the OPMs approximately once a year. To be on the safe side, in regions with frequent thunderstorms this period should be reduced to approximately 6 months.
Installing and putting a SINAUT modem into operation 6.5 LTOP line transformer with overvoltage protection View from above Schematic 6.5.2 Connecting up the MD2 modem The following figures show how the dedicated line modem MD2 is connected up. The LTOP1 or LTOP 2 is connected up over the standard cable that ships with the modem.
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Installing and putting a SINAUT modem into operation 6.5 LTOP line transformer with overvoltage protection Attachment to a 2-wire end point 2-wire end point over an LTOP 1 2-wire end point over an LTOP2 Attachment with a 4-wire end point or 2 x 2-wire end point 4-wire end point over an LTOP2 2 x 2-wire end point over an LTOP2 SINAUT ST7 Station control system - System Manual...
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Installing and putting a SINAUT modem into operation 6.5 LTOP line transformer with overvoltage protection Attachment to a 2-wire tapping point 2-wire tapping point over an LTOP2 SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
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Installing and putting a SINAUT modem into operation 6.5 LTOP line transformer with overvoltage protection Attachment to a 4-wire tapping point 4-wire tapping point over two LTOP2 SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Analog dial-up modem MD3 This section describes the design of the MD3 modem, its connectors, display elements and switches. 6.6.1 Indicators and connectors accessible from the front The following figure shows the front view of the MD3 modem with the front panels closed.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-23 Meaning of the LEDs on the front of the MD3 for dial-up operation LED no. Labeling Description Transmit data The LED flashes in rhythm with the data flow sent to the modem by the terminal device (TIM) over the RS-232 or RS-485 interface.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-24 Meaning of the LEDs on the front of the MD3 for dedicated line operation LED no. Labeling Description Transmit data The LED flashes in rhythm with the data flow sent to the modem by the terminal device (TIM) over the RS-232 or RS-485 interface.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-26 Front view of the MD3 modem with removed front panels Pinout of the RS-232 and RS-485 ports The X1 connector is designed as a 9-pin D-sub miniature male connector. The pinout is shown in the following table.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-25 Pinout of the X1 RS-232 connector Illustration Pin no. Signal name Signal direction Remark Output Output Input Input Output Input Output RI / T Output The X2 RS-485 connector is designed as a 9-pin D-sub miniature female connector.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-27 Standard connecting cable for the RS-232 and RS-485 port Order no. Description Illustration 6NH7701-4AL Connecting cable to connect the MD3 modem (RS-232) to a TIM (RS-232) or other DTE with a 9-pin RS-232 interface with an identical pin assignment.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-28 Assembly of the standard connecting cable 6NH7701-4DL You will find an example of connecting the MD3 modem to a TIM and to a telephone outlet Connecting the MD3 to a TIM and telephone outlet below in the section SINAUT ST7 Station control system - System Manual...
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 6.6.2 Configuration switches accessible from above The following figure shows the MD3 modem from above. It indicates the location of the SW1 (4-pin) and SW2 (10-pin) DIL switches that are accessible from above. Figure 6-29 View of the MD3 modem from above Settings with the DIL switches accessible from above...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 ● 10-pin DIL switch SW2 – Setting one of the 16 standard profiles – Data format 11 bits or 10 bits – Tone or pulse dialing – Modem type A (originate) or B (answer) for dedicated line operation –...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Setting the metering pulse filter The metering pulse filter can be set ● to 12 kHz or ● to 16 kHz Table 6-28 Setting the metering pulse filter Metering pulse filter Setting on DIL switch 16 kHz...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-30 Basic setting for dialing mode Meaning Setting on DIL switch Data format 11 bits (required, for example, for FT 1.2 format with ST1 and ST7) Data format 10 bits (required, for example, for FT 2 format with ST1 and ST7)
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-31 Setting standard dialing profiles Profile no. Meaning Setting on DIL switch AT mode V.25bis 1200 bps duplex, V.22 V.25bis 2400 bps duplex, V.22bis V.25bis 4800 bps duplex, V.32bis V.25bis 9600 bps duplex, V.32bis V.25bis...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-32 Basic setting for dedicated line mode Meaning Setting on DIL switch Data format 11 bits (8E1) Data format 10 bits (8N1) Modem A (originate) Modem B (answer) Line adjustment 600 ohms Line adjustment Zr The factory setting for the line adjustment is Zr because this normally adapts MD3 optimally to the dedicated line and the frequencies used.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-31 Point-to-point link between two MD3 modems over a 2-wire dedicated line Settings for a standard dedicated line profile Apart from the default setting for the dedicated line mode, switches SW2.2, SW2.3 and SW2.4 can be used to select one of the 8 dedicated line profiles.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Profile no. Meaning Setting on DIL switch 19200 bps (direct) (suitable only for RS-232 port) 19200 bps (buffered) (suitable only for RS-232 port) 33600 bps (buffered) (suitable only for RS-232 port) AT mode Freely configurable (also suitable for RS-485 port)
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Modem reset If the configuration of the modem is unclear, you can reset to the factory default settings. When you reset the modem, all 16 standard profiles are reset to the default setting. Procedure: 1.
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 6.6.3 Connectors and configuration switches accessible from below The following figure shows the MD3 modem from below with the X3 RJ-12 Western jack and the DIL switch for activating the RS-232 or RS-485 interface Figure 6-34 View of the MD3 modem from below Settings with the DIL switches accessible from below...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Pinout of the X3 RJ-12 jack The X3 connector of the MD3 modem is designed as a 6-pin RJ-12 Western jack. The pinout is shown in the following table. Table 6-35 Pinout of the X3 RJ-12 jack for the MD3 modem Illustration...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-37 Pinout of the RJ-12 and TAE6 connectors RJ-12 Western plug Signal name TAE6 plug Illustration Pin no. Pin no. Illustration Standard cable for dial-up mode For dial-up mode, cable 6NH7700-3BR60 is used to connect the MD3 modem to a TAE6 telephone outlet.
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 6.6.4 Connecting the MD3 with a TIM and TAE6 outlet The following figure summarizes how the MD3 modem is connected to a TIM (over RS-232) and with the telephone outlet (TAE6N jack) in dialing mode using the specified standard connecting cables.
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-37 Connecting an MD3 and a telephone in parallel to a TAE6 outlet 6.6.5 Connecting the MD3 with TIM, LTOP and dedicated line Introduction The following figures illustrate the various options for connecting the MD3 modem to a TIM (over RS-232) or other MD3 modems (over RS-485) in dedicated line mode as well as to a dedicated line over an LTOP.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-38 Connecting an MD3 to a TIM over RS-232, 2-wire end point variant Please follow the instructions in the figure above to ensure problem-free operation, Note Any TIM with an RS-232 port can be used, in other words, the TIM 3V-IE variants, the TIM 4R-IE and all TIM 4 types.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-39 Connecting several MD3s to one TIM over RS-485, star-shaped convergence of several dedicated lines For the connection from the TIM to the first MD3, the 6NH7701-4DL standard connecting cable is used.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Note Any TIM with an RS-232 port can be used, in other words, the TIM 3V-IE variants, the TIM 4R-IE and all TIM 4 types. Note Do not forget to activate the terminating resistor for the RS-485 bus on the last connector using the slider switch.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-40 Setting parameters for "half duplex" mode in the properties dialog of the SINAUT dedicated line, "Network Settings" tab Figure 6-41 Setting the RTS/CTS delay time in the properties dialog for TIM WAN access, "Dedicated Line"...
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-42 Assembly of the standard connecting cable 6NH7701-4DL from the TIM to the MD3 modems SINAUT ST7 Station control system - System Manual System Manual, 05/2007, C79000-G8976-C178-06...
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Attenuation values of the MD3 modem in dedicated line mode Table 6-39 Attenuation values of the MD3 modem in dedicated line mode Transmission speed (bps) Attenuation per km Attenuation per LTOP (dB) (dB)
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Figure 6-43 Wiring diagram of a PC-modem cable User-configurable profile 7 for dialing mode If none of the standard profiles 0 to 6 is suitable for the required application, profile 7 can be configured by the user and stored in non-volatile memory.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Table 6-40 Configuration for use with the RS-485 port Description of the profile AT string 300 bps (buffered) AT\N0F1&D0%E0\Q0&C2&L1&W15 1200 bps (buffered) AT\N0F2&D0%E0\Q0&C2&L1&W15 2400 bps (buffered) AT\N0F3&D0%E0\Q0&C2&L1&W15 4800 bps (buffered) AT\N0F8&D0%E0\Q0&C2&L1&W15 7200 bps (buffered)
Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 3. Connect the modem to the PC over its RS-232 port. 4. Turn on the power supply to the modem. 5. Transfer the required AT strings to the MD 3 using the terminal program according to the tables.
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Installing and putting a SINAUT modem into operation 6.6 Analog dial-up modem MD3 Connecting up the MD3 modem The following figure shows how to connect the MD3 modem in dedicated line mode. The LTOP 1 is connected up over the standard cable 6NH7700-3BR60 that ships with the modem.
Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 ISDN dial-up modem MD4 This section describes the design of the MD4 modem, its connectors, display elements and switches. 6.7.1 Indicators and connectors accessible from the front The following figure shows the front view of the MD4 modem with the front panels closed.
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 LED displays of the MD4 The following table summarizes the meaning and activity of the six LEDs on the front of the modem for dial-up operation. Table 6-42 Meaning of the LEDs on the front of the MD4 for dial-up operation LED no.
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Front view of the MD4 with removed front panels The following figure once again shows the front view of the MD4 modem, here, however, the front panels have been removed to show the connectors located behind them. Figure 6-46 Front view of the MD4 modem with removed front panels Pinout of the RS-232 and RS-485 ports...
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Table 6-43 Pinout of the X1 RS-232 connector Illustration Pin no. Signal name Signal direction Remark Output Output Input Input Output Input Output RI / T Output The X2 RS-485 connector is designed as a 9-pin D-sub miniature female connector.
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Table 6-45 Standard connecting cables for the RS-232 port Order no. Description Illustration 6NH7701-4AL Connecting cable to connect the MD4 modem (RS-232) to a TIM 3V-IE / TIM 4 (RS-232) or other DTE with a 9-pin RS-232 interface with an identical pin assignment.
Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 6.7.2 Configuration switches accessible from above Configuration switches accessible from above The following figure shows the MD4 modem from above. It shows the location of the 4-pin DIL switch that is accessible from above.
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Figure 6-49 Possible settings with the DIL switch accessible from above Note The MD4 modem adopts the settings at the DIL switch only when the 24 V DC power supply is turned on.
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Table 6-46 Overview of the configurable standard profiles for dialing mode Profile no. Description of the profile Profile setting on DIL switch SW1 (SW1.3 = ON) AT command set Data format: In the command phase: Self-adapting •...
Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Factory setting on the DIL switch When it ships, the modem has the following default settings: ● Standard profile 0: AT mode ● Reset OFF When shipped, the switches are set as shown in the following figure. 6.7.3 Connectors and configuration switches accessible from below The following figure shows the MD4 modem from below with the X3 RJ-12 Western jack and...
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Settings with the DIL switches accessible from below A 4-pin DIL switch on the bottom of the modem housing is accessible from below. This DIL switch is used to activate either the RS-232 or RS-485 interface. For RS-485 operation, you can also activate the terminating resistor.
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Installing and putting a SINAUT modem into operation 6.7 ISDN dial-up modem MD4 Note It is best to hold the cable just below the RJ-12 plug. This makes it easier to insert the plug than if you hold the RJ-12 plug itself. When inserting it, make sure that you can hear the RJ- 12 connector click into place! The following table shows the pinout of the two connectors for the above standard connecting cable.
Installing and putting a SINAUT modem into operation 6.8 Installing and putting a SINAUT MD2, MD3, MD4 modem into operation 6.7.4 Connecting the MD4 with a TIM and ISDN outlet The following figure summarizes how the MD4 modem is connected to a TIM (over RS-232) and with the ISDN outlet (S ) using the specified standard connecting cables.
Installing and putting a SINAUT modem into operation 6.8 Installing and putting a SINAUT MD2, MD3, MD4 modem into operation 6.8.1 Installation on an S7-300 rail Note If you want to install the modem along with other S7-300 modules, remember that the modem does not have an S7-300 backplane bus.
Installing and putting a SINAUT modem into operation 6.8 Installing and putting a SINAUT MD2, MD3, MD4 modem into operation 6.8.2 Installation on a 35 mm standard rail To install the modem on a 35 mm standard rail, the 6NH7760-0AA adapter is required (must be ordered separately).
Installing and putting a SINAUT modem into operation 6.8 Installing and putting a SINAUT MD2, MD3, MD4 modem into operation Table 6-50 Permitted ambient temperature for SINAUT modems Installation position Permitted ambient temperature 0 to 60 °C Horizontal 0 to 40 °C Vertical Dimensions for installing SINAUT modems Table 6-51...
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Installing and putting a SINAUT modem into operation 6.8 Installing and putting a SINAUT MD2, MD3, MD4 modem into operation Cables To wire the power supply, use flexible cables with a cable cross-section of 0.25 ... 0.75 mm2. If you wire only one cable per connection, no wire-end ferrule is necessary. Wiring To wire up the power supply module with a SINAUT modem, follow the steps below: 1.
Glossary Analog value An analog value is an analog process variable such as pressure, temperature etc. It is acquired over an analog input as a current or voltage value and converted by this module to a binary-coded value. In total, the converted value occupies 1 word; in other words, 16 bits including sign bit.
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Glossary Counted value A counted value (for example amount of flow) is acquired over a digital input as a pulse train and totaled to produce a binary-coded value. A counted value is 2 words: 28 bits for the binary-coded value 4 display bits. Communications processor (Central Processing Unit) The CPU handles the central sequential control and coordination of all activities of the...
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Glossary application. Ethernet is designed with a linear or star topology. The transmission media are shielded coaxial cables, twisted pair, or fiber-optic cables. SIMATIC NET Industrial Ethernet uses both the Ethernet and Fast Ethernet standards. Ethernet TIM A TIM module of the type TIM 3V-IE, TIM 3V-IE Advanced or TIM 4R-IE. Firewall A firewall is a network component via which a secure network can be linked with an unsecure network.
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Glossary Image memory principle A TIM has a send buffer and a message image memory for buffering send messages. If a send message is entered using the image memory principle, only a reference to the location of the message is entered in the message image memory. Whenever the TIM has the same message transferred to it again, before the message could actually be transmitted, only the image is updated.
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Glossary polled, a certain, selectable number of stations are polled in the subcycle. Following this, all the stations in the main cycle are polled again. The multipoint interface (MPI) is the programming device interface of SIMATIC S7. Devices with an MPI interface (for example a TIM), can also communicate with each other (MPI bus). Multimaster polling with time slots When stations need to communicate with more than one master station in dedicated line or wireless operation, the multimaster polling with time slots mode is used.
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Glossary PG / programming device A PG is a personal computer designed specifically for use in industry. A PG is fully equipped for programming SIMATIC automation systems. PG Routing Using PG routing, it is possible to access programmable modules or modules with diagnostic capability beyond network boundaries from a programming device (PG) or computer (PC).
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Glossary RJ-12 This describes a 6-pin connecting cable with a standardized modular (Western) connector. RJ-45 This describes a 8-pin connecting cable with a standardized modular (Western) connector. RS-485 RS-485 is a standard for data transmission with 5 V differential signals. The RS-485 interface uses only one pair of wires and is operated in half duplex.
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Glossary SIMATIC S7 Siemens automation system SINAUT (SIemens Network AUTomation) Station control system or telecontrol system based on SIMATIC S7 SINAUT message An ST7 message contains the data of an ST7 object for transmission. Depending on the object type, a message can contain either all data of an ST7 object or only a contiguous subarea of the object data.
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Glossary The short message service in the GSM standard is used to transfer short text messages to mobile radio users. When the short messages are transferred, they are first transferred to the SMS control center using a store-and-forward technique. They are buffered there and then forwarded to the recipient.
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Glossary data as well as the status of all SINAUT subscribers in the network and makes this data available directly to WinCC for fast transfer to the process image. ST7sc The SINAUT system allows the networking of SIMATIC stations with a control center over a WAN (Wide Area Network).
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Glossary The TIM is available in three basic variants: ● TIM 3 TIM 3x without MPI port, only for installation as a CP in the S7-300 with only one WAN port: either over the integrated modem or over the serial port for an external modem. ●...
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Glossary ● Private or leased dedicated lines (copper or fiber-optic cable) ● Private radio networks (directional or omnidirectional radio and private mobile radio with time slots) ● Analog telephone network ● Digital ISDN network ● GSM mobile wireless network with the services CSD, GPRS and SMS ●...
Index General, 115, 212 MD modem, 312 TIM 3 / TIM 4, 136 TIM 3V-IE variants, 119 Ambient temperature TIM 4, 140 MD modem, 313 TIM 4R-IE, 125, 133 TIM, 115, 213 Internet, 16 ANT794-4MR GSM/GPRS antenna, 67 LED display CE mark, 106 MD3 modem (hardware ≥...
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Index Modem MD2, 179, 237, 247 Support, 16 Modem MD720-3, 228 TIM 32, 178 TIM 33 (hardware ≥ 6), 191 TIM 34, 199 Technical specifications TIM 42 / 42D, 204 ANT794-4MR GSM/GPRS antenna, 72 TIM 43 / 43D (hardware ≥ 6), 205 DCF77 antennas, 80 TIM 44 / 44D, 206 GPS receiver, 81...