Preface, Contents SIMATIC HMI SIMATIC Panel PC 670 Computing Unit Equipment Manual Product Overview 1 Commissioning 2 Setting Up and Operating the Computing Unit 3 Computing Unit Expansions 4 Configuring the Computing Unit 5 Hardware Information 6 Remote Mount form factor 7 A Appendices C Glossary, Index This manual is part of the documentation package with the order number: 6AV7691-0AA00-1AB0 Edition 12/01
Safety Guidelines This manual contains notices which you should observe to ensure your own personal safety, as well as to protect the product and connected equipment. These notices are highlighted in the manual by a warning triangle and are marked as follows according to the level of danger: ! ! ! Danger indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury.
Trademarks You will find the registered trademarks of Siemens AG in the preface. Some of the other designations used in these documents are also registered trademarks; the owner’s rights may be violated if they are used be third parties for their own purposes. Impressum Editor: Publisher: A&D PT1D1 A&D SE ES4 Copyright Siemens AG 2000 All rights reserved Disclaimer of Liability The reproduction, transmission or use of this document or its contents is not permitted without express written authority.
Index-4 SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01
Preface About this manual The SIMATIC Panel PC 670 equipment manual is part of the SIMATIC HMI documentation and consists of two parts: control unit and computing unit. It provides information for operators, mechanics, project engineers and maintenance personnel about the computing unit’s installation, functionality, operation and technical structure.
Preface Notation The following conventions are used in this manual: Motor off Text that is displayed on the operating unit is printed in Courier type face. Variable Symbolic names that stand for variable quantities that appear on the screen are printed in Courier italic type face. Screens Selectable functions are printed in standard italic type face. ESC Names of keys and buttons are shown in a different type face.
Preface Automation and Drives, Service & Support Der Service & Support von A&D ist weltweit jederzeit erreichbar. The languages of the SIMATIC Hotlines are generally German and English, in addition, French, Italian and Spanish are spoken on the authorization hotline. Nürnberg Johnson City Singapur Service & Support Technical Support Europe and Africa (Nurernberg) Authorization–Hotline Europe and Africa (Nuremberg) Mon.– Fri.
Preface Training Center To help you become familiar with SIMATIC S7 programmable controllers, we offer training courses. Please contact your regional training center or the central training center in D 90327 Nuremberg. Phone: +49 (0) 911–895–3154 Infoline: Tel. +49 (0) 1805 23 56 11 Fax. +49 (0) 1805 23 56 12 Internet: http://www.sitrain.com E–Mail: AD–Training@nbgm.siemens.
Preface Further Support If you have further questions about SIMATIC NET products, contact your local Siemens representative. You will find the addresses: S in our catalog IK PI S on the Internet http://www.siemens.de/automation/partner S in our interactive catalog CA01 http://www.siemens.
Preface viii SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01
Table of Contents Table of Contents Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . iii 1 Product Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 2 Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 2.1 Unpacking and Checking the Item Delivered . . . . . . . . .
Table of Contents 5 6 1-2 4.5.4 Removing and Installing the LS 120 Drive . . . . . . . . . . . . . . . . . . . . . . . . . . 4-22 4.6 Removing and Installing the Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . 4-23 4.7 4.7.1 Removing and Installing the Wiring Backplane . . . . . . . . . . . . . . . . . . . . . . Removing and Installing the Motherboard . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-24 4-25 4.8 Removing and Installing the Fan . . . . . . . . . . . . . .
Table of Contents 6.12 Connecting Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-43 Remote mount form factor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 7.1 7.1.1 7.1.2 7.1.3 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents 1-4 SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01
Product Overview 1 Overview The computing unit is used as an entry-level system to PC-based automation, as a basic component for the PC-based HMI devices (Panel PC), as a basic component for PC-based machine operating panels (OP031, OP032S, OP032L, Trumpf OEM BT) and in special configurations as a basis for custom-configured devices.
Product Overview Installation The computing unit can be installed in virtually all the usual locations (refer to Chapter 2.2). There are anchorage points on both of the longs sides for securing the computing unit. Mounting brackets are screwed onto these anchorage points. Functions The computing unit is equipped with software which allows it to be used universally. It includes the Windows NT or Windows 98 operating system. (Windows 2000 is in preparation.
Product Overview Advantages of the computing unit S The computing unit is rugged in design and its functions make it particularly suitable for use on site under harsh industrial conditions. It meets the specific requirements of an industrial environment, such as noise immunity, compliance with standards, ruggedness and continuous operation. S Owing to the variable operating location and the many options for installation, the computing unit can be used virtually anywhere.
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Commissioning 2 Chapter Overview In Section You Will Find on Page 2.1 Unpacking and Checking the Item Delivered 2-2 2.2 Installing the Item Supplied 2-3 2.3 Ensuring Readiness for Service 2-8 2.
Commissioning 2.1 Unpacking and Checking the Item Delivered Unpacking the item Unpack the item delivered to you as follows: 1. Remove the packaging. 2. Do not throw the original packaging away. Keep it in case you have to transport your PC at some time in the future. 3. Please keep the enclosed documentation in a safe place. You will require it when you first start up the item delivered to you and it is part of the device. 4. Check the packaging and the package contents for any visible damage.
Commissioning 2.2 Installing the Item Supplied The item delivered to you is particularly suitable for installation in consoles, cabinets and panels. The device complies with the requirements for a fire enclosure to EN60950. It can therefore be installed without an additional fire enclosure; Please observe the following points when installing your device: ! S Avoid extreme environmental conditions whenever possible. Protect your device from dust, moisture and heat.
79.5 mm 11.701 ” 3.13 “ 267 mm 297.2 mm 10.512 “ Commissioning 11.2 mm 0.
Commissioning Figure 2-2 297.2 mm 100 mm 11.701 ” 3.
Commissioning Permissible installation locations for the computing unit with floppy disk drive An inclined position of ± 20_ is allowed at each of the permissible storage locations.
Commissioning Note The possible installation locations for the computing unit do not agree with the permissible installation location of Panel PC 670 (refer to the commissioning instructions).
Commissioning 2.3 Ensuring Readiness for Service Grounding Measures Low-resistance grounding connections ensure that the user of the installation is protected against electric shock (for example, if a short-circuit occurs or if there are defects in the system). Moreover, they discharge interference transmitted by external power supply cables, signal cables or cables to I/O devices.
Commissioning Connecting and turning on the computing unit Before you connect the computing unit to the mains, connect the front panels ready for operation. 1. Insert the connecting cables into the appropriate sockets on the port side of the computing unit (refer to section 3.4.) 2. Once the peripheral devices have been connected, the device is ready for mains operation. Connect your device to the mains supply. The computing unit is now operating.
Commissioning 2.4 Transportation Shipping Despite the rugged design of the computing unit, its built-in components are sensitive to severe vibrations and shock. You must therefore protect your computing unit from severe mechanical stress when it is in transit.
Setting Up and Operating the Computing Unit 3 Chapter Overview In Section You Will Find on Page 3.1 Right Side of the Device (Port Side) 3-2 3.2 Left Side of Device (Drive Side) 3-3 3.3 Connecting the Computing Unit to the Power Supply 3-5 3.4 Connecting Peripheral Devices 3-7 3.5 Working with PC Cards 3-11 3.6 Drives 3-14 3.7 Using the Computing Unit in a SIMATIC S5 Network 3-17 3.8 Using the Computing Unit in a SIMATIC S7 Network (MPI/DP) 3-21 3.
Setting Up and Operating the Computing Unit 3.1 Right Side of the Device (Port Side) Mouse COM1/V24/PLC Keyboard Figure 3-1 LPT1/Printer COM 2 VGA PCI slot USB PCI/ISA slot MPI/DP Ethernet PC card Right Side of Device with Ports Note When connecting I/O devices, always be sure to use shielded cables and metal connectors to avoid invalidating your operating permit. Use a screwdriver to fasten the interface cable connectors on the housing of the computing unit to improve electrical shielding.
Setting Up and Operating the Computing Unit 3.2 Left Side of Device (Drive Side) Fan Figure 3-2 Nameplate Floppy Disk Drive Left Side of Device Reset Key The Reset key can only be pressed with the aid of a pointed object (for example, elongated paper clip). Pressing the Reset key triggers a hardware reset. The computing unit restarts. Caution There may be a loss of data with a hardware reset.
Setting Up and Operating the Computing Unit Note The default setting of the display is simultaneous operation of a flat display and an external monitor. If no front display element is connected, the external monitor is used for the display, at a resolution of 640 x 480 pixels. Modes with a lower resolution and text modes are expanded to this format. To optimize the display on the external monitor, set ”CRT/LCD selection: CRT enabled” in Setup on the main menu using the ”Hardware Options” dialog box.
Setting Up and Operating the Computing Unit 3.3 Connecting the Computing Unit to the Power Supply Connecting to the power supply The computing unit can be operated using the device socket for non-heating appliances on 120 V and 230 V power systems. Voltage changeover is automatic. 1. Insert the power supply cable supplied with the device into the device socket for non-heating appliances. 2. Connect the mains lead to a socket having a grounded protective ground conductor. 3.
Setting Up and Operating the Computing Unit To completely disconnect the PC from the mains power supply, you must pull the plug. This connection must be easily accessible. If the PC is to be installed in a cabinet, a central disconnector must be provided. Lay the cables so that no one can step on or trip over them. When connecting the device, carefully study the pertinent information given in Chapter 2. Never connect or disconnect power cables or data transmission lines during a thunderstorm.
Setting Up and Operating the Computing Unit 3.4 Connecting Peripheral Devices Note Make sure the components you insert exhibit industrial compatibility when connecting peripheral devices Printer connection via parallel port To connect your printer, perform the following steps: 1. Turn off the computing unit and the printer. 2. Plug the printer cable onto the parallel port, LPT 1. 3. Connect the printer cable to the printer. 4. Tighten (screw) the connector on the port.
Setting Up and Operating the Computing Unit Printer connection via serial port Alternatively, you can connect your printer via a serial COM interface to the computing unit. You will find information on how to adapt and set your port and on the connecting cable you should use in the user manual for your printer. Using a mouse A PS/2, USB or a serial mouse can be used in conjunction with the computing unit.
Setting Up and Operating the Computing Unit Connecting a serial mouse You can connect a serial mouse to the serial port COM 2. To operate a serial mouse, you have to install and assign parameters to the suitable mouse driver. To do this, please refer to the description of your mouse or the description of your operating system for the necessary information. 1. Turn your device off. 2. Plug your serial mouse onto the mouse connector labeled COM 2. 3. Screw the connector tight. 4. Restart your device.
Setting Up and Operating the Computing Unit Connecting USB devices You can connect devices having a USB interface to the USB interface. S Plug in the USB cable. The device is detected automatically by a “plug and play” operating system such as Windows 98 and is then available. A USB keyboard can be operated to run BIOS setup. USB interface Figure 3-7 USB Connection Note Operating systems which do not support “plug and play” (Windows NT 4.0, for example) generally do not allow operation of USB devices.
Setting Up and Operating the Computing Unit 3.5 Working with PC Cards PC cards Card bus cards (32 bit) and PCMCIA cards (16 bit) can be operated in the PC card interface. The computing unit features a PC card interface. Communication modules for MODEM, FAX/MODEM, ISDN, Token Ring, ETHERNET, memory expansions and check-card sized SCSI interface modules can be plugged into this interface.
Setting Up and Operating the Computing Unit Caution Always discharge your body’s charge before inserting or removing Cardbus/PC cards by briefly touching a grounded object (refer also the ESD Guideline, section C). Damage could occur if you do not. Note Peak currents of 650 mA at 5 V referred to 3 s are allowed. Examples of PCMCIA cards on the PC card interface for hard disk drive 330 mA read/write (Maxtor MXL-131-III) . . . . . 640 mA spin up 2 s . . . . . . . . . . . . . . . . . . . . . . . .
Setting Up and Operating the Computing Unit Caution Danger of PC cards and the computing unit being damaged. The PC card must be plugged into the interface with its front facing the rear side of the computing unit. This side is normally marked with a company or product name and the wording ”This side up” or something similar. If you attempt to insert the cared wrongly, the computing unit and the PC card might become damaged.
Setting Up and Operating the Computing Unit 3.6 Drives 3.6.1 CD-ROM drive (depending on hardware configuration) Note The EJECT function offered by various applications for opening the CD-ROM tray does not work with this drive. Once you have closed the tray, the CD is tested and the access LED on the drive starts to flash: – If the LED flashes continually, the CD is faulty but can still be read.
Setting Up and Operating the Computing Unit Emergency eject The following procedure is used to remove the data medium when the eject button is locked by software or no power is being supplied to the drive. Motor-driven opening is not possible in this case. 1. Make sure that there is no power supply to the drive (switch off the PC). 2. Insert a max.1.3 mm thick and at least 55 mm long object (for example an elongated paper clip) into the emergency removal hole at the front of the drive.
Setting Up and Operating the Computing Unit Floppy disk handling with floppy disk drive Insert the floppy disks into the drive as illustrated, depending on the installation location: Drill hole for emergency ejection (LS120 only) Eject button Access light Eject button Access light Figure 3-11 Handling Floppy Disks The access light is on when the drive is being accessed. Emergency removal with the LS120 works in the same manner as with the CD-ROM drive. Refer to section 3.6.1 for details.
Setting Up and Operating the Computing Unit 3.7 Using the Computing Unit in a SIMATIC S5 Network Point-to-point connection, This section describes the options for connecting your computing unit to a programming unit or an S5 programmable controller in a point-to-point connection. A point-to-point connection is possible by connecting the computing unit to another programming unit or a programmable controller by means of: S S a V.
Setting Up and Operating the Computing Unit Connecting the computing unit to an S5 programmable controller You can connect the computing unit to a SIMATIC S5 programmable controller using the COM 1/TTY interface. COM 1 (Socket) Figure 3-12 Connection to an S5 Programmable Controller To connect the computing unit to a SIMATIC S5 programmable controller, perform the following steps: 1. Turn your device off. 2. Plug the connecting cable onto the COM 1 port. 3. Screw the connector tight. 4.
Setting Up and Operating the Computing Unit Connecting the computing unit via an adapter An adapter is available for connecting the computing unit to the PLC with earlier standard connecting cables. Table 3-1 Adapter for Computing Unit Connection Interface COM 1 as TTY port Connection Computing unit to a SIMATIC S5 programmable controller Connecting cable Order No.
Setting Up and Operating the Computing Unit Note When connecting the computing unit to another programming unit, you must switch the TTY ports (COM1) in one of the programming units by changing the jumper setting. When the computing unit is delivered to you, this port is always set to active. Switching the computing unit active/passive The COM 1 (TTY) serial port is set to active (20 mA current loop) when the computing unit is delivered to you.
Setting Up and Operating the Computing Unit 3.8 Using the Computing Unit in a SIMATIC S7 Network (MPI/DP) Connecting to an S7 programmable controller via the MPI/DP interface You can connect the computing unit to a SIMATIC S7 programmable controller or to a PROFIBUS network using an isolated*) MPI/DP interface. The MPI connecting cable (5m) for the connection to SIMATIC S7 CPUs (Order No. 6ES7901-0BF00-0AA0) is supplied with the computing unit. Only transfer rates up to 187.
Setting Up and Operating the Computing Unit Connection Using the MPI/DP interface, it is possible to connect programming units with: S MPI networks (S7 200, S7 300 and S7 400) or S PROFIBUS-DP networks (DP components) MPI/PROFIBUS-DP network Up to 32 devices (PCs, programming units or PLCs) can be connected to the MPI/DP interface to form a network segment.
Setting Up and Operating the Computing Unit 3.9 Networking the Computing Unit and Other Nodes via PROFIBUS Networking the computing unit via PROFIBUS PROFIBUS is an open and rugged bus system for industrial use. It can be used to configure networks with up to 32 nodes per segment. PROFIBUS-DP supports data rates of 9.6 KBaud to 12 MBaud. How the network functions The network operates on the ”token passing with subordinate master/slave” principle (complying with DIN 19245, PROFIBUS).
Setting Up and Operating the Computing Unit 3.10 Networking the Computing Unit and other Computers via Industrial Ethernet Networking the computing unit via Industrial Ethernet Industrial Ethernet is an industry standard bus system based on ETHERNET (ISO 8802/3). The main features of Industrial Ethernet are: speed (10 Mbps), simple expansion, open communications and widespread application.
Computing Unit Expansions 4 What does this chapter contain? You can enhance the functionality of your computing unit by installing additional main memory. This chapter describes how to expand your computing unit. Please observe the safety notes it contains. Chapter Overview In Section You Will Find 4.1 Opening the Device 4-2 4.2 Installing Additional Memory 4-5 4.3 Replacing the Backup Battery 4-6 4.4 Installing Expansion Boards 4-13 4.5 Removing and Installing Drives 4-18 4.
Computing Unit Expansions 4.1 Opening the Device 4.1.1 Requirements The device is designed for easy maintenance so that any work that may be necessary can be done quickly and economically. Caution The electronic components on the printed circuit boards are extremely sensitive to electrostatic discharge. Certain precautionary measures are therefore necessary when handling such components.
Computing Unit Expansions Before opening the device Note the following rules before opening the device: S Before you disconnect the power supply cable, discharge the electrostatic charge on your body. You can do this by briefly touching the mounting plate for the interfaces on the left side of the device. S Discharge the electrostatic charge from tools you are using. S Wear a grounding strap when handling components.
Computing Unit Expansions 4.1.2 Opening the Computing Unit To open the computing unit, perform the following steps: 1. Turn off the computing unit, pull out the mains connector and remove all interconnecting cables and connecting cables from the device, including the keyboard cable. 2. Remove the computing unit from its mounting/cabinet (only necessary if mounting screws are inaccessible as a result of installation). 3. Undo the two screws (refer to Figure 4-1) on the housing cover. 4.
Computing Unit Expansions 4.1.3 Functional Units Visible After opening the Device Once you have removed the top cover of your unit, the functional units are visible.
4-6 Figure 4-3 3/3.6V CTRL 26 5 SD(0:7) BIOS 32 PLCC 29F040 512KB 3.
Figure 4-4 33 32 31 SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01 30 X420 +EMC D9 CPU PIIX4E Other logic ISA USB IDE PCI 3.3V/5V LVDS/TFT display D11 BIOS X3 SMSC 37B727 LPT/ COM FDC Ultra I/O Prim. IDE 2.5’’ 26 X5 Sec. IDE 2.5’’ Unassigned disk X31 X4 X25 X41 HD PS 3.3V driver CMOS CBT CBT LVDS CBT 5V VCC 5V DRAM ISA D19 Prim. IDE 3.5’’ COM2) X26 (alt.
Computing Unit Expansions Components on the motherboard The following components are located on the computing unit: Serial Number 1 2 4-8 Functions Processor module with heat sink Connector for fan 3 4 5 6 7 8 9 10 Loudspeaker Connector for clock battery System memory, 2 slots TTY sender TTY receiver PC card slot DIP switch TTY active/passive RJ45 socket for Ethernet LAN 11 12 13 14 15 16 17 18 19 20 DP12 RS485 module MPI/DP port USB bus connector Serial interface COM 2 Socket for VGA monitor Serial
Computing Unit Expansions 4.2 Installing Additional Memory Standard memory The motherboard has 2 slots for 144 pin SO DIMM memory submodules. This allows you to expand the memory capacity of your computing unit to 256 Mbytes. The basic configuration – depending on the device configuration you ordered – consists of a SDAM module of up to 256 Mbytes. Only one module has to be installed.
Computing Unit Expansions ! Caution The electronic components on the printed circuit boards are extremely sensitive to electrostatic discharge. Certain precautionary measures, therefore, have to be taken when handling them. These measures are explained in the guidelines for electrostatic sensitive devices (ESD Guidelines at the end of this manual). Installing the SO DIMM Submodules To insert the submodules, perform the following steps: 1. Open the unit first as described in section 4.1. 2.
Computing Unit Expansions 4.3 Replacing the Backup Battery Battery power supply for real-time clock and configuration A backup battery (3.6 V lithium battery) powers the real-time clock even after the device is turned off. In addition to the time of day, all the information about the device (device configuration) is stored. If the backup battery fails or is removed from its plug, these data are lost.
Computing Unit Expansions Backup battery removed Figure 4-6 ! Position of the Backup Battery Warning Danger of bodily injury and damage to property, danger of release of noxious matter. A lithium battery can explode if mistreated and noxious matter might be released if old batteries are disposed of wrongly. Do not throw new or empty lithium batteries into the fire, and do not solder on the cell housing; do not recharge lithium batteries or force them open.
Computing Unit Expansions 4.4 Installing ISA/PCI Cards Notes about the cards The computing unit is designed for the use of cards as per the AT/PCI specification. The dimensions of the cards must not exceed the stated dimensions. If the height is exceeded, contact problems, malfunctions and difficulties with installation cannot be ruled out. The illustrations show full length AT/PCI cards. Depending on the slot, there might be constraints concerning the overall length. 106.7 mm 4.201” 175 mm 6.
Computing Unit Expansions Figure 4-9 106.68 mm 4.2” 8.19 mm 0.322” 174.63 mm 6.875” Short PCI Card (5 V) Figure 4-10 106.68 mm 4.2” 8.19 mm 0.322” 265 mm 10.48 ” Long PCI Card (5 V) Note about long PCI cards Before long PCI cards can be inserted in the guides of the fan trough, they must be fitted with an extender (this should be included with the long PCI board). Long PCI cards can be inserted in the guides of ISA modules by means of this extender.
Computing Unit Expansions 4.4.1 Removing and Installing the Device for Holding Down the Modules Use of devices for holding down the modules increases the resistance of the modules to vibration. The device for holding down the modules is attached to the system housing with a screw. It has three slits, through which the slide elements are inserted. Proceed as follows: 1. Open the housing as described in section 4.1. 2. Undo the fixing screw of the device for holding down the modules. 3.
Computing Unit Expansions Aligning the device for holding down the modules: To install the device for holding down the modules, perform the following steps. 1. Insert the slide element through the guide slit until it is resting firmly on the module. The module must now be introduced into the notch. Caution Do not exert pressure on the module! Therefore, do not use force to press the slide module onto the module. 2.
Computing Unit Expansions 4.4.2 Removing and Installing an ISA/PCI Card Proceed as follows: 1. Open the housing as described in section 4.1. 2. Remove all the connectors from the module and make a note of their assignment. 3. Remove the device for holding down the modules as described in section 4.4.1. 4. Undo the screw on the slot plate of the module. 5. Pull the module out of its slot. 6. Proceed in the reverse order to install the new module.
Computing Unit Expansions 4.5 Removing and Installing Drives The basic configuration of the computing unit includes a 3.5” floppy disk drive and a 3.5” hard disk. An LS 120 drive is possible for custom solutions. 4.5.1 Removing and Installing the Hard Disk The hard disk is used to store large quantities of data. It is installed on a vibration-damped mounting that is easy to replace. Caution Danger of data being lost and the drive damaged Drives are very sensitive to unacceptable vibrations.
Computing Unit Expansions Fixing screws Figure 4-13 Removing and Installing the Drive Cage Figure 4-14 Hard Disk with Cage Removed SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01 4-19
Computing Unit Expansions 4.5.2 Removing and Installing a CD-ROM Drive Depending on the hardware configuration of the device, a CD-ROM drive is installed on the computing unit. The mounting depth of the SIMATIC PC is increased by 20 mm as a result of its installation. 1. Undo the 2 screws on the back of the system housing. 2. Remove the cover of the CD-ROM drive. 3. Undo the three screws which secure the CD-ROM on the mounting. 4.
Computing Unit Expansions 4.5.3 Removing and Installing the Floppy Disk Drive 1. Remove the hard disk mounting as described in section 4.5.1. 2. Undo the interlocking of the controller flexible cable on the motherboard and pull the flexible cable out of the plug connection. 3. Undo the two fixing screws (TORX T8) on the system housing. 4. Lift the floppy disk drive upwards out of the housing. 5. Proceed in the reverse order to install the new drive.
Computing Unit Expansions 4.5.4 Removing and Installing the LS 120 Drive To remove and install the LS120 drive, perform the same steps as for installing the floppy disk drive. 1. Remove the hard disk mounting as described in section 4.5.1. 2. Release the cable clamp assembly of the controller flexible cable on and pull the flexible cable out of the plug connection. 3. Undo the two fixing screws (TORX T8) on the system housing. 4. Lift the LS120 drive upwards out of the housing. 5.
Computing Unit Expansions 4.6 Removing and Installing the Power Supply 1. Open the system housing as described in section 4.1. 2. Remove the drive mounting as described in section 4.5.1. 3. Undo and remove the 3 screws of the cover of the power supply unit from the system housing. 4. Undo the two fixing screws (TORX T10) on the system housing. 5. Pull the power supply unit upwards out of the system housing. 6. Proceed in the reverse order to install the new power supply unit.
Computing Unit Expansions 4.7 Removing and Installing the Wiring Backplane 1. Open the system housing as described in section 4.1. 2. Remove all the modules from their slots (perform the steps described in section 4.4.2). 3. Remove the drive mounting as described in section 4.5.1. 4. Remove the power supply unit as described in section 4.6. 5. Undo the screw on the motherboard. 6. Pull the wiring backplane from the motherboard. 7. Proceed in the reverse order to install the new wiring backplane.
Computing Unit Expansions 4.7.1 Removing and Installing the Motherboard 1. Open the system housing as described in section 4.1. 2. Remove all the modules from their slots (perform the steps described in section 4.4.2). 3. Remove the drive mounting as described in section 4.5.1. 4. Remove the power supply unit as described in section 4.6. 5. Undo 7 screws on the motherboard and undo 10 hexagon head cap screws at the interfaces. 6. Remove the wiring backplane and the motherboard. 7.
Computing Unit Expansions 4.8 Removing and Installing the Fan The computing unit is cooled by means of a fan, which extracts hot air out of the housing. 1. Open the system housing as described in section 4.1. 2. Pull off the fan cable connector on the basic board. 3. The fan is secured to the system housing by two plastic rivets. Undo the rivets by pressing out the gudgeon from the rear of the rivet shank. 4. Remove the fan. 5. Proceed in the reverse order for assembly.
Computing Unit Expansions Caution To ensure that the device is adequately cooled, take care that the running direction of the fan is correct when installing. Ensure that the arrow on the fan is pointing towards the housing wall.
Computing Unit Expansions 4.9 Processor Upgrade You can boost the performance capability of your computing unit by installing other processors. Consult your local service partner or distributor. Note Processor upgrade If the processor is upgraded, for example to a processor with a different frequency, it might be necessary to upgrade the BIOS. Processor module with heat sink Figure 4-22 Fixing screws Position of the Processor Proceed as follows: 1. Open the system housing as described in section 4.
Computing Unit Expansions Note The processor is supplied as a spare part without a heat sink.
Computing Unit Expansions 4.
Computing Unit Expansions 4.11 Network Connections and Interconnections 4.11.1 Connecting the MPI/DP Port Connecting a PROFIBUS-DP network via the MPI/DP port You can connect the computing unit to PROFIBUS-DP networks via the isolated *) MPI/DP port. The physical connection is established with SINEC-L2 components for stationary connections or using the 5 m long MPI connecting cable for non-stationary connections.
Computing Unit Expansions 4.11.2 Point-to-Point Connection Point-to-point connection This section describes the options for connecting your computing unit to a programming unit or a programmable controller in a point-to-point connection. A point-to-point connection is possible by connecting the computing unit to a programming unit or a programmable controller by means of: S a V.24 connection S a TTY connection You will find detailed notes in section 6.12.
Computing Unit Expansions Note The interference field of the source of interference is reduced by the square of the distance. Connecting the computing unit to an S5 programmable controller You can connect the computing unit to a SIMATIC S5 programmable controller using the COM1/TTY interface. To connect the computing unit to a SIMATIC S5 programmable controller, perform the following steps: 1. Turn your computing unit off. 2. Plug the connecting cable onto the COM1 /V.24/PLC port.
Computing Unit Expansions High data transfer rate at distances up to 1000 m In order to maintain a data transmission rate of 9600 bps up to a distance of 1000 m, the receive diode is connected to ground (reference) via the connecting cable. Cables of various lengths are available under the order number 6ES5 734-2xxx0 (xxx stands for the length code). 4.12 Reset Button A hardware reset is initiated by means of the reset button on your device. The computing unit is restarted (cold restart).
Configuring the Computing Unit 5 What does this chapter contain? In this chapter, you will learn how to configure your computing unit. You need to do this if you want to change your system by adding, removing, or exchanging an extension board, memory expansion module, or by replacing a system module. Chapter Overview In Section You Will Find on Page 5.1 Modifying the Device Configuration with SETUP 5-2 5.1.1 The Main Menu 5-4 5.1.2 The Advanced Menu 5-12 5.1.3 The Security Menu 5-19 5.1.
Configuring the Computing Unit 5.1 Modifying the Device Configuration with SETUP Modifying the device configuration The device configuration of your computing unit is preset for working with the software supplied to you. You should only modify the preset values if you have performed technical modifications to your device or if a fault occurs when the unit is powered up. SETUP program The Setup program is in the ROM BIOS.
Configuring the Computing Unit After BIOS Setup has started, the following dialog box appears on the screen: PhoenixBIOS Setup Utility Title bar Menu bar Main Advanced System Time: Selectable submenu Security Power System Date: [ 15:35:32 ] [ 01/23/1999 ] Diskette A: Primary Master Primary Slave Secondary Master Secondary Slave [ 1.
Configuring the Computing Unit 5.1.1 The Main Menu PhoenixBIOS Setup Utility Main Advanced System Time: Power System Date: [ 15:35:32 ] [ 01/23/1999 ] Diskette A: Primary Master Primary Slave Secondary Master Secondary Slave [ 1.44 MB, 31/2” ] [4326 MB] [None] [None] [None] Memory Cache: Boot Options Keyboard Features Hardware Options [Write Back] System Memory: Extended Memory: Figure 5-2 Security Boot Sequence Version EXIT Item Specific Help Shift Tab TAB selects field.
Configuring the Computing Unit System Time and System Date Time and date System Time and System Date display the current values. Once you have selected the appropriate box, you can use the + and – keys to modify the Hour:Minute:Second and Month/Day/Year settings. You can move between the entries in the System Time and System Date boxes (for example, from Hour to Minute) using the tabulator key. Diskette A Disk drive Here you set the type of floppy disk drive installed on the computing unit.
Configuring the Computing Unit Type The parameters you can select here are normally stored on your IDE drive. The Auto setting in the Type field means that these values are automatically read from the drive and saved (Autodetect). If the Type field is selected for a drive that does not exist, a timer times out in approximately 1 minute and the entries remain unchanged. It is sensible to set Auto only for those interfaces to which a drive is connected.
Configuring the Computing Unit Memory Cache The following shortcut menu when you choose this menu option: PhoenixBIOS Setup Utility Main System Time: System Date: Diskette A: [ 15:35:32 ] [ 01/23/1999 ] Item Specific Help [ 1.
Configuring the Computing Unit Boot Options The system goes to the following submenu when you select this menu option: PhoenixBIOS Setup Utility Main Boot Options QuickBoot Mode: Item Specific Help [Enabled] SETUP prompt: [Enabled] POST Errors: [Enabled] Floppy check: [Disabled] Summary screen: [Enabled] Allows the system to skip certain tests while booting. This will decrease the time needed to boot the system.
Configuring the Computing Unit Example of a summary screen: PhoenixBIOS Set Up Utility SIMATIC Box Pentium PII 266 MHz CPU: CPU Speed System Extended Shadow RAM: Cache RAM: Hard Disk 0: Hard Disk 1: Hard Disk 2: Hard Disk 3: Figure 5-6 PC 620 640 KB 63 MB 384 KB 512 kB 6495 MB None BIOS Version: V7....
Configuring the Computing Unit Numlock Switches Numlock on or off following power on Key Click A keystroke can be heard.
Configuring the Computing Unit Entry Legacy USB Support: CRT / LCD selection Meaning Disabled A USB-capable operating system with the corresponding drivers is required to operate a USB keyboard or USB mouse. Setup adjustments can still be made with a USB keyboard. Enabled USB keyboard and USB mouse are not supported by the operating systems without USB capability. Operating systems not having USB capability can be used.
Configuring the Computing Unit 5.1.2 The Advanced Menu Menu structure PhoenixBIOS Setup Utility Main Advanced Security Boot Sequence Power Setup Warning: Setting items on this menu to incorrect values may cause your system to malfunction.
Configuring the Computing Unit Field Meaning Large Disk Access Mode DOS The drive tables are adapted for DOS access operations in accordance with Enhanced IDE. Other The tables are not adapted. Harddisk Pre-Delay Disabled No additional startup delay for the hard disk. 3 – 30 Additional startup delay for the secondary hard disk can be selected; needed only for older-generation hard disks. Memory Gap at 15 MByte Disabled The area from 15 to 16 Mbytes is not available as PC-card memory.
Configuring the Computing Unit Field Meaning Internal COM2 Disabled The resources assigned to an interface are freed. Base I/O address Sets the base input/output address. It is preassigned and recommended accordingly. Interrupt Sets the interrupt. It is preassigned and recommended accordingly. Internal LPT1 Disabled The resources assigned to an interface are freed. Mode Use this setting to set the operating mode of the printer interface.
Configuring the Computing Unit PCI Device Field The system goes to the following submenu when you select this menu option: PhoenixBIOS Setup Utility.
Configuring the Computing Unit On board PCI Ethernet field The system goes to the following submenu when you select this menu option: PhoenixBIOS Setup Utility.
Configuring the Computing Unit PCI/PNP ISA IRQ Resource Exclusion field The system goes to the following submenu when you select this menu option: PhoenixBIOS Setup Utility.
Configuring the Computing Unit PCI IRQ line field The system goes to the following submenu when you select this menu option: PhoenixBIOS Setup Utility. Advanced Item Specific Help PCI Configuration PCI devices can use hardware interrupts called IRQs. A PCI device cannot use IRQs already in use by ISA or EISA devices.
Configuring the Computing Unit 5.1.
Configuring the Computing Unit Field Meaning Password on boot Disabled No password required for system boot. Enabled Supervisor or user password must be entered for system boot. Fixed disk boot sector Normal All types of hard-disk access are permitted. Diskette access This mode of protection is not active unless Password on boot is set to Enabled. Protected No operating system can be installed. This is a way of protecting against boot viruses.
Configuring the Computing Unit 5.1.
Configuring the Computing Unit Field 5-22 Meaning Hard Disk Timeout Disabled The hard disk does not shut down. 10, 15, 30, 60 minutes after the last hard-disk access the hard disk is shut down. The next time it is accessed, the hard disk starts spinning again after a brief delay. Fan Control Enabled Disabled Fan speed depends on temperature.
Configuring the Computing Unit 5.1.5 The Boot Sequence Menu Overview PhoenixBIOS Setup Utility Main Advanced Security Power Boot Sequence Version EXIT Item Specific Help + Diskette Drive Keys used to view or configure devices: expands or collapses devices with a + or – <+> and <–> moves the device up or down.
Configuring the Computing Unit PhoenixBIOS Setup Utility Main Advanced Security Power Boot Sequence Version EXIT Item Specific Help –Diskette Drive Keys used to view or configure devices: expands or collapses devices with a + or – expands all <+> and <–> moves the device up or down.
Configuring the Computing Unit 5.1.6 The Version Menu PhoenixBIOS Setup Utility Main Advanced Security Power Boot Sequence Version EXIT Item Specific Help SIMATIC Box PC 620 BIOS Version V07.0 xx BIOS Number –A5E00016562-xxxx MPI/DP Firmware V01 CPU Type CPU Speed CPU ID Module ID Code Revision Dixon 300 MHz 066A 0001 000D F1 Help ESC EXIT Figure 5-20 All items on this menu cannot be modified in user mode. If any items require changes, please consult your system Supervisor.
Configuring the Computing Unit 5.1.7 The Exit Menu Overview The setup program is always terminated using this menu. PhoenixBIOS Setup Utility Main Advanced Security Power Boot Sequence Version EXIT Item Specific Help Save Changes & Exit Exit Without Saving Changes Get Default Values Load Previous Values Save Changes F1 Help ESC EXIT Figure 5-21 Exit System Setup and save your changes to CMOS.
Configuring the Computing Unit Documenting your device configuration If you have made any modifications to your SETUP settings, you can enter them in the following table. You can then refer to these entries if you need to make any hardware modifications later. System Parameters Standard Settings Main System Time hh:mm:ss System Date MM/DD/YYYY Disk A: Primary Master 1.
Configuring the Computing Unit System Parameters Standard Settings Internal COM2 Base I/O address Enabled 2F8 Interrupt IRQ3 Internal LPT1 Enabled Mode Base I/O address Bi-directional 378 Interrupt IRQ7 DMA Channel (for ECP only) DMA 10 Your Entries PCI Configuration PCI Device Slot 1 Option ROM Scan Enabled Enable Master Latency Timer Enabled 0040 h PCI Device Slot 2 Option ROM Scan Enabled Enable Master Latency Timer Enabled 0040 h on board PCI Ethernet Option ROM Scan Enable Maste
Configuring the Computing Unit System Parameters Fixed disk boot sector Diskette Access Standard Settings Your Entries Normal Supervisor Power APM Enabled Power Savings Standby Timeout Disabled Off Suspend Timeout Off Hard Disk Timeout Disabled Fan Control Boot Sequence Enabled Diskette Drive Removable Devices Hard Drive ATAPI CD-ROM Drive Version SIMATIC BIOS Version Box PC 620 V7.
Configuring the Computing Unit 5.2 Configuring the PC Card Interface The software required for using PC cards under MS such as: S Socket Services S Card Services S Client Drivers S Flash File System can be obtained from the nearest Siemens sales office or representative. Windows NT4 does not support socket services. Your computing unit comes supplied with Windows 98 / NT4 already installed, this supports the PC Card interface. The computer must be rebooted under Windows NT4.
Hardware Information 6 Chapter Overview In Section You Will Find 6.1 Current Requirement of the Components (Maximum Values) 6-2 6.2 Overview of the Components and Ports 6-3 6.3 Hardware Address Table 6-4 6.4 Interrupt Assignment 6-8 6.5 Video Modes of the Computing Unit 6-10 6.6 Monitoring Functions 6-11 6.7 Interfaces 6-14 6.8 Bus Module 6-35 6.9 Hard Disk Drive 6-41 6.10 Floppy Disk Drive 6-41 6.11 Power Supply Unit 6-42 6.
Hardware Information 6.1 Current Requirement of the Components (Maximum Values) Basic system Component Voltage +5V +3.3V Pentium II basic board 2.3 A 2.4 A Processor (Celeron 300/Dixon 333) 2.7 A 0.9 A Floppy disk drive/LS 120 1.2 A Hard disk 0.6 A CD ROM drive 0.8 A +12V 0.1 A –5V –12V 0.01 A 0.02 A 0.4 A Fan 0.25 A Sum (max. for basic configuration) 7.6 A 3.3 A 1.06 A 0.01 A 0.02 A Free for upgrades 2.9 A 0.9 A 0.95 A 0.04 0.18 A Sum (maximum configuration) *) 10.
Hardware Information 6.2 Overview of the Components and Ports Component/Port Description Parameters CPU Mobile Intel processor (type MMC2) S Upgradeable S Multimedia support S On-board L2 cache with 128 k/256 k Memory DIMM submodules up to max. 256 MB/DIMM S S S S S Data capacity of 64 bits + ECC S S S S 100 MHz bus speed S S S S SDRAM Chipset Single chipset 440BX Hard disk ATA-33 mode DP12 Communication port SIMATIC S7 Modules with ECC possible 3.
Hardware Information 6.3 Hardware Address Table In the distribution of the address areas a distinction is made between S memory address space and S I/O address space. Different write/read signals (I / O WR, I / O RD, MEMR, MEMW) address these different areas. The following tables will give you an overview of the address areas used. Please refer to the descriptions of the individual function groups for more details.
Hardware Information Memory address assignment From Address to Address Size Assignment Comments 0000 0000 0007 FFFF 512 k Conventional system memory 0008 0000 0009 FBFF 127 k Conventional system memory extended 0009 FC00 0009 FFFF 1k Conventional system memory extended BIOS DATA 000A 0000 000A FFFF 64 k Refresh memory VGA 000B 0000 000B 7FFF 32 k Software graphic/text refresh memory unassigned 000B 8000 000B FFFF 32 k Refresh memory VGA/CGA 000C 0000 000C AFFF 44 k VGA BI
Hardware Information I/O address assignment Table 6-1 I/O address assignment Address: From – To Assignment Comments 0000 000F DMA controller 1 0020 0021 Interrupt controller 1 0024 003D Motherboard resources 0040 0043 Timer 1 0060 0060 Keyboard controller, data 0061 0061 NMI, system loudspeaker settings 0064 0064 Keyboard controller, command, status 0070 0070 Real time clock index 0071 0071 Real time clock date 0072 0077 CMOS RAM/keyboard 0078 0079 Reserved, board confi
Hardware Information Table 6-1 I/O address assignment, continued Address: From – To Assignment 0CF8 0CFF PCI bus 1000 103F PIIX IO 1040 104F PIIX power management 1050 1057 First IDE controller (dual FIFO) 1058 105F Second IDE controller (dual FIFO) 1060 107F PCI/USB universal host controller 1080 10E7 ESS SOLO -1 audio device Comments PCI BUS Sound DMA assignment DMA Port Data Transfer Description 0 8/16 bits Not available 1 8/16 bits Not available 2 8/16 bits Floppy
Hardware Information 6.4 Interrupt Assignment Interrupt assignment Handling of the 16 hardware interrupts (IRQ 0 to IRQ 15) is taken care of by two type 82C59 integrated interrupt controllers on the computing unit. The INT output of the slave controller is connected to the IRQ 2 input of the master controller. Interrupt 9 (IRQ 9) can be used on the bus for the assigned interrupt 2 (IRQ 2). IRQ 9 parameters are set to the software interrupt vector 0A H (IRQ 2) in the initialization phase by the ROM BIOS.
Hardware Information I/O addresses of interrupt controllers Interrupt Description Parameterized Interrupt Vector, Memory Address SMI System management interrupt, cannot be masked - NMI Expansion slots Signal IO Channel Check2 INT 2 H IRQ 0 Internal timer (system clock) INT 8 H IRQ 1 Keyboard INT 9 H IRQ 2 Cascading of interrupt controller 2 INT A H IRQ 3 *) Serial port 2 ( COM2/IRDA ), can be cleared in setup INT B H IRQ 4 *) Serial port 1 (COM1/TTY), can be cleared in setup INT C H
Hardware Information 6.5 Video Modes Mode No. (Hex) VESA Mode No. Video Mode (Text/Graphics) (L) = Linear Mode Colors CRT (I) = Interlaced LCD/Simultan 00+/01+ -- Text 40x25 16 70Hz 60Hz 02+/03+ -- Text 80x25 16 70Hz 60Hz 04/05 -- Gr.320x200 4 70Hz 60Hz 6-10 6 -- Gr.640x200 2 70Hz 60Hz 07+ -- Text 80x25 2 (b/w) 70Hz 60Hz TAB -- Gr.320x200 16 70Hz 60Hz 0E -- Gr.640x200 16 70Hz 60Hz 0F -- Gr.640x350 2 (b/w) 70Hz 60Hz 10 -- Gr.
Hardware Information 6.6 Monitoring Functions The LEDs described in the following sections are only available on specific versions of the device. The basic configuration of the computing unit does not have any LEDs. The hardware signals are described in section 6.7.2. 6.6.1 Overview Function The following individual functions are implemented: S temperature monitoring and indication of overheating and underheating S watchdog Messages can be passed by the monitor modules to applications.
Hardware Information 6.6.3 Temperature Monitoring and Display Temperature monitoring The temperature is acquired by three thermocouples. One thermocouple monitors the processor temperature, the second monitors the temperature in the processor module area and the expansion boards, while the third monitors the temperature in the power supply module area.
Hardware Information WD reactions If the WD is not retriggered within the set time (by driver or SOM program), the following reactions are triggered: Reaction Option Acknowledge WD Always Initiate reset on the computing unit Adjustable Send IRQ on computing unit Adjustable The reactions you want to have triggered can be set by drivers or the SOM program. WD monitoring times, TWD The monitoring times can be adjusted in increments of one second over the range from 3 to 255 seconds.
Hardware Information 6.7 Ports The basic board of the computing unit features the following ports: S ports for connecting external devices S ports for connecting displays S ports for internal connections (drives, wiring backplane, etc.) The connector pin-outs of the different ports are described in the sections below. 6.7.1 External Ports Interface Position Connector COM 1 external X9 3F8h-3FFh, can be disabled IRQ4, edge-triggered 25-pin, socket, V.24/V.
Hardware Information Serial port COM1 (PLC/V24/Modem) The serial port (COM 1) on the computing unit is assigned as follows: Connector 1 13 14 25 Pin No.
Hardware Information Gender changer for COM1 You can convert the COM1/V24/PLC port of the SIMATIC PC family into a 25-pin male connector by means of the enclosed gender changer (25-pin/25-pin). Plug the gender changer onto the COM1socket and secure it with the two hexagon head screws. Pin No. Meaning Direction Pin No.
Hardware Information Parallel port LPT1 The parallel port on the computing unit is assigned as follows: Connector 1 13 14 25 Pin No.
Hardware Information PS/2 trackball/keyboard port You can connect an external keyboard to your computing unit. The port is assigned as follows: Connector – View of Socket 6 5 4 3 2 1 Pin No.
Hardware Information MPI/DP port The MPI/DP port on the computing unit is assigned as follows: Connector 1 5 Pin No. Name Meaning Input/ Output 1 NC Pin 1 is not assigned - 2 NC Pin 2 is not assigned - 3 LTG_B Signal lead B of MPI module Input/ Output 4 RTS_AS RTSAS, control signal for received data stream. The signal is ’1’ active when the directly connected AS is sending. Input 5 M5EXT M5EXT return conductor (GND) of 5 V supply.
Hardware Information VGA port The VGA socket on the computing unit is assigned as follows: Connector Pin No.
Hardware Information 6.7.
Hardware Information Pin Signal – DSTN Meaning – DSTN Pin Signal – TFT Meaning – TFT 1 P5V_D_fused +5V (fused) Display VCC 1 P5V_D_fused +5V (fused) Display VCC 2 P5V_D_fused +5V (fused) Display VCC 2 P5V_D_fused +5V (fused) Display VCC 3 GND 3 GND 4 CLK 4 CLK 5 GND 5 GND 6 LP Horizontal sync 6 HSync Horizontal sync 7 FP Vertical sync 7 VSync Vertical sync 8 - - 8 R0 Signal red bit 0 (LSB) 9 - - 9 R1 Signal red bit 1 10 UD6 Upper data bit 6 10 R2 S
Hardware Information Display port (LVDS), X400 TFT displays with an LVDS port can be connected to this port. 18-bit displays having a resolution up to 1024x768 pixels can be connected. The permissible display clock rate is 20 MHz to 66 MHz. The display is selected automatically according to the code of the Display Select inputs. The display supply voltages (3,3 V and 5 V) are connected as a function of the requirements for the connected displays via the graphics controller.
Hardware Information Assignment of a display to Display Select pins Automatic configuration of one of 15 possible displays is performed by means of the Display Select inputs. The Display Select inputs have pull-up resistors – in other words, if these inputs are not connected, they go to High. The input has to be connected to GND for them to go Low. No.
Hardware Information I/O port for front control elements All the signals necessary for the connection of front control elements, in addition to the display and USB ports, are applied to this port. The maximum cable length is 50 cm at a USB data rate of 12 Mbaud. Pin No. Signal Name Remark 1 GND Chassis ground 2 P12V Power supply for inverter (max. 0.
Hardware Information Internal serail port COM2 (V.24), X26 This port is connected in parallel to the external COM2 port. Both ports can therefore only be used as alternately. They are assigned such that a 1:1 connection can be established to a 9-pin D-SUB socket when insulation displacement connectors are used. The maximum cable length is 100 cm at a data rate of 9.6 kbaud. 6-26 Pin No.
Hardware Information 6.7.3 Assignment of the Internal Ports on the Motherboard Interface Position Connector Description Memory Internal X19, X20 Processor Internal X12 Socket for MMC2 mobile processor Bus expansion Internal X1 Socket for bus expansion, assigned with ISA and PCI bus signals) Power supply Internal X14 40-pin cable connector for DC signals Floppy Internal X5 Two drives are possible (82078 compatible) 360 kB, 720 kB, 1.2 MB, 1.
Hardware Information Port to bus module (X1) The computing unit has a bus module with a PCI expansion slot and a shared ISA/PCI slot. Expansion boards can be installed complying with ISA specification (Rev. 3.1) and PCI specification (Rev. 2.0) with a maximum length of 265 mm (175 mm for shared ISA/PCI modules). All PCI slots can be used as masters. Only 5 V PCI modules can be operated.
Hardware Information B 1 ISA Bus Signals Signal Signal Name C Name gnd 1 sbhe# D 1 sd7 2 rstdrv 2 la23 2 3 4 5 6 7 8 sd6 sd5 sd4 sd3 sd2 sd1 3 4 5 6 7 8 +5V irq9 -5 V drq2 -12 V 0ws# 3 4 5 6 7 8 la22 la21 la20 la19 la18 la17 3 4 5 6 7 8 Signal Name memcs 16# iocs16 # irq10 irq11 irq12 irq15 irq14 dack0# 9 sd0 9 +12V 9 memr# 9 10 iochrdy 10 gnd 10 11 aen 11 11 12 sa19 12 12 13 14 15 sa18 sa17 sa16 13 14 15 smem w# smemr # iow# ior# dack3# memw # sd8 16 17 sa15 sa14
Hardware Information DC port of the power supplies The power supply has a cable connector (X2), through which all the signals on the DC side are connected to the basic board. The port assignment shown is only a draft. It will be defined during the development of the power supply and basic board. 6-30 Pin No.
Hardware Information Port to the floppy disk drive (X5) This port is designed for connecting a Notebook floppy disk drive. The maximum connection length of the data cable must not be longer than 40 cm. Pin No. Signal Name Pin No.
Hardware Information Assignment of the IDE ports (X3, X4, X41) The primary IDE port is designed for alternatively installing 2.5” and 3.5” hard disks. 3.5” drives are connected by means of a 40-pin 2.54 mm pitch connector and 2.5” drives by means of a 44-pin 2 mm pitch connector. The two connectors are connected in parallel. The secondary IDE port is provided for the optional connection of a CD-ROM and/or an LS 120 drive. It can be adapted using a 44-pin 2 mm pitch connector.
Hardware Information Connection for LS120 drive (X31) The LS120 drive for customized solutions is connected via this port. This port is connected in parallel to the secondary IDE port. When connected, the LS120 drive automatically becomes a master – in other words, a bootable drive – on account of a special circuit). The maximum connection length of the data cable must not be longer than 40 cm. Pin No. X31 Meaning Pin No.
Hardware Information Connections for CPU fans (X28) The CPU fan and the device fan are connected using these two ports. Pin No. Signal 1 12V temperature-controlled 2 0 V fan, switched Connection for backup battery (X42) The battery for backing up the CMOS RAM is connected to this port. The battery used is a 3.6 V lithium battery with a capacity of 750 mAh. 6-34 Pin No.
Hardware Information 6.8 Bus Module 6.8.1 Design and Theory of Operation The bus module is designed as a passive link between the basic board and the expansion boards. It is mounted with a screw. The bus module has a PCI expansion slot and a shared ISA/PCI slot. The power supply of the expansion boards runs via the connection of the bus module to the basic board. An external power supply (+5 V and +12 V) is provided.
Hardware Information 6.8.2 Interface to the Basic Board The connection to the basic board is established by a gold-plated EISA type two-part connector. All the necessary bus signals (ISA and PCI) are applied to this connector. The following table shows the connector pin assignment.
Hardware Information ISA slot pin assignment Pin Type* Pin I B1 0V SD 07 I/O B2 RESET DRV SD 06 I/O B3 + 5V VCC A4 SD 05 I/O B4 IRQ 9 I A5 SD 04 I/O B5 – 5V VCC A6 SD 03 I/O B6 DRQ 2 I A7 SD 02 I/O B7 – 12V VCC A8 SD 01 I/O B8 –OWA I A9 SD 00 I/O B9 + 12V VCC A10 –IOCHRDY I B10 0V GND A11 AEN O B11 –SMEMW O A12 SA 19 I/O B12 –SMEMR O A13 SA 18 I/O B13 –IOW I/O A14 SA 17 I/O B14 –IOR I/O A15 SA 16 I/O B15 –DACK3 O A16 SA
Hardware Information Pin Signal Name Type * Pin Signal Name Type C1 –SBHE O D1 –MEMCS16 I C2 LA 23 I/O D2 –IOCS16 I C3 LA 22 I/O D3 IRQ 10 I C4 LA 21 I/O D4 IRQ 11 I C5 LA 20 I/O D5 IRQ 12 I C6 LA 19 I/O D6 IRQ 13 I C7 LA 18 I/O D7 IRQ 14 I C8 LA 17 I/O D8 –DACK0 O C9 –MEMR I/O D9 DRQ 0 I C10 –MEMW I/O D10 –DACK5 O C11 SD 08 I/O D11 DRQ 5 I C12 SD 09 I/O D12 –DACK6 O C13 SD 10 I/O D13 DRQ 6 I C14 SD 11 I/O D14 –DACK7 O
Hardware Information PCI slot pin assignment 5V System Environment Side B Side A 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 –12V TCK Ground TDO +5V +5V INTB# INTD# PRSNT1# Reserved PRSNT2# Ground Ground Reserved Ground CLK Ground REQ# +5V (I/O) AD[31] AD[29] Ground AD[27] AD[25] +3.3V C/BE[3]# AD[23] Ground AD[21] AD[19] +3.3V AD[17] C/BE[2]# Ground IRDY# +3.3V DEVSEL# Ground LOCK# PERR# +3.3V SERR# +3.
Hardware Information Assignment of slot-specific PCI bus signals 6-40 PCI Socket Pin No.
Hardware Information 6.9 Hard Disk Drive Capacity See ordering data Power requirements typically (startup) 5V 0.41 A (0.3 A) typically (startup) 12V 0.21 A (1.3 A) Parameters Heads Cylinder / Sectors / Depend on type of hard disk used Jumpers Single * J8-1 = 0 J8-3 = 0 J8-5 = 0 Master J8-1 = 0 J8-3 = 0 J8-5 = 1 Slave J8-1 = 0 J8-3 = 1 J8-5 = 0 Fast IDE Highspeed Yes 1 = Jumper inserted 0 = Jumper not inserted * = Default setting All other jumpers should remain as supplied 6.
Hardware Information 6.11 AC and DC Power Supplies Technical Data Voltage Max. current Voltage stability +12 V 1.7 A " 4% –12 V 0.2 A " 6% +5V 10.5 A " 3% –5 V 0.05 A " 5% +3.3 V 4.2 A " 5% + 18 V (electrically isolated) 0.
Hardware Information 6.12 Connecting Cables Overview PG 6XX 6ES5731-6AG00 COM1/TTY and 6ES5733-2xxx0 1) PLC IF/TTY PG 7xx COM1/V.24 COM1/V.24 Connection via V.
Hardware Information Standard connecting cable You can use the standard connecting cable to connect your computing unit to a Siemens programmable controller. Please study the notes in Chapter 3.
Hardware Information Connecting cable with 25-pin socket PC/PG 7xx PG 695 II Adapter 25–pin plug connector 6ES5 731-6AG00 Active (release 2) Connecting cable PLC S5, V.
Hardware Information Interface to PLC S5/V.24 and COM 1/TTY of a PG 6xx If you want to connect your computing unit to the PLC S5 / V.24 port of a PG 6xx, you will need an adapter. In this case, the computing unit must be active. Please study the notes on changing the TTY/COM 1 port from passive to active in section 4.10. Connecting cable 6ES5 733-2xxx0 PC/PG 7xx Adapter 25–pin Cannon plug connector 6ES5 731-6AG00 Port: COM1/TTY (release 2) Active PG 6XX 25–pin Cannon plug connector with PLC S5/V.
Remote mount form factor 7 This chapter describes the specific features of distributed configuration to the extent that they vary from the integrated configuration (described in Chapters 2 to 6). The present document concentrates on the computing unit. The part of the description referring to the Remote mount of the control unit will be found in ”SIMATIC Panel PC 670/870 Control Unit” manual. Overview You will find general information about the Remote mount concept in Section 5.
Remote mount form factor 7.1 7.1.1 12.01 Description Overview Figure 7-1 shows a PC 670 computing unit (distributed configuration) with the transmitter fitted between mounting brackets. CD-ROM drive PC 670 computing unit Mounting brackets Elongated mounting hole Figure 7-1 Socket for connecting interconnecting cable Transmitter housing PC 670 computing unit in distributed configuration (230 V power supply) including transmitter You can see the fitted transmitter pcb in Figure 7-4.
Remote mount form factor 12.01 7.1.2 Dimensions 103.5 8 43.5 25 Figure 7-2 shows the dimensions of the PC 670 computing unit with transmitter. 304.6 74.3 289.6 297.2 211 253 Transmitter Dimensions in mm Figure 7-2 Dimensions of PC 670 computing unit in distributed configuration including transmitter 7.1.3 Mounting The computing unit is supplied as a complete combination with the transmitter installed ex works.
Remote mount form factor Fan FDD FDD Interfaces FDD Interfaces Interfaces 12.01 Fan Fan Fan Fan Interfaces FDD FDD Fan Interfaces Interfaces Figure 7-3 7.2 FDD Installation locations for the computing unit Cable connection The transmitter and receiver are interconnected by a cable no longer than 20 m. For operation, the angled cable connector is inserted in the socket of the transmitter and locked. The interconnecting cable must also be fixed in position.
Remote mount form factor Display code Should it be necessary to check or modify the setting, perform the following steps: 1. Unscrew the computing unit from the installation wall. 2. Unscrew the four fastening screws on the transmitter housing (Figure 7-1). 3. Remove the transmitter housing from the computing unit (there is no need to unplug the cables). Encoder S30 Computing unit Transmitter housing Transmitter Port for interconnecting cable Figure 7-4 Transmitter in opened transmitter housing 4.
Remote mount form factor 7-6 SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01
Error Diagnostics A In this chapter In this chapter you will find a selection of important errors and messages on the computing unit, together with their causes and remedies. The built-in self-test of the computing unit is likewise explained.
Error Diagnostics A.1 Diagnosing Errors The table shows when the messages and errors occur and how you perform troubleshooting. Error Cause Remedy Power ON LED does not light Power supply connection is not correct Check the power supply connection, mains cable, and mains plug The display/monitor shows the following message: Invalid configuration information...
Error Diagnostics A.2 Built-In Self Test of the Computing Unit When the computing unit is powered up, it runs a self-test (POST = Power On Self Test). If errors are detected, the corresponding sequence of beeps (beep code) is output. Each beep code consists of 2 x 2 sequences.
Error Diagnostics The POST codes in order of occurrence: Display (hex) A-4 Meaning Description 02 TP_VERIFY_REAL Test whether the CPU is in real mode 1C TP_RESET_PIC Reset the interrupt controller 12 TP_RESTORE_CRO Restore the controller register 13 TP_PCI_BM_RESET Reset the PCI bus master 36 TP_CHK_SUTDOWN Check the shutdown code 24 TP_SET_HUGE_ES Switch the ES to special mode 03 TP_DISABLE_NMI Switch off the NMI 0A TP_CPU_INIT Initialize the CPU early 04 TP_GET_CPU_TYPE Dete
Error Diagnostics Display (hex) Meaning Description 46 TP_COPYRIGHT Test the copyright 49 TP_PCI_INIT Initialize the PCI interface 48 TP_CONFIG Check the configuration 4A TP_VIDEO Initialize the video interface 4C TP_VID_SHADOW Copy the video BIOS to RAM 24 TP_SET_HUGE_ES Switch the ES to special mode 22 TP_8742_TEST Test module 8742 52 TP_KB_TEST Keyboard available? 54 TP_KEY_CLICK Switch the keyboard click on/off 76 TP_KEYBOARD Check the keyboard 58 TP_HOT_INT Test for
Error Diagnostics Display (hex) Meaning Description 90 TP_FDISK Initialize the hard disk controller 8B TP_MOUSE Test the internal mouse interface 95 TP_CD Test the CP 92 TP_USERPATCH2 Area for own initializations 98 TP_ROM_SCAN Search for BIOS expansions 69 TP_PM_SETUP Initialize the power management 9E TP_IRQS Enable the hardware IRQ A0 TP_TIME_OF_DAY Set the clock time and date A2 TP_KEYLOCK_TEST Preset the keylock C2 TP_PEM_LOCK Stop the error manager C3 TP_PEM_DISPLAY
Technical Specifications B In this Appendix This appendix contains the following technical specifications for the Panel PC 670 computing unit: S General Information S Safety S Electromagnetic Compatibility (EMC) S Ambient Conditions S Mechanical environmental conditions S Special features S Motherboard S Drives S Graphics card S Interfaces S Function displays (light-emitting diodes) on device SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01 B-1
Technical Specifications General External dimensions B x H 295 mm x 265 mm x 80 mm, without CD-ROM drive 295 mm x 265 mm x 100 mm, with CD-ROM drive Weight Central configuration: approx. 6 kg Remote mount: approx. 7,5 Line voltage (UN) 120 V (85 V to 132 V (AC), or 230 V (170 V to 264 V) AC (autorange); alternatively: 24 V (DC) (18.5 V to 28.5 V) Line voltage frequency 50/60 Hz (47 to 63 Hz) Brief voltage interruption acc. to NAMUR max. 20 ms at o.85 UN (max.
Technical Specifications Electromagnetic compatibility (EMC) Noise immunity to high-frequency 10 V/m 80-1000 MHz, 80% AM (to IEC 1000-4-3) radiation 10 V/m 900 MHz, 50% ED (to ENV 50204:1995 10 V 9KHz- 80MHz (to IEC 1000-4-6) Magnetic field 30 A/m 50 Hz (to IEC 1000-4-8) Climatic conditions Temperature Tested to DIN EN 60068-2-2:1994, DIN IEC 68-2-1, DIN IEC 68-2-14, – – operation storage/transport + 5°C to +45°C (with full configuration) - 20°C to +60°C – gradient max 10°C/h (no condensation) Re
Technical Specifications Motherboard Processor Intel Mobile Pentium II / Celeron (type: MMC2), (see ordering data) Cache 2x 16 KB first level, 128/256 KB second level, depending on processor used) Main memory (RAM) Maximal 256 MB SDRAM memory configuration (see ordering data) Free expansion slots 1 shared ISA/PCI (max 170 mm long), 1 PCI (max 265 mm long) – Max. permissible power consumption per ISA slot – Max.
Technical Specifications Ports COM 1 Serial port 1 (V.24 / TTY), 25-pin sub D socket connector COM 2 Serial port 2 (V.24), 9-pin sub D connector LPT1 Parallel port (standard, EPP and ECP modes) Interface for printer with parallel port VGA VGA port for external monitor Keyboard PS/2 keyboard connector (combo interface with trackball signals) Mouse PS/2 mouse port USB 2 ports (1x internal, 1x external) Cardbus 1 interface (max.
Technical Specifications B-6 SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01
ESD Guidelines C What does ESD mean? Virtually all present-day modules incorporate highly integrated MOS devices or components.
ESD Guidelines Handling ESD assemblies A general rule is that assemblies should be touched only when this cannot be avoided owing to the work that has to performed on them. Under no circumstances should you handle printed-circuit boards by touching device pins or circuitry. You should touch devices only if S you are grounded by permanently wearing an ESD wrist strap or S you are wearing ESD shoes or ESD shoe-grounding protection straps in conjunction with an ESD floor.
SIMATIC HMI Documentation D Target groups This manual is part of the SIMATIC HMI documentation.
SIMATIC HMI Documentation Documentation Target Group Content First Steps with ProTool Newcomers This documentation guides you step by step through the configuration of Product Brief S a screen with various objects S changing from one screen to another S a message.
SIMATIC HMI Documentation Documentation Target Group Content Copy Protection Start-up Guide Commissioning engineers, Users The ProTool/Pro Runtime visualization software is a copyright product. This manual contains information on the installation, repair and uninstallation of authorizations. Application Example Newcomers ProTool is supplied with example configurations and the corresponding PLC programs.
SIMATIC HMI Documentation Documentation Target Group Content Communication Programmers Provides information on connecting text-based and graphics displays to the following PLCs: User’s Guide S S S S SIMATIC S5 SIMATIC S7 SIMATIC 500/505 drivers for other PLCs This documentation describes the S configuration and parameters required for connecting the devices to the PLC and the network S user data areas used for exchanging data between operating unit and PLC.
Glossary A Application An application is a program directly linked to the MS-DOS or Windows operating system. Applications on SIMATIC PCs are, for example, the visualization packages SIMATIC ProTool/Pro, SIMATIC WinCC and others. Automation system (AS) A controller in the SIMATIC S7 series (for example, SIMATIC S7-200/300/400). B Base memory Base memory is a part of main memory. It is 640 KB on all SIMATIC PCs.
Glossary Configuration file Contains data which define the appearance of a configuration following a complete restart. These files are CONFIG.SYS, AUTOEXEC.BAT and register files. Configuration software Configuration software updates the device configuration when modules are fitted. This is done either by copying the configuration files supplied with the device of by manual configuration.
Glossary Interface, multipoint The multipoint interface (MPI) is the SIMATIC PC interface to the SIMATIC S7/M7. This enables programmable modules, (module, programmable), text displays and operator panels to be reached from a central point. The nodes on the MPI can communicate with each other. Interrupt Discontinuation in the processor of a programmable controller by an interrupt event. IRQ Interrupt request.
Glossary Motherboard The motherboard is the heart of SIMATIC PCs. Data are processed and saved from here, and interfaces and device peripherals are controlled and managed. Mouse port PS/2 mouse connector. MPI/DP port (Multi-Point-Interface/Profibus-DP) for connecting an S7 programmable controller. P Parallel port Information is transferred on a byte by byte basis through a parallel port. High data transfer rates are achieved as a result. SIMATIC PCs have one parallel port (LPT) for attaching a printer.
Glossary R RTC Real time clock S SCSI interface Small Computer System Interface. Interface for connecting SCSI devices (for example, hard disks, CD-ROM drives) SETUP (BIOS Setup) A program which defines information about the device configuration. The device configuration of the SIMATIC PC is preset. Changes have to be made when a memory expansion module, new modules or drives have to be activated. SINEC L2 Bus system on the basis of the Profibus standard.
Glossary V V.24 interface The V.24 interface is a standard interface for data transmission, and printers, modems, etc. can be connected to it. VGA port (Video Graphics Array) for connecting an external monitor, 15-pin, sub-D connectors, sockets. W Warm restart By warm restart we mean a restart after a program abort. The operating system is reloaded and started. A warm restart is performed by pressing the keys CTRL+ ALT+ DEL.
Index Index B error diagnostics, A-1 errors, diagnosing, A-2 ESD guidelines, C-1 ESD notes, 4-2 expansion board, maximum dimensions, 4-13 expansions, 4-1 external dimensions, B-2 external keyboard, 6-18 BIOS, 5-2 date, 5-5 time, 5-5 F A active/passive switching, 3-20 address areas, 6-4 AT card, 4-13 fan C card, note, 4-13 Cardbus, 3-11 climatic conditions, technical specifications, B-3 COM 1, 6-15 COM 2, 6-16 commissioning, 2-1 component, current requirement, 6-2 configuring the device, 5-1 connecti
Index isolated MPI/DP interface, 3-21 K keyboard, 3-9 L LEDs, technical specifications, B-5 literature, D-1 lithium battery, 4-11 LPT 1, 6-17 LS 120 drive, Glossary-3 power supply, technical specifications, 6-42 power systems, 3-5 product overview, 1-5 PROFIBUS, 3-23 PROFIBUS DP network, 4-31 PS/2, 6-17 R real-time clock, 4-11 receiver, 7-4 Remote mount form factor, 1-6, 7-1 S SafeCard, function, 6-11 safety, technical specifications, B-2 measurements, B-2 safety instruction, power connection, 3-5 mec
Index W X Warning, starting up, 2-3 watchdog function, 6-12 monitoring times, 6-12 reactions, 6-12 XT card, 4-13 SIMATIC Panel PC 670 Computing Unit Equipment Manual Edition 12/01 Index-9
