SUMMIT 8800 Handbook Flow Computer Volume 1: Operation © KROHNE 08/2013 - MA SUMMIT 8800 Vol 1 R02 en
IMPRINT SUMMIT 8800 All rights reserved. It is prohibited to reproduce this documentation, or any part thereof, without the prior written authorisation of KROHNE Messtechnik GmbH. Subject to change without notice. Copyright 2013 by KROHNE Messtechnik GmbH - Ludwig-Krohne-Str. 5 - 47058 Duisburg (Germany) 2 www.krohne.
SUMMIT 8800 CONTENTS 1 About this book 14 1.1 Volumes.............................................................................................................................. 14 1.2 Content Volume 1............................................................................................................... 14 1.3 Content Volume 2............................................................................................................... 14 1.4 Content Volume 3...................................
CONTENTS SUMMIT 8800 5 Hardware Details 34 5.1 Front Panel......................................................................................................................... 34 5.1.1 Associated software.................................................................................................................. 34 5.2 Rear Panel.......................................................................................................................... 34 5.2.1 Removal of the Rear Panel..........
SUMMIT 8800 CONTENTS 7 Operation 70 7.1 Initialising .......................................................................................................................... 70 7.2 Front Panel Operation........................................................................................................ 70 7.2.1 Touch Panel............................................................................................................................... 70 7.2.2 Navigator.................................
CONTENTS SUMMIT 8800 10.5.4 Save a configuration.............................................................................................................. 106 10.5.5 Upload a configuration.......................................................................................................... 106 10.5.6 Download a configuration..................................................................................................... 107 10.6 Edit menu.......................................................
SUMMIT 8800 CONTENTS 14.1.6 Single Ethernet Board Terminal Connections...................................................................... 131 14.1.7 DSfG Board Terminal Connections....................................................................................... 132 15 Appendix 3: Technical Data 133 15.1 General........................................................................................................................... 133 15.2 Inputs...............................................
TABLE OF FIGURES Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 Figure 25 Figure 26 Figure 27 Figure 28 Figure 29 Figure 30 Figure 31 Figure 32 Figure 33 Figure 34 Figure 35 Figure 36 Figure 37 Figure 38 Figure 39 Figure 40 Figure 41 Figure 42 Figure 43 Figure 44 Figure 45 Figure 46 Figure 47 Figure 48 Figure 49 Figure 50 Fig
SUMMIT 8800 Figure 72 Figure 73 Figure 74 Figure 75 Figure 76 Figure 77 Figure 78 Figure 79 Figure 80 Figure 81 Figure 82 Figure 83 Figure 84 Figure 85 Figure 86 Figure 87 Figure 88 Figure 89 Figure 90 Figure 91 Figure 92 Figure 93 Figure 94 Figure 95 Figure 96 Figure 97 Figure 98 Figure 99 Figure 100 Figure 101 Figure 102 Figure 103 Figure 104 Figure 105 Figure 106 Figure 107 Figure 108 Figure 109 Figure 110 Figure 111 Figure 112 Figure 113 Figure 114 Figure 115 Figure 116 Figure 117 Figure 118 Figure 119
TABLE OF FIGURES Figure 143 Figure 144 Figure 145 Figure 146 Figure 147 Figure 148 Figure 149 Figure 150 Figure 151 Figure 152 Figure 153 10 SUMMIT 8800 USB cable port. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Input power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SUMMIT 8800 TABLES Table 1 Location of fuses on PSU..............................................................................................................................................39 Table 2 Boards with available Inputs & Outputs.......................................................................................................................41 Table 3 Digital I/O board 1 link settings.........................................................................................................
01 12 ABOUT THIS HANDBOOK SUMMIT 8800 www.krohne.
SUMMIT 8800 ABOUT THIS HANDBOOK 01 IMPORTANT INFORMATION KROHNE Oil & Gas pursues a policy of continuous development and product improvement. The Information contained in this document is, therefore subject to change without notice. Some display descriptions and menus may not be exactly as described in this handbook. However, due the straight forward nature of the display this should not cause any problem in use.
01 ABOUT THIS HANDBOOK SUMMIT 8800 1. About this book 1.1 Volumes This is Volume 1 of 3 of the SUMMIT 8800 Handbook: Volume 1 Volume 1 is targeted to the electrical, instrumentation and maintenance engineer This is an introduction to the SUMMIT 8800 flow computer, explaining its architect and layout providing the user with familiarity and the basic principles of build. The volume describes the Installation and hardware details, its connection to field devices and the calibration.
SUMMIT 8800 • • • • • • ABOUT THIS HANDBOOK 01 Chapter 9: Configure a station Chapter 10: Configure a prover or master meter Chapter 11: Configure valves Chapter 12: Configure a sampler Chapter 13: Set-up batching Chapter 14: Set two flow computers in redundant configuration 1.
02 GENERAL INFORMATION SUMMIT 8800 2. General Information 2.1 Software versions used for this guide This handbook is based on the software versions as mentioned in Appendix 1: software versions 2.
SUMMIT 8800 DESCRIPTION 03 3. Description 3.1 SUMMIT 8800 Hardware 3.1.1 SUMMIT 8800 Flow Computer The SUMMIT 8800 is an advanced hydrocarbon computing precision instrument for measuring and calculating flow of gases and liquids, using various connected metering devices, including transmitters, transducers with internal algorithms to International standards. The SUMMIT 8800 is configured using the supplied configurator running on a PC or laptop.
03 DESCRIPTION SUMMIT 8800 ultrasonic gas meters or from differential pressure measurement across orifice plates together with temperature sensors and transmitters for line pressure. The SUMMIT 8800 uses pre-set or active input values of relative density, gas composition data and heating value, active values can be received directly from a gas chromatograph or can be written serially from a supervisory system.
SUMMIT 8800 DESCRIPTION 03 3.1.4 Rear Panel Layout Figure 2 Rear view of SUMMIT 8800 3.1.5 Alarms & LED’s Figure 3 LED indicators Power ON This indicates that the SUMMIT 8800 is receiving an input power and is operating. Accountable Alarm These are alarms that need direct action because they could have effect on the result of the calculations. Accountable alarms are red and can be defined via the Configurator under stream n.
03 DESCRIPTION SUMMIT 8800 NOTE: These values (Max, Min, Hi and Lo) can be placed into a security display, where they can be accessed by the “Edit” mode on the SUMMIT 8800. Fault Operational self-checking status. In normal operation the self-checking routine, tests all memory components for data corruption. The watchdog circuit is also provided to detect a failure on the processor.
SUMMIT 8800 • • • • • • DESCRIPTION 03 Used to store all alarm record data and parameters Non-volatile memory requires no power source to maintain integrity of data. Cannot be written to from any external source: it is read only memory. Requires unique software tool to upload the data files via the USB or ethernet port Cannot be accessed using any common software tools.
03 DESCRIPTION SUMMIT 8800 • • • • • • • • Pulse handling: API5.5 level A, B, C, D, E, Dual chronometry, pulse interpolation Calibration up to 20 points linear, meter factor or K-curve, 5 products (future at present 1) Density/ specific gravity: frequencies Solartron 781x, 783x, Sarasota ID900 Counters: Unhaltable, Normal, Period, Error, Maintenance, Positive and negative, Prover Averages: Time weighted, Flow weighted.
SUMMIT 8800 DESCRIPTION 03 Figure 4 SUMMIT 8800 system integration overview 3.3.2 Application integration Figure 5 Stream application integration 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
04 INSTALLATION AND REPLACEMENT SUMMIT 8800 4. Installation and Replacement Please read these instructions carefully before assembling or installing this product to avoid danger to people, pets and damage to connecting devices and the SUMMIT 8800. Installation of this product may only be performed by qualified personnel. The SUMMIT 8800 comes with all links and internal switches set to factory default see Chapter Hardware Details: Rear panel Mode Switches.
SUMMIT 8800 INSTALLATION AND REPLACEMENT 04 Side Panel cut-out Figure 6 Dimensions & Outlines 4.1.2 Panel Mounting Figure 7 Panel mounted installations 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
04 INSTALLATION AND REPLACEMENT SUMMIT 8800 The SUMMIT 8800 can be mounted in a panel. For this, use the dimensions for the panel cut-out as described in the previous paragraph. Please note that the SUMMIT 8800 is fixed to the panel using the bolts on top and bottom of the SUMMIT 8800. 4.1.3 Rack mounting options For the SUMMIT 8800 optional rack mounting kits are available to ease cabinet, rack or panel installation.
SUMMIT 8800 INSTALLATION AND REPLACEMENT 04 Figure 10 Cable assembly 4.2 Electrical Specifications 4.2.1 Electrical Installation The SUMMIT 8800 is certified to be in compliance with IEC 61010-1:2001 provided it is installed in accordance with the instructions supplied. The SUMMIT 8800 must be powered by: A Class 2 power supply is defined by article 725.41 of the National Electrical Code (NEC Code book) and has limited output power.
04 INSTALLATION AND REPLACEMENT SUMMIT 8800 Some parts of the instrument such as circuit boards may be damaged by static electricity. When handling internal parts of the instruments, ensure that anti-static precautions are taken. It is therefore essential when carrying out any maintenance or installation work that an earthed wrist strap be worn, or other such precautions, whenever internal parts of the instrument are handled. 4.2.
SUMMIT 8800 INSTALLATION AND REPLACEMENT 04 to the Flow Computer SUMMIT 8800. Rotate the cap of fuse holder F2 counter clockwise and replace fuse F2 only with a replacement fuse type: Figure 11 Fuse F1 (left) en F2 (right) 4.2.
04 INSTALLATION AND REPLACEMENT 4 0V 0V Auxiliary output supply 5 0V 0V Auxiliary output supply 6 0V 0V Auxiliary output supply SUMMIT 8800 CHASSIS EARTH SCREW TERMINAL Earth stud terminal M4 Figure 12 Power & M4 earth connections 4.2.5 Back Up Battery The SUMMIT 8800 contains a backup battery on the auxiliary card, this battery keeps the real time clock and internal totals when DC power to the unit is disconnected.
SUMMIT 8800 INSTALLATION AND REPLACEMENT 04 Figure 13 Configurator good and bad battery indicator Illustration of bad battery as shown on the front panel of the SUMMIT 8800: Figure 14 Bad battery indicator on front panel NOTE: When the battery is missing or requires replacement the flashing battery symbol as above shown adjacent to the Time and Date on all display screens. When the Battery is within operating parameters no symbol is shown. 4.2.5.
04 INSTALLATION AND REPLACEMENT SUMMIT 8800 Figure 15 Totalizers enter field 4.2.5.2 Back Up Battery Replacement To replace or install the backup battery please follow the instructions detailed. • Record main totals as these will be lost during power down. • Disconnect all cables from the rear of the SUMMIT 8800 and remove the rear panel as shown under Hardware Details. • Withdraw the auxiliary card from the chassis and then remove the battery as previously shown.
SUMMIT 8800 INSTALLATION AND REPLACEMENT 04 NOTE: Under CSA the correct battery type must be used. 4.2.6 Real time clock The real time clock is powered by the backup battery. If the battery is replaced, make sure that the time is set correctly afterwards. The date and time can be set within “edit” mode on the SUMMIT 8800, if the “time” parameter has been made available in the display by the integrator. The same can be done from the Configurator within the general tab under date/time. See volume 2.
05 HARDWARE DETAILS SUMMIT 8800 5. Hardware Details 5.1 Front Panel The front panel of the SUMMIT 8800 is a clean and simple design utilising a 5.7” VGA touch screen, an optical rotary dial for navigation, five LED’s and front USB port for ease of communication. Clean the Front Panel Touch Screen with water moist cloth only. Figure 17 Front panel of SUMMIT 8800 & USB port 5.1.1 Associated software The programming port on the front panel is a standard USB type B version.
SUMMIT 8800 HARDWARE DETAILS 05 • Re-fitting is the reverse of this procedure. When refitting, care should be taken to ensure that all terminals, switches and connectors protrude through the rear panel and are not trapped behind it before tightening the fixing screws. Figure 18 Rear panel of SUMMIT 8800 and removal screws 5.2.2 Rear panel Mode Switches On the rear panel there are 4 Mode or Function switches located on the Auxiliary board.
05 HARDWARE DETAILS SUMMIT 8800 OPEN The SUMMIT 8800 is fully open and changes can be made without restrictions. However, user passwords are required. PARTIAL In this mode the front panel Edit mode can be accessed with the proper user password, but calibration data cannot be changed. New application information cannot be uploaded or downloaded. The existing configuration can be downloaded, changed and uploaded again.
SUMMIT 8800 HARDWARE DETAILS 05 Maximum SD capacity is 4GB Figure 21 Illustration of inserted SD card 5.3 Standard hardware components The SUMMIT 8800 is a modular design flow computer made up of various hardware components based on your input and output requirements. There are mandatory components which are required for the operation of the flow computer such as the CPU, PSU, auxiliary board and at least one I/O and communication board which are positioned within a chassis.
05 HARDWARE DETAILS SUMMIT 8800 Figure 23 Board slots with mother board & rear view panel The PSU board sits in the first port on the far left, and the Auxiliary board sits into the slot on the far right. All I/O boards including communication boards can be positioned in any slot, however good engineering practice it is recommended that all I/O boards are positioned on the left and the communication boards to the right. 5.3.
SUMMIT 8800 HARDWARE DETAILS 05 Figure 25 PSU board components Fuse Function Fuse Type 1 Unit main fuse See Chapter Installation and Replacement: Fuses and Batteries 2 External +24V fuse (user equipment) See Chapter Installation and Replacement: Fuses and Batteries Table 1 Location of fuses on PSU 5.3.3 Auxiliary Board Description The Auxiliary board can only be exchanged by qualified personnel.
05 HARDWARE DETAILS SUMMIT 8800 5.3.3.1 Auxiliary Board Settings Figure 27 Auxiliary board components The figure above shows the position of the Auxiliary board user replaceable parts: • Backup battery • SD memory card optional 5.4 Optional Plug-in boards There are seven different types of optional boards available for the SUMMIT 8800, four of which are I/O boards. Our sales team can advise and select the appropriate board for your application.
SUMMIT 8800 I/O HARDWARE DETAILS 05 Analog Input Digital Input HART Input Analog Output Digital Output PRT Selectable* Serial USB Ethernet Analog *4 5 1 3 *5 1 2 1 - - Digital 1 - 5 2 2 5 1 - 1 - - Digital 2 - 4 2 4 6 - - 1 - - Switch - 12 - - 12 - *6 1 - - Single comms - - - - - - - 3 - 1 Dual Comms - - - - - - - 3 - 2 4 1 Board DSfG** Table 2 Boards with available Inputs & Outputs *Selectable explanation Analog: 2x digital
05 HARDWARE DETAILS SUMMIT 8800 5.4.3 Serial Communication Connection A serial port is available on all I/O boards and terminal connections are universal for digitals, analogue and switch I/O boards. Figure 30 Serial port I/O boards rear terminal pin allocation 5.5 Digital I/O Board The digital I/O board 1 can only be exchanged by qualified personnel. Up to a maximum of 6 cards can be inserted in any of the plug in slots in the SUMMIT 8800 chassis.
SUMMIT 8800 HARDWARE DETAILS 05 5.5.1 Digital I/O Board 1 terminal connections Figure 31 Digital I/O board 1 rear terminal pin allocation 5.5.1.1 Serial communication connection For the serial communication connection, refer to appropriate section given in Contents. 5.5.2 Digital I/O Board 1 Settings The following sections contain details of the user controls and settings for the digital I/O 1 board. 5.5.2.
05 HARDWARE DETAILS SUMMIT 8800 Link Function Factory setting 8 Digital input 1 resistor bypass OFF 9 Digital input 1 0V24 connection OFF 10 Digital input 2 resistor bypass OFF 11 Digital input 2 0V24 connection OFF 12 Digital input 3 resistor bypass OFF 13 Digital input 3 0V24 connection OFF 14 Digital input 4 resistor bypass OFF 15 Digital input 4 0V24 connection OFF 16 Digital input 5 resistor bypass OFF 17 Digital input 5 0V24 connection OFF Figure 32 Digital I/O boar
SUMMIT 8800 HARDWARE DETAILS 05 5.6 Digital I/O Board 2 The digital I/O board 2 can only be exchanged by qualified personnel. Up to a maximum of 6 cards can be inserted in any of the 6 plug in slots in the SUMMIT 8800 chassis. A board can provide input and output functions as detailed: • 3 pulse counting/frequency measuring inputs (for use with turbine meters, rotary meters, density or relative density transducers). • 1 Digital status inputs for use with switch or contact inputs.
05 HARDWARE DETAILS SUMMIT 8800 5.6.1.1 Serial communication connection For the serial communication connection, refer to the appropriate section given in Contents. 5.6.2 Digital I/O Board 2 Settings The following sections contain details of the user controls and settings for the digital I/O 2 board. 5.6.2.
SUMMIT 8800 HARDWARE DETAILS 05 Link Function Factory setting 4 RS485 termination network connection OFF 5 RS485 termination network connection OFF Figure 38 Digital I/O board 2 RS485 termination link setting Table 8 Serial settings on digital I/O board 2 5.7 Analog I/O Board The analog I/O board can only be exchanged by qualified personnel. Up to a maximum of 6 cards can be inserted in any of the plug in slots in the SUMMIT 8800 chassis.
05 HARDWARE DETAILS SUMMIT 8800 5.7.1 Analog I/O Board Terminal Connections Figure 39 Analog I/O board rear terminal pin allocation 5.7.1.1 Serial communication connection For the serial communication connection, refer to appropriate section given in Contents. 5.7.2 Analog I/O Board Settings The following sections contain details of the user controls and settings for the analog I/O board. 5.7.2.1 Digital Input Settings Position of digital input links shown on top edge of analog I/O board 48 www.
SUMMIT 8800 HARDWARE DETAILS 05 Link Function Factory setting 8 Digital Input 1 resistor bypass OFF 9 Digital Input 1 0V24 connection OFF 10 Digital Input 2 resistor bypass OFF 11 Digital Input 2 0V24 connection OFF 12 Digital Input 3 resistor bypass OFF 13 Digital Input 3 0V24 connection OFF 14 Digital Input 4 resistor bypass OFF 15 Digital Input 4 0V24 connection OFF 16 Digital Input 5 resistor bypass OFF 17 Digital Input 5 0V24 connection OFF Figure 40 Analog I/O board
05 HARDWARE DETAILS SUMMIT 8800 5.7.2.3 RS485 Settings Position of RS485 termination network links shown on left hand edge of analog I/O board Link Function 4 Factory setting RS485 termination network connection OFF Figure 42 Analog I/O board RS485 termination link setting Table 11 Serial settings on analog I/O board 5.
SUMMIT 8800 HARDWARE DETAILS 05 5.8.1 Switch I/O Board Terminal Connections Figure 43 Switch I/O board rear terminal pin allocation 5.8.1.1 Serial communication connection For the serial communication connection, refer to appropriate section given in Contents. 5.8.2 Switch I/O Board Settings The following sections contain details of the user controls and settings for the switch I/O board. 5.8.2.
05 HARDWARE DETAILS SUMMIT 8800 Link Function Factory setting 4 Digital Input 1 resistor bypass OFF 5 Digital Input 1 0V24 connection OFF 6 Digital Input 2 resistor bypass OFF 7 Digital Input 2 0V24 connection OFF 8 Digital Input 3 resistor bypass OFF 9 Digital Input 3 0V24 connection OFF 10 Digital Input 4 resistor bypass OFF 11 Digital Input 4 0V24 connection OFF 12 Digital Input 5 resistor bypass OFF 13 Digital Input 5 0V24 connection OFF 14 Digital Input 6 resistor b
SUMMIT 8800 HARDWARE DETAILS 05 Link Function Factory setting 3 RS485 termination network connection OFF 2 RS485 termination network connection OFF Figure 46 Switch I/O board RS485 termination link settings Table 14 Serial settings on switch I/O board 5.8.2.
05 HARDWARE DETAILS SUMMIT 8800 *The Dual Ethernet communication board also provides additional capabilities such as redundancy for networks, separated fiscal communication from maintenance data, user defined websites, SOAP (simple object access protocol) communication protocol, secure data transfer and encrypting of data. Further details can be found in volume 2 of the service handbooks. 5.9.1 Ethernet Board Terminal Connections Figure 48 Ethernet boards rear terminal pin allocation 54 www.krohne.
SUMMIT 8800 HARDWARE DETAILS 05 *Dual Ethernet: YELLOW 100M Network, GREEN Network Activity *Single Ethernet: RED Network Collision, YELLOW 100M Network, GREEN Network Activity 5.9.2 Dual Ethernet Board Settings 5.9.2.
05 HARDWARE DETAILS SUMMIT 8800 Figure 50 Communication board link setting Link Function Factory setting 3 RS485 termination network connection port 1 OFF 4 RS485 termination network connection port 1 OFF 5 RS485 termination network connection port 2 OFF 6 RS485 termination network connection port 2 OFF 7 RS485 termination network connection port 3 OFF 8 RS485 termination network connection port 3 OFF Table 19 Single Ethernet serial settings 5.9.3.
SUMMIT 8800 HARDWARE DETAILS 05 Figure 51 DSfG communication board It provides system communication functions as follows: • 1 galvanically isolated Serial Communication Port for external devices, e.g. modem • 1 internal non-isolated serial Modbus port to connect to serial port 2 of a dual Ethernet port • 1 external serial Modbus port, optionally connected to the internal serial port • 6 LED’s to monitor the communication progress • 1 galvanically isolated Serial Communication Port using either DSfG.
05 HARDWARE DETAILS SUMMIT 8800 5.10.2 DSfG Board Terminal Connections 58 www.krohne.
SUMMIT 8800 HARDWARE DETAILS 05 5.10.3 Boards block diagram Figure 53 DSfG boards block diagram 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 FIELD DEVICE CONNECTION SUMMIT 8800 6. Connecting To Field Devices This chapter details connectivity to the commonly available field instruments that can be connected to the SUMMIT 8800. The following connections are generic, not specific to any brand or manufacturer. For detailed connections, please refer to the instruments manufacturer installation manual. 6.1 Transmitters & Transducers Typically these devices will be used for temperature, pressure, density. 6.1.
SUMMIT 8800 FIELD DEVICE CONNECTION 06 Figure 55 HART multidrop 6.1.2 Digital Transmitter Input Connections These inputs are generally used for connection to pulse-counting meters such as Rotary or Turbine meters, frequency measuring transmitters such as Density or Relative Density transmitters or simple switch inputs. In all cases the required connections is typically as shown in the figure below.
06 FIELD DEVICE CONNECTION SUMMIT 8800 Figure 56 Digital Input internal circuit The connections for the different type of digital signals are: Frequency e.g. Density, see figure below: Digital input density transducer Status input via optocoupler see figure below: Digital input status optocoupler Status input direct, see figure below: Digital input pulse status Figure 57 Digital input density transducer 62 www.krohne.
SUMMIT 8800 FIELD DEVICE CONNECTION 06 Figure 58 Digital input status optocoupler Figure 59 Digital input pulse status 6.1.3 Digital Transmitter Output Connections Figure 60 Digital output valve solenoid 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 FIELD DEVICE CONNECTION SUMMIT 8800 6.1.4 Analog Transmitter Input Connections NOTE: Only available when analog I/O board fitted. Any analog inputs used are generally used for connection to 4-20mA type transmitters for measurement of pressure, temperature or similar. Refer to the transmitter operating manual for installation procedures. A typical method of connecting transmitters is shown in the figure below and for the terminal pin designations refer to the analog I/O board connection in section 7.
SUMMIT 8800 FIELD DEVICE CONNECTION 06 Figure 63 Analog input internal circuit Figure 64 Analog input transmitter isolator loop Figure 65 Analog input passive transmitter loop 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 FIELD DEVICE CONNECTION SUMMIT 8800 6.1.5 Analog Transmitter Output Connection Figure 66 Analog output passive actuator 6.1.6 Direct RTD Input Connections The PT100 temperature input can be a direct 3 or 4 wire Resistance 100 ohms at 0°C. Refer to the transmitter operating manual for the installation procedure. A typical method of connecting transmitters is shown in the figure below and for the terminal pin designations refer to section 7.1 of this chapter Figure 67 Direct RTD connection 66 www.
SUMMIT 8800 FIELD DEVICE CONNECTION 06 6.1.7 Pulse Bus Figure 68 Pulse bus loop 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 FIELD DEVICE CONNECTION SUMMIT 8800 Figure 69 Start/stop signals loop 6.2 RS 232/RS485 Communications Connections All I/O boards - Digital, Digital 2, Switch and Analog have an RS232/RS485 connection for serial communications, with e.g., smart meters or similar devices. These connections are not galvanically isolated from the internal supplies of the SUMMIT 8800; it is, therefore, recommended that external barrier devices are used in conjunction with these connections.
SUMMIT 8800 FIELD DEVICE CONNECTION 06 Figure 70 Internal RS485 Termination network Configuration and connection must be done in accordance with the manufacturer’s guidance of any connected device. Figure 71 RS485 multidrop 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 7. Operation 7.1 Initialising When the flow computer has been successfully mounted and installed correctly, it is recommended that all electric connections are verified prior to powering up the flow computer. The SUMMIT 8800 does not have an ON/OFF switch, and unless such a switch has been integrated into the installation, once the 24V input is connected, the flow computer will begin an initialization procedure.
SUMMIT 8800 FIELD DEVICE CONNECTION OPERATION 07 06 7.2.2 Navigator The rotary control Navigator operates in two ways, firstly as a continuously variable 360 degree dial that step through each of the possible parameters on a display page highlighting each button in turn with red indicators on the sides. To use the rotary control, rotate either clockwise or counter clockwise until the desired item is highlighted or shown with the red indicators.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 ton which is always on the bottom left corner of the display screen. The majority of Main Menu items are basically short cuts to groups of display pages, e.g. Totals is a short cut to pages that include totals of all types.
SUMMIT 8800 FIELD DEVICE CONNECTION OPERATION 07 06 When this menu item is selected the user will be prompted to enter a four digit numeric password to access the calibration pages. It is possible to set-up a maximum of three different passwords and each of these passwords can be set to allow access permissions or to restrict the user to the calibration pages, these passwords are the same as used in the EDIT mode.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 Figure 78 Enter values screen Figure 79 Exit edit screen 74 www.krohne.
SUMMIT 8800 FIELD DEVICE CONNECTION OPERATION 07 06 7.2.4.2 Calibration The Edit Mode also allows access to the Calibration page under the same password entry. Calibration allows the user to calibrate the inputs and outputs on specific I/O Board. Details of Calibration procedures for all available input and output types can be found in the relevant section. Figure 80 Calibration menu 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 7.2.4.3 Alarm Log A typical Alarm log display is shown below. Figure 81 Alarm page Accountable alarms are shown in Red and Non-accountable alarms and warnings in Blue. Any current Alarm will be accompanied by a FLASHING LED of the corresponding alarm type stating that an Alarm occurrence has not been acknowledged. An Alarm can be acknowledged by selecting the Acknowledge button at the bottom of the Alarm Log page.
SUMMIT 8800 FIELD DEVICE CONNECTION OPERATION 07 06 7.2.4.4 Audit Log A typical Audit Log display is shown below, the audit log, logs all changes made to the flow computer parameters including items that could affect the operation of the flow computer. Figure 82 Audit Log Example Figure 83 Audit log trail 7.2.4.5 Supervisory The Supervisory or Mimic Diagram page shows a diagrammatical view of the basic system setup.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 Figure 84 Supervisory screen display 7.2.4.6 Supervisor Mode The Supervisor Mode is an advanced Edit Mode feature - it allows the user to log into the flow computer, once logged in the user has open access to all display pages and permission to alter any preset data or operate any function buttons or commands without having to login for every operation.
SUMMIT 8800 FIELD DEVICE CONNECTION OPERATION 07 06 7.2.4.7 System Information The System Information Page and Board information page, contains all relevant information for firmware and Hardware versions fitted in the SUMMIT 8800, together with Silicon Serial Numbers of all fitted circuit boards.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 7.2.4.8 Settings The Settings page contains non critical display controls: Display Settings: Language Selection & Display Brightness Figure 87 Display settings screen Display Test - Display On (white Screen), Display Off (black Screen) & Test Card. 80 www.krohne.
SUMMIT 8800 FIELD DEVICE CONNECTION OPERATION 07 06 Figure 88 Display test screen 7.2.4.9 Touch Screen Calibration Touch screen is a resistive device and is therefore pressure sensitive. It can be operated with a finger, a pointing device or a glove. The Touch screen comes factory calibrated. Further Test and Touch screen operation calibration can be performed by screen procedure as illustrated below. 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
06 07 FIELD DEVICE CONNECTION OPERATION SUMMIT 8800 Figure 89 Touch screen calibration Calibrate Follow the on screen instruction for touch screen calibration Set Sensitivity Follow the on screen instruction for touch screen sensitivity Test Follow the on screen instruction for touch screen test Touch Screen Enabled when unselected disables the touch screen navigation so all display navigation is performed using the Rotary control.
SUMMIT 8800 CALIBRATION 08 8. Calibration Calibration should be carried out by qualified personnel. This function allows certain available Inputs and Outputs to be calibrated for accuracy, which is performed using the Windows configuration software. The procedure is described in the Help Menu and from the front panel of the flow computer. Calibrate mode is entered as a sub-menu from the Edit Mode, the entry procedure is described later in this chapter.
08 CALIBRATION SUMMIT 8800 8.1.2 RTD Input To calibrate the PT-100 temperature input. Main Controls Start Calibrate Starts the calibration process Write Write the new calibration data to the flow computer Discard Discards any calibration changes made. Default Reverts to default factory calibration. Stop Calibrate Stops the calibration process. Figure 92 RTD Input calibration screen RTD Calibration Procedure • Apply the Lower Calibration input to the unit (e.g.
SUMMIT 8800 CALIBRATION 08 Main Controls: Start Calibrate starts the calibration process Write write the new calibration data to the connected flow computer Discard discards any calibration changes made. Default reverts to default factory calibration. Stop calibrate stops the calibration process. Figure 93 Calibrate analog input Adjusting the input range: • Evaluate the field instrument data sheet and take particular note of its range setting for minimum and maximum process values.
08 CALIBRATION SUMMIT 8800 • Apply the current that corresponds with the minimum process value to the unit. Note that only 0% (4mA) and 100% (20mA) values will be accepted. It is not possible to calibrate a range with e.g. 40% and 75% as minimum and maximum calibration values. Set the field instrument in simulation mode and simulate 0% (4mA). For below two adjustments allow for input value stabilisation (e.g.
SUMMIT 8800 CALIBRATION 08 Figure 95 Analog output calibration screen Analog Output Calibration Procedure NOTE: Output accuracy is specified as 0.15% FSD or an absolute error of 30 uA. • Connect a reference precision 100 Ohm resistance (0.05% accuracy or better) to the target analog output. • Connect a reference calibrated digital meter with a 0-2V range (0.05% accuracy or better) across the resistor. • Click the SET TO 4mA button on the START CALIBRATE page.
09 WEB ACCESS SUMMIT 8800 9. Web Access To start the web site via a web browser on the PC or phone go type the IP address of the SUMMIT 8800 to be accessed: e.g. //10.5.3.212. To find out its IP address go to the SUMMIT 8800 system information page and select the Ethernet board information. 9.1 Login Figure 96 Website login After a correct login, the default information webpage will appears. On this page the user can view configured hardware I/O boards, security mode and the flow computer tag name.
SUMMIT 8800 WEB ACCESS 09 9.2 The main page / display page Figure 97 Main Page In the display page the SUMMIT 8800 can be viewed remotely. The display operates very similar to the actual SUMMIT 8800 with all the same pages. No special configuration is needed. Figure 98 Main page bar chart 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
09 WEB ACCESS SUMMIT 8800 9.3 The information page Figure 99 Information page The information page provides some general information on the Summit at hand. 9.4 The alarm page Figure 100 Alarm page The alarm page gives an overview of all alarms in the unit. This list can be downloaded to the PC, see chapter Web Access: Section Download. 90 www.krohne.
SUMMIT 8800 WEB ACCESS 09 9.5 The Audit page: Figure 101 Audit log This page shows the audit log. This list can be downloaded to the PC, see chapter Web Access: Section Download. 9.6 The active data page Figure 102 Active data page The Active Page gives an overview of all ID reports configured. In this case the parameter report “Stream 1 verification”. This list can be downloaded to the PC, see chapter Web Access: Section Download. 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
09 WEB ACCESS SUMMIT 8800 9.7 Download The alarm log, audit log and all ID reports can be downloaded into a CSV file which can be read e.g. in Excel: Figure 103 Downloading CSV file In Excel, Choose under Get external data : “Data/ From Text”, change in the second page - The delimiter from TAB to Comma - The text qualifier to ‘ 92 www.krohne.
SUMMIT 8800 WEB ACCESS 09 Figure 104 Import wizard Finish the wizard and the parameter file will be available in Excel: Figure 105 Finishing the wizard in Excel 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
10 CONFIGURATION SOFTWARE SUMMIT 8800 10. Configuration Software 10.1 Introduction The SUMMIT 8800 configuration software is Windows based software which has two major functions: • It allows the user to create a configuration, specific to his application. • It also allows communication with a Summit 8800 to transfer configuration and setup data and for downloading of results, tables and report data. In this volume of the handbook, the second function will be described.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 108 Menu Configurator software 10.1.2 Select the preferred engineering units Normally, the default engineering units will be Metric. However it is possible to set the default units for the configurator to USC. Start the configurator, then: Select settings and tab “Users”: Figure 109 Appearance Select the default engineering units (metric or USC) and press OK. 10.1.
10 CONFIGURATION SOFTWARE SUMMIT 8800 To install a new user, start the configurator (the configuration software). Select settings and tab Users to add users. Figure 110 User creation screen Figure 111 User access level Create an Operator user, e.g.: • User name : Operator • Password: Operator and make any other users with relevant access and permission levels. 96 www.krohne.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 10.2 USB Driver installation For communication between the Configurator and the Summit via the USB port, a driver must be installed. Here the standard procedure to do so: Power on the SUMMIT 8800 flow computer – by supplying the 24VDC to the PSU input connector Figure 112 24V input power Ensure that the current user has Windows administrator privileges and has Windows permissions to install drivers.
10 CONFIGURATION SOFTWARE SUMMIT 8800 10.3 Main functions of the configurator Start the configurator (the configuration software) with an administrator account to get full access to all settings. Figure 115 Menu Configurator software Edit Offline This function allows the user to create a new configuration without actually being connected to the flow computer. This function will be described in detail in volume 2 and 3 of this handbook.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Details of versions and releases Exit Exits the software. 10.4 Connect to a Summit There are two different ways to connect to a Summit: • Using the connect button • Using the download button Since both functions are the same we describe only the first. When the connect button is selected, the software, will open a discovering window where it will search all Summits connected to USB and/or Ethernet.
10 CONFIGURATION SOFTWARE SUMMIT 8800 Figure 117 Manual connection list After adding a new Summit, the connection menu will be updated. From the connection menu, the operator can select the Summit of choice and click OK or double click on the line to connect to it. The configuration software will then read the Summit set-up: Figure 118 Reading setup To poll the basic configuration and serial number displaying the details in the top title bar of the Configuration Menu Page. 100 www.krohne.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 119 Connection menu For details on this menu, see chapter Configuration Software: Connect to a SUMMIT. 10.5 Working with configuration set-up’s The configurator can be used in off-line and on-line mode (not connected or connected to a Summit). • In off-line mode, a configuration can be edited (newly created one or an existing one), the configuration can be saved on disk and can be loaded from disk.
10 CONFIGURATION SOFTWARE SUMMIT 8800 10.5.1 Security It is important to know that flow computers require high security. Not everybody may change information, certainly not if the Summit is in normal operation. This is specifically true in custody transfer or fiscal applications where often certificates are needed to change settings. Therefore several measures are available to prevent unauthorized use. 10.5.1.1 User passwords To be able to use the configurator, a user name and password must be given.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 121 Operating dipswitch settings The security dip-witched must then be changed to download the configuration. 10.5.2 New configuration In the main menu of the configurator (see chapter Configuration Software: Main Functions of the Configurator) select edit offline to start a new configuration and select the correct version matching the target hardware.
10 CONFIGURATION SOFTWARE SUMMIT 8800 Figure 123 Select Run type Select the configuration type • Prover/Master Meter • Standard Run. Select the relevant meter application; • Gas Turbine/DP • Gas Ultrasonic • Gas DP • Gas Coriolis • Liquid Turbine • Liquid Ultrasonic • Liquid Coriolis • Steam Ultrasonic Then the configuration can be edited. 10.5.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 124 Load configuration file Press “Open” and set the correct version for your hardware revision. Then the configuration can be edited. 10.5.3.1 Convert a configuration It might be that the old set-up is for a different software version that actually used. For that reasons an automatic conversion can be done as the configurator is upwards compatible. In this case the configuration on disk was for version 0.32.1 while we like to convert to e.g. version 0.
10 CONFIGURATION SOFTWARE SUMMIT 8800 So change the selection to 0.34 and press OK to start the conversion. When loaded refer to edit off-line for further details. Please note that some features may not be supported in older versions. Then the configuration can be edited. 10.5.4 Save a configuration To save the configuration select the ‘Save’ icon. Figure 126 Save configuration Give the application a name and select the save button. Then the configuration can be edited. 10.5.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 127 Edit online window The title bar will display the unique name of the flow computer application and how it is connected, either by USB or Ethernet with the IP address. 10.5.6 Download a configuration After loading the software, the typical maintenance action will be to download the software to the Summit 8800.
10 CONFIGURATION SOFTWARE SUMMIT 8800 Figure 129 Connection list Select the desired flow computer and press OK (or double click). The download will then start. Figure 130 Download configuration process In this case the download was successfully completed, however it might also be that there are errors indicated. Typically these are related to missing hardware, where the software assumes a certain board at a certain slot, but where the hardware is different. Therefore always check the list. 10.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 131 Edit offline Six icons are displayed in the Edit Offline Window Save Allows the operator to save the current selected setup files to the computer memory, the user is prompted to enter a file name, browse for a location and a file type. The normal file extension for set-up is .exi, using this extension the file can be uploaded into the configurator software. Other possible file types are .pdf, .html, .rtf, .txt, .xls or .csv.
10 CONFIGURATION SOFTWARE SUMMIT 8800 When the operation is complete select OK. Download Downloads the modified or new setup file into the selected connected flow computer. Help Displays the help menu.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 132 Connection menu When the options are selected, as default, a new tab is created on the same screen. The user has the option to undock which removes the new tab created and creates a separate window for the data required. Redock is the reverse of undock and will add the window and its data back into the main screen as a separate tab 10.7.
10 CONFIGURATION SOFTWARE SUMMIT 8800 Each alarm is displayed with an alarm number, on time and date, off time and date, alarm type, alarm group and description. Alarms are colour coded: • Blue Non Accountable • Red Accountable • Orange Warning • Bold Text Active Alarm • Light Text Cleared Alarm Figure 133 Alarm window 10.7.3 Read Log Data Reads the current logged Data from the connected SUMMIT 8800.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 Figure 135 Data log window The selected log data, will be displayed in Vertical columns in descending time and date order together with the Log record number, time and data of the record and the data logs. 10.7.4 Read Data Reports Reads any available ID reports that have been configured. If more than one data report has been set up, the user will be prompted to select which data report to display.
10 CONFIGURATION SOFTWARE SUMMIT 8800 Figure 136 Data report window 10.7.5 Read Audit Log Reads the current audit log Data from the SUMMIT 8800. The user will be prompted to display the Audit log from internal memory Data Flash, or from the optional memory card SD Card. Figure 137 Audit log window 114 www.krohne.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 The selected Audit Log Data will be displayed in Vertical columns in descending time and date order. Each Record can be expanded, where such data exists, to display additional data from each audit. 10.7.6 Clear Data Allows the user to clear any stored, Audit, Alarm or Logged Data. The user is prompted to select the logged data item to be cleared, from a list of possible items. Once the item has been cleared, this is confirmed by a message window. 10.7.
10 CONFIGURATION SOFTWARE SUMMIT 8800 Figure 139 Check threads display 10.7.11 Check Memory Pool Displays memory allocation with details such as available memory, used and reaming. Figure 140 Check memory pool display 116 www.krohne.
SUMMIT 8800 CONFIGURATION SOFTWARE 10 10.7.12 Read Unit Information Saves a text file with hardware, software and firmware serial numbers including detailed technical information on the configuration setup. 10.7.13 Log off and close Logs off from the main connection menu, closes the window and returns the operator to the main configuration menu. 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
11 FIRMWARE SUMMIT 8800 11. Firmware 11.1 Introduction The firmware wizard is required when updates for one of the boards, the back panel or the summit computer board is required. The Summit 8800 firmware consists of eight main programs as listed below, each of these programs are individual items that is created, stored, compiled and transmitted to the flow computer separately.
SUMMIT 8800 FIRMWARE 11 Figure 141 Firmware illustration 11.1.2 Firmware Versions First Digit Major Revision that affects Compatibility of Software with Configuration data, most likely used when new software features are added or hardware features are added. Second Digit Minor Revision that affects Compatibility of software with Configuration data, most likely used when major modifications are made to existing software or hardware features.
11 FIRMWARE SUMMIT 8800 IMPORTANT: Prior to any upgrades, it is advisable to download the flow computer configuration (hard copy print in addition) and to note all totaliser values. 11.3.1 Upgrading firmware boot/main version With the firmware update, two files are presented – main and boot. These are the two files that will be uploaded into the CPU of the flow computer to successfully upgrade it to the latest revision. I/O boards may also require updating depending on the functions added.
SUMMIT 8800 FIRMWARE 11 •The flow computer will power up and start in boot mode. •The firmware can now be uploaded by starting the download wizard. This tool can be found under the \krohne\summit 8800 firmware wizard\firmware wizard.exe •Select the correct firmware files to download – browse the program (search for a boot or main S19 file for each specific board; main, I/O or comms).
12 DISPLAY MONITOR SUMMIT 8800 12. Display Monitor . The display monitor is software to be installed on a Windows PC. The Display monitor software is used for two purposes: • Make a screen shot of the Summit display • Use a PC to display the Summit screen, e.g. when using a beamer. The flow computer will be forwarded to a laptop once a second 122 www.krohne.
SUMMIT 8800 APPENDIX 1: SOFTWARE VERSIONS 13 13. Appendix 1: Software Versions 13.1 Versions/ Revisions First Digit Major Revision that affects Compatibility of Software with Configuration data, most likely used when new software features are added or hardware features are added. Second Digit Minor Revision that affects Compatibility of software with Configuration data, most likely used when major modifications are made to existing software or hardware features.
13 APPENDIX 1: SOFTWARE VERSIONS . 124 SUMMIT 8800 DIO2board_Main 2.4.0.0 2012-07-27 0x004AC67A SIOboard_Main 0.2.0.1 2010-11-24 0x0043DAE2 Commsboard_Main 0.8.0.0 2012-05-29 0x0137E837 DualEthernet_Main 0.4.0.0 2012-05-29 0x013DE995 BoardBoot 0.5.0.0 2011-02-17 0x000CC299 Summit Configurator 2.4.0.0 2012-07-27 N.A. www.krohne.
SUMMIT 8800 APPENDIX 2: SIGNAL ALLOCATION FORMS 14 14. Appendix 2: Signal Allocation Forms 14.1 Example Slot number: 6 Input Input type Signal type Purpose Port 1 RS232 X Ticket printer X Gas Chromatograph RS485 Port 2 RS232 RS485 Port 3 RS232 RS485 V12 Ultrasonic meter 5 IP Address Net 1 10.10.2.1 Web Browser Net 2 10.10.3.2 XML reports FTP printing DSC modbus slave 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
14 APPENDIX 2: SIGNAL ALLOCATION FORMS SUMMIT 8800 14.1.
SUMMIT 8800 APPENDIX 2: SIGNAL ALLOCATION FORMS 14 14.1.
14 APPENDIX 2: SIGNAL ALLOCATION FORMS SUMMIT 8800 14.1.
SUMMIT 8800 APPENDIX 2: SIGNAL ALLOCATION FORMS 14 14.1.
14 APPENDIX 2: SIGNAL ALLOCATION FORMS SUMMIT 8800 14.1.5 Dual Ethernet Board Terminal Connections Slot number: 6 Input Input type Port 1 RS232 Signal type Purpose RS485 Port 2 RS232 RS485 Port 3 RS232 RS485 IP Address Net 1 Net 2 130 www.krohne.
SUMMIT 8800 APPENDIX 2: SIGNAL ALLOCATION FORMS 14 14.1.6 Single Ethernet Board Terminal Connections Slot number: 6 Input Input type Port 1 RS232 Signal type Purpose RS485 Port 2 RS232 RS485 Port 3 RS232 RS485 IP Address Net 1 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
14 APPENDIX 2: SIGNAL ALLOCATION FORMS SUMMIT 8800 14.1.7 DSfG Board Terminal Connections Slot number: 6 Input Input type PL1 RS232 PL1 RS232 PL3 DSfG SW RS485 Signal type Purpose Flow computer DSfG Bus Configuration Data retrieval USB-B 132 www.krohne.
SUMMIT 8800 APPENDIX 3: TECHNICAL DATA 15 15. Appendix 3: Technical Data 15.1 General Environmental Dimensions Intended for Indoor use only Optional IP20 Maximum Altitude 2000 meters Operating Temperature 0 to 50°C Storage Temperature -25 to 70°C Maximum Relative Humidity 80% non condensing Pollution Degree 2 Height 130 mm Width 210 mm Depth 240 mm All slots occupied 2.5 kg 1 I/P Board and 1 comms Board 2.0 kg Packed Weight All slots occupied 3.
15 APPENDIX 3: TECHNICAL DATA Analog Analog Analog SUMMIT 8800 Maximum Input Voltage LK14, 16 ON +1.2V Type Current Input Input range 4 to 20 mA Input resistance 100 ohm Type 4 wire Direct RTD Nominal Input Range -20°C to +100°C RTD type 100 ohm @ 0°C Energising current 3mA Type HART current Loop Maximum No.
SUMMIT 8800 APPENDIX 3: TECHNICAL DATA Serial Communication Network communication Physical Layer RS232 or RS485 Max Baud Rate 38400 baud Handshake RTS/CTS on Port PL3 None on Port PL4 or PL5 Isolation Galvanically isolated Ethernet IEEE 802.3 Speed 10/100 15 15.3.2 Power Supply Power Input Voltage Range +24VDC +/- 10% Power Consumption All slots occupied 30W at Input voltage +24V nominal 1 I/P Board and 1 comms Board 8.5W F1 Internal 3.15A 20mm F2 External Rear Panel 1.
15 APPENDIX 3: TECHNICAL DATA SUMMIT 8800 Field connections PSU connections and fuse Six slots for option boards I/O and Communication Connections Switch Panel Access to security mode switches Access to Memory Card Front Panel Display Display 5.
SUMMIT 8800 APPENDIX 3: TECHNICAL DATA 15 Redundancy Master/Slave computer Health based switching Full redundancy between two flow computers Duty-standby system based on health indicator Healthiest computer duty Other flow computer Hot standby Two independent heartbeat/ healthy channels I/O Boards Type board: Digital 1 Digital 2 Analog Switch HART transmitter loop Up to 3 transmitters (if multidropped) Up to 4 variables per transmitter For temperature, (differential) pressure, meters 2 2 1 -
15 APPENDIX 3: TECHNICAL DATA SUMMIT 8800 Communications Boards Type Board: Single Dual Serial Communication Connection RS232/ RS485 Galvanically isolated, Port 1: hardware handshake (RTS/CTS); Port 2/3 Software handshake Speeds up to 38400 baud RJ45 Connector Fully user configurable Modbus ASCII or RTU 3 3 Ethernet Port 10/100 RJ45 port with indicators IEEE 802.3 Fully use configurable and programmable - Applications e.g.
SUMMIT 8800 APPENDIX 3: TECHNICAL DATA 15 15.4.2 Replacement Parts The following user replacement parts are available for service/maintenance: Part No. Item Description 8800-300 Display and MPU board Main display, MPU, memory & USB Interface. 8800-301 Cage incl. PSU and Aux Housing, display, power supply and aux board 8800-302 PSU Board Power supply for complete Unit. 8800-303 Aux. Board Mode switch, SD Card and battery backup.
16 APPENDIX 4: INSTALL THE CONFIGURATOR SUMMIT 8800 16. Appendix 4: Install The Configurator Before installation commences ensure that the current Windows user has administrator privileges. In a Windows Vista, Windows 7 and windows 8 environment follow below instructions. Click on the Windows start button. In search field, type explorer. Navigate to the Summit 8800 CD-ROM. Search for your target executable. Right mouse button click the executable and select START AS AN ADMINISTRATOR.
SUMMIT 8800 APPENDIX 4: INSTALL THE CONFIGURATOR 16 Click Next when the system opens the “Choose start menu folder” Figure 148 Configurator program location Select Typical for setup type and click Install; (double check USB driver is selected) Figure 149 Configurator install features The Summit 8800 can have many different versions which are upwards compatible.
16 APPENDIX 4: INSTALL THE CONFIGURATOR SUMMIT 8800 Figure 150 Software installation process Click Finish to complete the setup Figure 151 Completion window Remove the CD and login to access the configuration tool. A windows appears with “No users exists”. Select OK. Figure 152 Add user window At this stage it a super user or administrator will be created who has FULL rights and open permission. At a later stage additional users can be added. Choose a name and password e.g.. 142 www.krohne.
SUMMIT 8800 APPENDIX 4: INSTALL THE CONFIGURATOR 16 User name: Administrator Password: Administrator Figure 153 Edit user window The KROHNE configuration software is now installed . 08/2013 - MA SUMMIT 8800 Vol1 R02 en www.krohne.
