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1. Note TM05 6436 4712 Fig 14 CIM 500 connected to PC Both ETH1 and ETH2 can be used to establish a Noe connection to the Web server The web server can be accessed while the selected Industrial Ethernet protocol is active 6 5 Status LEDs The CIM 500 Ethernet module has two Status LEDs LED1 and LED2 See fig 12 Red green status LED LED1 for Ethernet communication Red green status LED LED2 for internal communication between the CIM 500 and the Grundfos product LED1 Status Description Off The CIM 500 is switched off Wink function LED will flash 10 times when activated from master The CIM 500 is ready for data transmission data exchange state Wrong or missing PROFINET IO configuration See section C M 500 fitted in a Grundfos E pump Flashing green Permanently green Flashing red 3 Hz duty cycle 50 96 Configured but connection to master lost See section C M 500 fitted in a Grundfos E pump Pulsing red 0 3Hz duty cycle 10 Product not supported See section CIM 500 fitted in a Grundfos E pump Permanently red Error in firmware download See section C M 500 fitted in a Grundfos E pump Permanently red and green After 20 seconds in this state the CIM 500 factory settings are restored and the device is restarted Flashing red and green LED2 Status Description Off The CIM 500 is switched off2. Floating point Visible string o jo ojo 5l o m gt 0 Non standard All multi byte data types are transmitted with MSB Most Significant Byte first 7 2 Control module controlModule module 2 The control module is a PROFIBUS PROFINET output module used for the control of E pumps Its data type is 10 non standard Event Byte Bit Name _ trigger RemoteAccessReq State OnOff State Byte 1 ResetFault Rising edge data type 5 OO N o CopyToLocal State 5 7 ControlMode enumeration ConstSpeed ConstFreq ConstHead ConstPressure ConstDiffPress Byte 2 VarDiffPress data type 5 ConstFlow o 2 oom 25 o w2 o ConstTemp 9 ConstTempDiff 10 ConstLev 11 127 128 AUTOApapr AutoPressMode 129 FLOWApapr 130 Closed loop sensor OperatingMode enumeration 0 AutoControl Byte 3 1 3 data type 5 4 OpenLoopMin 5 6 OpenLoopMax Byte 4 and 5 1 0 data type 6 Setpoint 0 01 96 10 CUE frequency converter MGE model MAGNAGS only LME series 2000 only MAGNA and LME series 2000 only 7 2 1 Explanation to event trigger Rising edge Control bits with a rising edge event trigger behave like a command that is executed when a bit transition from O to 1 occurs Each of them has a corresponding acknowledge bit in the
3. Rotation Status bit indicating that the motor is rotating consuming power 0 No rotation 1 Rotation Direction Status bit indicating the direction of rotation of the E pump 0 Clockwise CW 1 Counter clockwise CCW ProcessFeedback In closed loop control this is the value of the controlled process variable feedback primary sensor The process variable can always be compared directly with the ActualSetpoint variable If no setpoint influence is active it can also be compared with the Setpoint variable in the ControlModule In open loop control Setpoint is mapped to ProcessFeedback The value of the feedback sensor can be read in the corresponding measurement module See section 7 9 Measurement data modules ControlMode Status enumeration showing the actual E pump control mode See section 7 2 3 Explanation to control mode for detailed explanation to the various control modes OperatingMode Status enumeration showing the actual E pump operating mode See section 7 2 4 Explanation to operating mode for detailed explanation to the various operating modes 13 English GB 99 ysi6ug 7 4 Illustration of closed loop control Setpoint output Setpoint ActualSetpoint Closed loop influence control ProcessFeedback Y UserSetpoint Motor with frequency Frequency converter Sensor Fig 18 Illustration of closed loop control and the associated data modules
4. 10 Grundfos alarm and warning codes This is a complete list of alarm and warning codes for Grundfos products For the codes supported by E pumps see section 7 8 Alarms and warnings Code Description Code Description Code Description 1 Leakage current 32 Overvoltage 72 Hardware fault type 1 2 Missing phase 73 Hardware shutdown HSD service information 3 External fault signal 35 Basin bump head d agrating 74 Internal supply voltage too high problem 4 Too many restarts 36 Discharge valve leakage 75 Internal supply voltage too low 5 Regenerative braking 37 Suction valve leakage 76 Internal communication fault 6 Mains fault 38 Vent valve defective MB pump 7 Too many hardware shutdowns 40 Undervoltage 78 Fault speed plug 8 PWM switching frequency 41 Undervoltage transient 79 Functional fault add on module reduced 9 Phase sequence reversal 42 Cut in fault dV dt 80 Hardware fault type 2 10 Communication fault pump 45 Voltage asymmetry 81 Verification error data area RAM TM Verification error code area 11 Water in oil fault motor oil 48 Overload 82 ROM FLASH Time for service bs te Verification error FE parameter 12 general service information 49 Overcurrent i line i de 1 mo 83 Motor protection function 13 Moisture alarm analog 50 general shutdown MPF 84 Memory access error Electronic DC lin
5. GRUNDFOS Pumper A S Str msveien 344 Postboks 235 Leirdal N 1011 Oslo Tif 47 22 90 47 00 Telefax 47 22 32 21 50 Poland GRUNDFOS Pompy Sp z 0 0 ul Klonowa 23 Baranowo k Poznania PL 62 081 Przezmierowo Tel 48 61 650 13 00 Fax 48 61 650 13 50 Portugal Bombas GRUNDFOS Portugal S A Rua Calvet de Magalh es 241 Apartado 1079 P 2770 153 Pago de Arcos Tel 351 21 440 76 00 Telefax 351 21 440 76 90 Romania GRUNDFOS Pompe Rom nia SRL Bd Biruintei nr 103 Pantelimon county Ilfov Phone 40 21 200 4100 Telefax 40 21 200 4101 E mail romania grundfos ro Russia 109544 39 Ten 7 495 737 30 00 564 88 00 7 495 737 75 36 564 88 11 E mail grundfos moscow grundfos com Serbia GRUNDFOS Predstavni tvo Beograd Dr Milutina Ivkovi a 2a 29 YU 11000 Beograd Phone 381 11 26 47 877 11 26 47 496 Telefax 381 11 26 48 340 Singapore GRUNDFOS Singapore Pte Ltd 25 Jalan Tukang Singapore 619264 Phone 65 6681 9688 Telefax 65 6681 9689 Slovenia GRUNDFOS Slandrova 8b SI 1231 Ljubljana Crnu e Phone 386 1 568 0610 Telefax 386 1 568 0619 E mail slovenia grundfos si South Africa GRUNDFOS PTY LTD Corner Mountjoy and George Allen Roads Wilbart Ext 2 Bedfordview 2008 Phone 27 11 579 4800 Fax 27 11 455 6066 E mail Ismart grundfos com Spain Bomb
6. Pos Designation Description PROFIBUS terminal B 1 BARXD TxD P positive data signal PROFIBUS terminal A A FXDITXD N negative data signal PROFIBUS terminal DGND iiid only for external termination 5 VDC ji VE only for external termination On off switches for termination 5 SW1 SW2 resistors Red green status LED for 6 LED1 PROFIBUS communication The power supply pos 4 fig 6 must only be used for external termination 5 3 Connecting the PROFIBUS 5 3 1 Data transmission rates and cable length Grundfos recommends to use a cable according to IEC 61158 Example Siemens 6XV1 830 0EH10 Cable length Maximum cable length kbits s m ft 9 6 1200 4000 19 2 1200 4000 45 45 1200 4000 93 75 1000 3300 187 5 1000 3300 500 400 1300 1500 200 660 3000 100 330 6000 100 330 12000 100 330 Fitting the cable See fig 7 1 Connect the red conductor s to terminal B pos 1 2 Connect the green conductor s to terminal A pos 2 3 Connect the cable screens to earth via the earth clamp pos 3 For maximum safety and reliability connect the cable screen to earth via the earth clamp and make sure that all CIU 150 units are properly earthed via the mains supply earth wire Note Fig 7 Connecting the PROFIBUS Pos Description 4 1700 0908 PROFIBUS terminal B PROFIBUS terminal A
7. StatusModule which is set when the command is executed and cleared when the control bit is written back to O State Control bits with a state event trigger behave like a state that is forced upon the E pump In the CIM CIU the actual state of the E pump as read from the StatusModule is continuously compared with the requested state in the ControlModule and the CIM CIU writes the appropriate GENIbus command to the E pump to make the two states correspond to each other Due to state restrictions or priorities this might not always be possible see explanation to the bit in question 7 2 2 Explanation to control bits RemoteAccessReq Control bit for setting the E pump in remote mode controlled from bus or local mode controlled from panel R100 Grundfos GO 0 The E pump will be set to local mode and operate according to its local operating mode setpoint and control mode With this setting the other control bits in the ControlModule will have no influence 1 The E pump will be set to remote mode and operate according to the operating mode setpoint and control mode set in the ControlModule The other control bits in the ControlModule will also be active However certain commands from other control sources e g Stop or Max from a local source or external Stop from a digital input have higher priority and will overrule the control from the bus The AccessMode bit in StatusModule will have the value if this
8. 7 5 Relay control module RelayControl module 3 This module can control the electromechanical relays in the E pump if they are configured via a Grundfos PC Tool to be bus controlled Only available for MGE based pumps Event Bit Name Description trigger 0 OutputRelay1Control State 0 Relay inactive OutputRelay2Control State 1 Relay active C NC TM04 9679 4910 e NO Fig 19 Relay output shown in inactive state 7 6 Setting of the maximum flow limit SetMaxFlowLimit module 44 This is an output module used to adjust the maximum flow limit of the pump The pump flow will be limited by the maximum flow limit in any control mode if the FLOW function has been enabled on the pump The actual value of this limit can be read from ActualMaxFlowLimit module 46 Only MAGNAS3 LME series 2000 supports the FLOW function 7 7 Setting of the real time clock SetRealTimeClock module 45 This is an output module used to set the internal real time clock of the pump The format of the clock value is Unix Time format It is not possible to read the actual value of the real time clock Only E pumps with a graphical display supports a built in real time clock The real time clock is used for time stamping of alarms warnings and internal data logging It has a built in battery back up If the power supply to the pump is switched off the real time clock will keep running and a new setting is not r
9. A 119 7 7 30 1 E 75 4 B 120 7 8 31 1 F 76 4 C 121 7 9 32 2 0 77 4 D 122 7 A 33 2 1 78 4 E 123 7 B 34 2 2 79 4 F 124 7 C 35 2 3 80 5 0 125 7 D 36 2 4 81 5 1 126 7 E 37 2 5 82 5 2 38 2 6 83 5 3 39 2 7 84 5 4 40 2 8 85 5 5 41 2 9 86 5 6 42 2 A 87 5 7 43 2 B 88 5 8 44 2 C 89 5 9 45 2 D 90 5 A Subject to alterations 27 English GB xipueddy Appendix The appendix describes the parts of the CIM 500 web server needed for the configuration of a PROFINET IO Ethernet connection For other CIM 500 web server features not specifically related to PROFINET IO see the CIM 500 Installation amp Operating instructions A 1 How to configure an IP address on your PC For connecting a PC to the CIM 500 via Ethernet the PC must be set up to use a fixed static IP address belonging to the same subnetwork as the CIM 500 1 Open Control Panel 2 Enter Network and Sharing Center 3 Click Change adapter settings 4 Right click and select Properties for Ethernet adapter Typically Local Area Connection Select properties for Internet Protocol Version 4 TCP IPv4 Select tab Alternate Configuration 7T Configure an IP address and subnet mask to be used by your PC See fig 20 Internet Protocol TCP IP Properties 4 amp 8 xl General Alternate Configuration If this computer is used on more than one network enter the alternate IP settings below C Automatic p
10. Module CIU Communication Interface Unit Cyclic Redundancy Check a data error CRC detection method Dynamic Host Configuration Protocol Used to configure network devices so DHCP that they can communicate on network DNS Domain Name System Used to resolve host names to IP addresses Enumeration List of values GENIbus GENIpro Proprietary Grundfos fieldbus standard Proprietary Grundfos fieldbus protocol UTF 8 VPN Unicode Transformation Format character encoding Virtual Private Network A network using the Internet to connect nodes These systems use encryption and other security mechanisms to ensure that only authorised users can access the network and that the data cannot be intercepted English GB 89 ysi6ug 3 System description 3 1 PROFIBUS PROFINET The system diagrams give an overview of how to connect the CIM CIU 150 or CIM CIU 500 to the Grundfos E pump that is to be connected to a PROFIBUS or PROFINET network CIM The CIM module is an add on communication module that is to be fitted internally in a Grundfos E pump using a 10 pin connection In this setup the E pump will supply power to the CIM module See fig 1 and fig 3 CIU The CIU unit is a box incorporating a power supply module and a CIM 150 500 module It can either be mounted on a DIN rail or on a wall See fig 2 and fig 4 The CIU 150 500 is used in conjunction with a Grundfos E pump that does
11. No internal communication between the Flashing red CIM 500 and the Grundfos product The CIM 500 does not support the Permanently red Grundfos product connected Internal communication between the CIM 500 and the Grundfos product is OK Permanently green Permanently red and Memory fault green During start up there is a delay of up to Note 5 seconds before LED1 and LED2 status is updated 6 6 DATA and LINK LEDs The CIM 500 Ethernet module has two connectivity LEDs related to each RJ45 Connector See fig 12 DATA1 and DATA2 These yellow LEDs indicate data traffic activity Status Description Yellow off No data communication on RJ45 Connector Yelow Data communication ongoing on RJ45 Connector flashing Steady Heavy network traffic on RJ45 connector yellow LINK1 and LINK2 These green LEDs shows whether the ethernet cable is properly connected Status Description Green off No Ethernet Link on RJ45 Connector Green on Ethernet Link on RJ45 Connector is OK English GB 89 usii65ua 7 Detailed description of data modules 7 1 Data types The Grundfos CIM 150 500 supports the following data types All data types except for data type 10 comply with specification IEC 61158 6 standard data types for use in PROFIBUS PROFINET profiles Data type Description Boolean Integer 8 Integer 16 Integer 32 Unsigned 8 Unsigned 16 Unsigned 32
12. Overtemperature 65 Motor temperature 1 t m or t_mo or t_mo1 Temperature too high internal frequency converter 67 module t_m 70 Thermal relay 2 in motor e g thermistor 72 Hardware fault type 1 73 Hardware shutdown HSD 76 Internal communication fault 77 Communication fault twin head pump 80 Hardware fault type 2 83 Verification error FE parameter area EEPROM 85 Verification error BE parameter area EEPROM 88 Sensor fault 89 Signal fault feedback sensor 1 91 Signal fault temperature 1 sensor 93 Signal fault sensor 2 96 Setpoint signal outside range 105 Electronic rectifier protection activated ERP 106 Electronic inverter protection activated EIP Motor bearing temperature high Pt100 in drive end 148 Code Alarm warning description 149 Motor bearing temperature high Pt100 in non drive end NDE 155 Inrush fault 156 Communication fault internal frequency converter module 161 Sensor supply fault 5 V 162 Sensor supply fault 24 V 163 Measurement fault motor protection 164 Signal fault Liqtec sensor 165 Signal fault analog input 1 166 Signal fault analog input 2 167 Signal fault analog input 3 175 Signal fault temperature 2 sensor t mo2 176 Signal fault temperature 3 sensor t mo3 190 Limit exceeded sensor 1 191 Limit exceeded sensor 2 240 Lubricate bearings specific service information 241 Motor phase
13. a No internal communication between Check that the CIM 150 is fitted correctly in LED2 is flashing red the CIM 150 and the E pump the E pump 3 The LED for internal communication a The CIM 150 does not support the Contact th nearest Gnindfos compan LED2 is constantly red connected E pump pany 4 The PROFIBUS LED LED1 is a Fault in the CIM 150 Contact the nearest Grundfos company constantly red 5 The PROFIBUS LED LED1 is flashing a Fault the 150 PROFIBUS Check that the PROFIBUS address red CIM 150 fitted in the CIU 150 Fault LED status configuration Possible cause switches SW3 and SW4 has a valid value 1 126 See section 5 4 Setting the PROFIBUS address Check that the GSD file used is correct Check that the PROFIBUS cable has been fitted correctly See section 5 3 Connecting the PROFIBUS Check that the PROFIBUS termination is correct See section 5 5 Termination resistors Remedy 1 Both LEDs LED1 and LED2 remain off when the power supply is connected a The CIU 150 is defective Replace the CIU 150 2 The LED for internal communication No internal communication between the Check the cable connection between the LED2 is flashing red CIU 150 and the E pump CIU 150 and the E pump Check that the individual conductors have been fitted correctly Check the power supply to the E pump 3 The LED for internal communication a The CIM 1
14. below provides an overview of the specifications for the Grundfos CIM 150 and CIU 150 For further details please refer to the specific sections of this functional profile General data Description PROFIBUS implementation class DP VO Comments Intelligent pump profile PROFIBUS connector Screw type terminal A B DGND VP 5 V PROFIBUS connection type RS 485 two wire Conductors A B Maximum cable length 100 metres at 12 Mbits s Corresponds to 328 feet See section 5 3 1 Data transmission rates and cable length Slave address 1 126 Set via rotary switches SW3 and SWA See section 5 4 Setting the PROFIBUS address Line termination On or off Set via DIP switches SW1 and SW2 See section 5 5 Termination resistors Auto detected Recommended cable cross sectional 0 20 0 25 mm cobber area AWG24 or AWG23 Supported transmission speed 9 6 Kbits s to 12 Mbits s Auto detected PROFIBUS visual diagnostics LED1 Off constantly green flashing red constantly red See section 5 6 Status LEDs Maximum number of PROFIBUS devices 32 at a physical network segment 4 3 CIM 500 PROFINET IO The table below provides an overview of the specifications for the Grundfos CIM CIU 500 Ethernet for PROFINET IO For further details please refer to the specific sections of this functional Up to 125 devices if repeaters are used physically segmented network profile Mod
15. enumeration 0 ConstSpeed ConstFreq ConstHead ConstPressure ConstDiffPress VarDiffPress ConstFlow ConstTemp 9 ConstTempDiff 10 ConstLevel 11 127 128 AUTOApAPT AutoPressMode 129 FLOWApaprT 130 Closed loop sensor 6 data type 5 OperatingMode enumeration 0 AutoControl 1 3 4 OpenLoopMin 5 6 OpenLoopMax LME series 2000 pumps only MAGNA and LME series 2000 pumps only 7 3 1 Explanation to status module AccessMode Status bit indicating whether the E pump is controlled from the bus or from some other control source 0 The E pump is controlled from a local source buttons R100 Grundfos GO or from an external digital input 1 The E pump is controlled from PROFIBUS PROFINET remotely To allow the E pump to be controlled from the bus the RemoteAccessReq control bit in the ControlModule must be set to 1 However certain commands from other control sources e g Stop or Max from a local source or external Stop from a digital input have higher priority and will set the AccessMode to 0 indicating that the actual control source is not the bus OnOff Status bit indicating whether the E pump is started or stopped 0 The E pump is stopped 1 The E pump is started The E pump can be started stopped from the busby using the OnOff control bit in the ControlModule Started does not necess
16. failure 242 Automatic motor model recognition failed 15 English GB 89 ysi6ug 7 9 Measurement data modules This is input data modules representing measurement data that can be read from the E pump Table legend 3ph 3 phased only CUE CUE only MGE Pumps with MGE motor only G Only available on model G and later versions nr and always available Only available on model H and later versions Sensor required Always available If the E pump is a TPE Series 2000 the value is estimated u gt x 4 i o o m a 5 8 s a 26 lt a a 2 lt lt 6 VolumeFlow Provides the flow through the E pump as estimated or 8 m h st st measured Provides the measured flow at an external flow sensor 3 This flow sensor must be installed for this value to be valid i mh mum x i 8 R lativePerformance Provides the performance of the E pump relative to its 8 2 maximum performance level 9 Head Provides the pressure head delivered by the E pump 8 bar s s 10 InletPressure Provides the inlet pressure if a pressure sensor is configured 8 G S S and installed at the inlet 11 Rer otePressurtei Provides the measured pressure at an external pressure 8 G S S S sensor 12 FeedTankLevel Provides the tank level Requires that a level sensor is 8 E H S S z installed 13 DCLinkVoltage Pr
17. is the case See section 7 3 1 Explanation to status module OnOff Control bit used to start and stop the E pump 0 For stopping the E pump remotely 1 For starting the E pump remotely ResetFault Control bit that resets alarms and warnings CopyToLocal Control bit for making the E pump copy its remote setting of operating mode setpoint and control mode to its local settings Whenever this bit is set switching the E pump from remote to local i e like the PROFIBUS PROFINET watchdog does will not influence the behaviour of the E pump 0 Copy to local settings inactive 1 Copy to local settings active 7 2 3 Explanation to control mode Control enumeration for selection of the remote control mode Control modes Description Illustration gt ConstSpeed 0 gt ConstFreq 1 The setpoint of the E pump is a percentage of the maximum performance No sensor is required and in these modes the E pump is operating in open loop control TM04 2289 2208 gt ConstHead 3 gt ConstPressure 4 gt ConstDiffPresure 5 The setpoint of the E pump will be interpreted as setpoint for the pressure In these modes the E pump is operating in closed loop control and will adapt its speed so that the pressure is constant regardless of the flow A pressure sensor is required TM04 2290 2208 gt ConstFlow 7 gt ConstTemp 8 gt ConstLev 10 The setpoint of the E pump wi
18. pump UnitType enumeration 5 f UPE 3 phase MAGNA 1 phase 9 MAGNA 1 phase small 10 MAGNA3 2 MGE 1 phase 3 MGE 3 phase 2 E pump 1 phase 3 phase based on MGE motor or 4 MGE 3 phase large CUE frequency converter 5 CUE frequency converter 6 MGE 3 phase model G 1 7 MGE 3 phase model 7 MP 204 motor protector 1 MP 204 1 With 3 phase pumps 17 Hydro Multi E model G and earlier models 2 With 1 phase pumps i 1 Hydro MPC Control MPC CU 351 21 Hydro MPC Control MPC Hydro Multi B 2 Hydro Multi B CU 323 25 CR Monitor 1 CR Monitor CU 351 26 Dedicated Controls 1 Dedicated Controls CU 361 30 Smart Digital Dosing DDA 1 Smart Digital Dosing DDA N 1 With 3 phase pumps 39 Hydro Multi E model H and later models 2 With 1 phase pumps 2 UnitType enumeration According to description above 3 UnitVersion enumeration Used by Grundfos CIMSoftwareVersion number CIMSoftwareRevision number 6 CIMModel enumeration 20 8 Product simulation The CIM module can be put in product simulation mode in which case it will generate life like simulated values of all the PROFIBUS PROFINET input data modules It will thus be possible to connect a PROFIBUS PROFINET master to a CIU 150 CIU 500 without this device being connected to a real pump in a real life system In an office environment it can then be verified that communication works and data is being
19. received and handled correctly by the PROFIBUS PROFINET master application program e g PLC program before the equipment is installed under real life conditions 8 1 CIM 150 Product Simulation Product simulation mode is entered when the hexadecimal address switch has one of the values shown in the table below Address setting section 5 4 __ Simulated product Sw3 SW4 0 Pump profile Booster system profile 2 CR Monitor profile F 3 MP 204 motor protector profile 4 Digital Dosing DDA profile F 5 Wastewater system profile The effective address will be 15 0x0F Only input modules are simulated The data read has dummy values and no real product functionality is simulated 8 2 CIM 500 Product Simulation Product simulation mode is entered via the web server See section A 4 PROFINET IO configuration on page 29 21 English GB 89 usi6ua 9 Fault finding 9 1 CIM CIU 150 Faults in a CIM 150 PROFIBUS module can be detected by observing the status of the two communication LEDs See the table below 9 1 1 LED status CIM 150 fitted in a Grundfos E pump Fault LED status Possible cause Remedy 1 Both LEDs LED1 and LED2 remain off when the power supply is connected a The CIM 150 is fitted incorrectly in the E pump b The CIM 150 is defective Check that the CIM 150 is fitted connected correctly Replace the CIM 150 2 The LED for internal communication
20. supported products are referred to as E pump The data in this document are subject to change without prior notice Grundfos cannot be held responsible for any problems caused directly or indirectly by using information in this functional profile 2 2 PROFIBUS DP V0 The PROFIBUS DP interface conforms to the PROFIBUS DP VO standard for cyclic data transmission The option of setting the PROFIBUS DP address via bus is not supported as the CIM 150 has two switches for setting the address 2 3 PROFIBUS DP V1 Only the diagnostic part and the extra three bytes of parameterisation data are supported Acyclic data transmission is not supported 2 4 Assumptions This functional profile assumes that the reader is familiar with commissioning and programming of PROFIBUS and PROFINET devices 2 5 Definitions and abbreviations Address Resolution Protocol ARP Translates IP addresses to MAC addresses Grundfos GO A Grundfos handheld remote control device for controlling Grundfos products via infrared or radio Based on smart phone technology H Pressure head Hyper Text Transfer Protocol HTTP The protocol commonly used to navigate the world wide web IANA Internet Assigned Numbers Authority IP Internet Protocol LED Light Emitting Diode The E pump uses the setpoint and operating mode set with a handheld Local mode remote control R100 or Grundfos GO Remote or by the use of buttons on th
21. table many of the measurement modules requires a particular sensor to be present Because a limited number of sensors are available only a few of the S marked data modules will be available simultaneously The sections following describe the relation between available PROFIBUS PROFINET measurement modules and the setup of sensors The description is split in sections for different pump types because the approach varies Old MAGNA and UPE pump types No connection of external sensor possible MAGNA3 Connection of temperature sensor and selection of analog input function Constant temperature control will make RemoteTemp2 measurement available Connection of pressure sensor and selection of analog input function Constant pressure control will make RemotePressure1 measurement available CUE and all E pump types except model H and I PROFIBUS PROFINET data module generated from sensor measurement Sensor unit configuration with R100 or Grundfos GO Feedback sensor Measuring sensor Measuring sensor Al1 A12 AI3 bar mbar Head 9 and m Head 9 Head 9 and FeedTankLevel 12 FeedTankLevel 12 or kPa FeedTankLevel 12 InletPressure 10 or psi RemotePressure 10 ft m h m s VolumeFlow 6 VolumeFlow 6 VolumeFlow 6 or or Vs RemoteFlow 7 RemoteFlow 7 gpm C PumpLiquidTemp 23 RemoteTemp1 21 PumpLiquidTemp 23 or F RemoteTemp1 21 96 AuxSensorlIn
22. 0 175 Signal fault temperature 2 sensor 203 Alarm on all pumps in general or top bearing t mo2 146 Bearing temperature high Pt100 176 Signal fault temperature 3 sensor 204 Inconsistency between sensors middle bearing t mo3 147 Bearing temperature high Pt100 177 Signal fault Smart trim gap sensor 205 Level float switch sequence bottom bearing inconsistency 148 Motor bearing temperature higi 178 Signal fault vibration sensor 206 Water shortage level 1 Pt100 in drive end DE 9 I 3e Signal fault bearing temperature Motor bearing temperature high 149 P100 in non drive end NDE 179 sensor Pt100 general or 207 Water leakage top bearing Communication fault add on Signal fault bearing temperature aeto 192 module 180 sensor Pt100 middle bearing 208 Cavitation 153 Fault analog output 181 Signal fault FC Sensor 209 Non return valve fault short circuited 154 Communication fault displa 192 Signal fault bearing temperature 549 High pressure dae sensor Pt100 bottom bearing 91 155 Inrush fault 483 Signal fault extra temperature 211 Low pressure sensor 156 Communication fault internal 184 Signal fault general purpose 212 Diaphragm tank precharge frequency converter module sensor pressure out of range 157 Real time clock out of order 185 Unknown sensor type 213 VFD not ready 158 oo circuit measurement 186 Signal fault power meter sensor 214 Water shortage level 2 CIM fault Communication F 159 Interface Modu
23. 1 913 227 3400 Telefax 1 913 227 3500 Uzbekistan 700000 1 5 3712 55 68 15 3712 53 36 35 Revised 18 04 2013 Grundfos companies be think innovate S v BulploH sojpunao 1uBuAdoo pamasa sjuBu S Y sojpunio S Y sojpunio Aq paumo jeAouui yury eq pue sojpunio sojpuni e 2 e ol u S 0 i a 2 C U www grundfos com
24. 10 C 17 galls enum 4 psi 11 18 ft h 5 ft 12 96 19 ft min 6 m h 13 m min 20 ft s Sensor 39 FeedbackSensorMin Minimum value for the closed loop feedback sensor unit 3 sensor 40 FeedbackSensorMax Maximum value for the closed loop feedback sensor 6 unit 3 46 ActualMaxFlowLimit Actual value of maximum flow limit 8 m h H 3 47 DiffPressure Pressure between E pump flanges 8 bar H S 3 48 OutletPressure Pressure at the E pump outlet 8 bar H S 49 RemotePressure2 Pressure as measured by external pressure sensor 8 bar H S 50 LoadPct Motor current load percentage 8 H 3 51 RemoteDiffTemp Provides the differential temperature as measured by a 8 C H S _ remote differential temperature sensor 52 InletDiffPressure Provides the inlet differential pressure if a differential 8 bar H S _ pressure sensor is installed at the pump 53 OutletDiffPressure Provides the outlet differential pressure if a differential 8 bar H S n pressure sensor is installed at the pump outlet 54 RemoteDiffPressure Provides the differential pressure as measured by a remote 8 bar H S _ _ differential pressure sensor 55 StorageTankLevel Provides the storage tank level as measured by a pressure 8 H S _ _ sensor 17 English GB 89 ysi6ug E z z o 2 E 4 N z S 1 N22 N O lt a a 2 e 56 RemoteTemp2 Provides the te
25. 4089 830 Italy GRUNDFOS Pompe Italia S r l Via Gran Sasso 4 1 20060 Truccazzano Milano Tel 39 02 95838112 Telefax 39 02 95309290 95838461 Japan GRUNDFOS Pumps K K Gotanda Metalion Bldg 5F 5 21 15 Higashi gotanda Shiagawa ku Tokyo 141 0022 Japan Phone 81 35 448 1391 Telefax 81 35 448 9619 Korea GRUNDFOS Pumps Korea Ltd 6th Floor Aju Building 679 5 Yeoksam dong Kangnam ku 135 916 Seoul Korea Phone 82 2 5317 600 Telefax 82 2 5633 725 Latvia SIA GRUNDFOS Pumps Latvia Deglava biznesa centrs Augusta Deglava iela 60 LV 1035 Riga Talr 371 714 9640 7 149 641 Fakss 371 914 9646 Lithuania GRUNDFOS Pumps UAB Smolensko g 6 LT 03201 Vilnius Tel 370 52 395 430 Fax 370 52 395 431 Malaysia GRUNDFOS Pumps Sdn Bhd 7 Jalan Peguam U1 25 Glenmarie Industrial Park 40150 Shah Alam Selangor Phone 60 3 5569 2922 Telefax 60 3 5569 2866 Mexico Bombas GRUNDFOS de M xico S A de C V Boulevard TLC No 15 Parque Industrial Stiva Aeropuerto Apodaca N L 66600 Phone 52 81 8144 4000 Telefax 52 81 8144 4010 Netherlands GRUNDFOS Netherlands Veluwezoom 35 1326 AE Almere Postbus 22015 1302 CA ALMERE Tel 31 88 478 6336 Telefax 31 88 478 6332 E mail info_gni grundfos com New Zealand GRUNDFOS Pumps NZ Ltd 17 Beatrice Tinsley Crescent North Harbour Industrial Estate Albany Auckland Phone 64 9 415 3240 Telefax 64 9 415 3250 Norway
26. 50 does not support the Contact thenearestGiundtos comban LED2 is constantly red connected E pump pany 4 The PROFIBUS LED LED1 is a Fault in the CIM 150 Contact the nearest Grundfos company constantly red 5 The PROFIBUS LED LED1 is flashing a Fault the 150 PROFIBUS Check that the PROFIBUS address 22 red configuration switches SW3 and SW4 has a valid value 1 126 See section 5 4 Setting the PROFIBUS address Check that the GSD file used is correct Check that the PROFIBUS cable has been fitted correctly Check that the PROFIBUS termination is correct See section 5 5 Termination resistors 9 2 CIM CIU 500 Faults in the CIU 500 can be detected by observing the status of the two communication LEDs See the table below and section 4 3 CIM 500 PROFINET 9 2 1 LED status CIM 500 fitted in a Grundfos E pump Fault LED status Possible cause Remedy 1 Both LEDs LED1 and LED2 remain off a The CIM 500 is fitted incorrectly in the Check that the CIM 500 is fitted connected when the power supply is connected Grundfos product correctly b The CIM 500 is defective Replace the CIM 500 2 The PROFINET IO LED LED1 remains a The protocol selection switch SW1 Set the switch to 0 off has been set in Modbus TCP position 3 The LED for internal communication a No internal communication between the Check that the CIM 500 is fitted correctly in LED2 is f
27. A Parc d Activit s de Chesnes 57 rue de Malacombe F 38290 St Quentin Fallavier Lyon T l 33 4 74 82 15 15 T l copie 33 4 74 94 10 51 Germany GRUNDFOS GMBH Schl terstr 33 40699 Erkrath Tel 49 0 211 929 69 0 Telefax 49 0 211 929 69 3799 e mail infoservice grundfos de Service in Deutschland e mail kundendienst grundfos de HILGE GmbH amp Co KG Hilgestrasse 37 47 55292 Bodenheim Rhein Germany Tel 49 6135 75 0 Telefax 49 6135 1737 e mail hilge hilge de Greece GRUNDFOS Hellas A E B E 20th km Athinon Markopoulou Av P O Box 71 GR 19002 Peania Phone 0030 210 66 83 400 Telefax 0030 210 66 46 273 Hong Kong GRUNDFOS Pumps Hong Kong Ltd Unit 1 Ground floor Siu Wai Industrial Centre 29 33 Wing Hong Street amp 68 King Lam Street Cheung Sha Wan Kowloon Phone 852 27861706 27861741 Telefax 852 27858664 Hungary GRUNDFOS Hung ria Kft Park u 8 2045 T r kb lint Phone 36 23 511 110 Telefax 36 23 511 111 India GRUNDFOS Pumps India Private Limited 118 Old Mahabalipuram Road Thoraipakkam Chennai 600 096 Phone 91 44 2496 6800 Indonesia PT GRUNDFOS Pompa Jl Rawa Sumur 1 Blok III CC 1 Kawasan Industri Pulogadung Jakarta 13930 Phone 62 21 460 6909 Telefax 62 21 460 6910 460 6901 Ireland GRUNDFOS Ireland Ltd Unit A Merrywell Business Park Ballymount Road Lower Dublin 12 Phone 353 1 4089 800 Telefax 353 1
28. Earth clamp 5 VDC Red green status LED for GENIbus communication between the CIM CIU 150 and the E pump 7 LED2 Hex switch for setting the PROFIBUS address four most significant bits 8 Sw3 Hex switch for setting the PROFIBUS address four least significant bits 9 SW4 Q GOO N gt DGND 5 4 Setting the PROFIBUS address The CIM 150 PROFIBUS module has two hexadecimal rotary switches for setting the PROFIBUS address The two switches are used for setting the four most significant bits SW3 and the four least significant bits SW4 respectively See fig 8 4 1702 0908 SW3 SWA Fig 8 Setting the PROFIBUS address The table below shows examples of PROFIBUS address settings The PROFIBUS address must be set decimally Note from 1 to 126 The address 126 is normally used for special purposes and should not be used PROFIBUS address SW3 SW4 8 0 8 20 1 4 31 1 F 126 7 E A restart of the CIM CIU 150 has to be performed for a PROFIBUS address change to take effect For complete overview of the PROFIBUS addresses see section 17 PROFIBUS address 5 5 Termination resistors The termination resistors are fitted on the CIM 150 PROFIBUS module See fig 9 5V 3900 swt r 2200 SW2 po 3900 TM04 1961 1508 Fig 9 Internal termination resistors The CIM 150 has a DIP switch with two switches SW1 and SW2 for cutti
29. GRUNDFOS INSTRUCTIONS PROFIBUS and PROFINET for Grundfos pumps CIM CIU 150 PROFIBUS DP CIM CIU 500 Ethernet for PROFINET IO Functional profile and user manual be Dav GRUNDFOS 89 ysi6ug English GB Functional profile and user manual Original functional profile and user manual CONTENTS 2 1 2 2 2 3 2 4 2 5 3 1 3 2 3 3 4 1 4 2 4 3 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 6 1 6 2 6 3 6 4 6 5 6 6 7 1 7 2 7 3 7 4 7 5 7 6 7 7 7 8 7 9 7 10 7 11 8 1 8 2 9 1 9 2 10 11 Symbols used in this document Introduction About this functional profile PROFIBUS DP VO PROFIBUS DP V1 Assumptions Definitions and abbreviations System description PROFIBUS PROFINET PROFIBUS DP CIM 150 PROFINET IO CIM 500 Specifications CIM module general data CIM 150 PROFIBUS DP CIM 500 PROFINET IO PROFIBUS DP CIM 150 setup PROFIBUS bus topology CIM 150 PROFIBUS module Connecting the PROFIBUS Setting the PROFIBUS address Termination resistors Status LEDs Communication watchdog Reaction to PLC Stop button PROFINET IO CIM 500 setup Connecting the Ethernet cable Setting the Industrial Ethernet protocol Setting up the IP addresses Establish connection to the Webserver Status LEDs DATA and LINK LEDs Detailed description of data modules Data types Control module controlModule module 2 Status module StatusModule module 1 Illustration of closed loop co
30. Phone 387 33 713 290 Telefax 387 33 659 079 e mail grundfos bih net ba Brazil BOMBAS GRUNDFOS DO BRASIL Av Humberto de Alencar Castelo Branco 630 CEP 09850 300 S o Bernardo do Campo SP Phone 55 11 4393 5533 Telefax 455 11 4343 5015 Bulgaria Grundfos Bulgaria EOOD Slatina District Iztochna Tangenta street no 100 BG 1592 Sofia Tel 359 2 49 22 200 Fax 359 2 49 22 201 email bulgaria grundfos bg Canada GRUNDFOS Canada Inc 2941 Brighton Road Oakville Ontario L6H 6C9 Phone 1 905 829 9533 Telefax 1 905 829 9512 China GRUNDFOS Pumps Shanghai Co Ltd 50 F Maxdo Center No 8 XingYi Rd Hongqiao development Zone Shanghai 200336 PRC Phone 86 21 612 252 22 Telefax 86 21 612 253 33 Croatia GRUNDFOS CROATIA d o o Cebini 37 Buzin HR 10010 Zagreb Phone 385 1 6595 400 Telefax 385 1 6595 499 www grundfos hr Czech Republic GRUNDFOS s r o Cajkovsk ho 21 779 00 Olomouc Phone 420 585 716 111 Telefax 420 585 716 299 Denmark GRUNDFOS DK A S Martin Bachs Vej 3 DK 8850 Bjerringbro Tif 45 87 50 50 50 Telefax 45 87 50 51 51 E mail info GDK grundfos com www grundfos com DK Estonia GRUNDFOS Pumps Eesti O Peterburi tee 92G 11415 Tallinn Tel 372 606 1690 Fax 372 606 1691 Finland OY GRUNDFOS Pumput AB Mestarintie 11 FIN 01730 Vantaa Phone 358 0 207 889 900 Telefax 358 0 207 889 550 France Pompes GRUNDFOS Distribution S
31. al relay 1 in motor 106 Electronic inverter protection impellers forced backwards e g Klixon activated EIP 30 Change bearings 70 Thermal relay 110 Skew load electrical asymmetry specific service information e g thermistor 34 Change varistor s 71 Motor temperature 2 111 Current asymmetry 24 specific service information Pt100 t_mo2 Code Description Code Description Code Description 112 Cos g too high 167 Signal fault analog input 3 195 Limit exceeded sensor 6 113 Cos too low 168 Signal fault pressure sensor 196 Operation with reduced efficiency 120 Auxiliary winding 169 Signal fault flow sensor 197 Operation with reduced pressure single phase motors 121 Auxiliary winding current too high 170 Signal fault water in oil WIO 198 Operation with increased power single phase motors sensor consumption 122 Auxiliary winding current too low 171 Signal fault moisture sensor 199 Process out of range monitoring single phase motors estimation calculation control 123 Start capacitor low 172 Signal fault atmospheric pressure 200 Application alarm single phase motors sensor 124 Run capacitor low 173 Signal fault rotor position sensor 201 External sensor input high single phase motors Hall sensor Motor temperature 3 f 144 P100 t mo3 174 Signal fault rotor origo sensor 202 External sensor input low 145 Bearing temperature high Pt10
32. arily indicate that the E pump is pumping as it might be in a low flow stop condition Fault Status bit indicating that the E pump has been stopped due to an alarm 0 No alarm 1 Alarm E pump stopped red pump LED on FaultCode module 5 will show the alarm code Warning Status bit indicating that the E pump has a warning 0 No warning 1 Warning WarningCode module 4 will show the warning code AtMaxSpeed Status bit indicating that the E pump is running at maximum speed 0 The E pump is not running at maximum speed 1 The E pump is running at maximum speed AtMinSpeed Status bit indicating that the E pump is running at minimum speed 0 The E pump is not running at minimum speed 1 The E pump is running at minimum speed ResetFaultAck Acknowledge bit belonging to the ResetFault control bit It will be set when the control bit is set and the command has been executed It will be cleared when the control bit is cleared SetPointlnfluence Status bit indicating if the setpoint is influenced e g by analog input or by temperature If influenced the ActualSetpoint module 29 will differ from the UserSetpoint module 37 0 No setpoint influence 1 The setpoint is influenced AtMaxPower Status bit indicating that the E pump is running at maximum power limit 0 The E pump is not running at maximum power limit 1 The E pump is running at maximum power limit
33. as GRUNDFOS Espa a S A Camino de la Fuentecilla s n E 28110 Algete Madrid Tel 34 91 848 8800 Telefax 34 91 628 0465 Sweden GRUNDFOS AB Box 333 Lunnagardsgatan 6 431 24 M lndal Tel 46 31 332 23 000 Telefax 46 31 331 94 60 Switzerland GRUNDFOS Pumpen AG Bruggacherstrasse 10 CH 8117 F llanden ZH Tel 41 1 806 8111 Telefax 41 1 806 8115 Taiwan GRUNDFOS Pumps Taiwan Ltd 7 Floor 219 Min Chuan Road Taichung Taiwan R O C Phone 886 4 2305 0868 Telefax 886 4 2305 0878 Thailand GRUNDFOS Thailand Ltd 92 Chaloem Phrakiat Rama 9 Road Dokmai Pravej Bangkok 10250 Phone 66 2 725 8999 Telefax 66 2 725 8998 Turkey GRUNDFOS POMPA San ve Tic Ltd Sti Gebze Organize Sanayi B lgesi Ihsan dede Caddesi 2 yol 200 Sokak No 204 41490 Gebze Kocaeli Phone 90 262 679 7979 Telefax 90 262 679 7905 E mail satis grundfos com Ukraine 01010 86 Ten 38 044 390 40 50 38 044 390 40 59 E mail ukraine grundfos com United Arab Emirates GRUNDFOS Gulf Distribution P O Box 16768 Jebel Ali Free Zone Dubai Phone 971 4 8815 166 Telefax 971 4 8815 136 United Kingdom GRUNDFOS Pumps Ltd Grovebury Road Leighton Buzzard Beds LU7 4TL Phone 44 1525 850000 Telefax 44 1525 850011 U S A GRUNDFOS Pumps Corporation 17100 West 118th Terrace Olathe Kansas 66061 Phone
34. bus TCP specifications Description Comments DHCP Ping FTP SMTP SNTP TP m Application layer PROFINET IO Rotary switch in position 0 Transport layer TCP Internet layer Internet protocol V4 IPv4 Link layer ARP Media Access Control Ethernet Screened unscreened twisted pair cables CAT5 CAT5e or CAT6 100 metres at 10 100 Mbits s 10 Mbits s 100 Mbits s Ethernet cable Maximum cable length Transmission speed Supports auto cable crossover detecting Auto MDIX Corresponds to 328 feet Auto detected Industrial Ethernet protocols PROFINET IO Modbus TCP Selected with rotary switch section 6 2 English GB 99 usi6ug 5 PROFIBUS DP CIM 150 setup 5 1 PROFIBUS bus topology The PROFIBUS preferred bus topology is daisy chaining as illustrated in fig 5 The end devices of a physical bus segment must be terminated LT Line Termination Each device must have a unique physical address 1 126 Up to 32 PROFIBUS devices can be connected to a bus segment and by using a repeater another 32 devices can be connected This can be repeated until the maximum number of addresses are used Make sure that each device is connected to a proper earth potential tr Fig 5 Example of PROFIBUS bus segment with line termination TM04 9635 4810 5 2 CIM 150 PROFIBUS module EMILIA zu L 2713090 1899 4 1699 0908 1234 5 6 7 Fig 6 150 PROFIBUS module
35. e pump Media Access Control Unique network MAC address for a piece of hardware Packet InterNet Groper A software utility Ping that tests connectivity between two TCP IP hosts Q Flow R100 Grundfos handheld infrared remote control Remote mode The E pump uses the setpoint and operating mode set from PROFIBUS SELV Separated or Safety Extra Low Voltage SELV E Separated or Safety Extra Low Voltage with Earth connection SubMiniature version A Coaxial radio SMA signal cable connection standard SMTP Simple Mail Transfer Protocol Simple Network Time Protocol Used for SNTP clocks synchronization between computer systems Transmission Control Protocol Protocol suitable for Internet communication and Industrial Ethernet communication Transmission Control Protocol Internet TCP IP Protocol Protocol suitable for Internet communication Ensures that both crossover cable types Transmission speed URL Bits transferred per second bits s Uniform Resource Locator The address used to connect to a server UTC Coordinated Universal Time the primary time standard by which the world regulates clocks and time Auto MDIX and non crossover cable types can be used CATS Ethernet cable type Has 4 twisted pairs of wires CAT5e Enhanced CAT5 cable with better performance CAT6 Cable with very high performance CIM Communication Interface
36. ements Requires that a sensor is installed E z Xo o 2 E 0 x lt 5 o N 2 S ive N22 N lt lt 2 2 O 29 ActualSetpoint Provides the actual setpoint of the E pump This is the 8 setpoint percent that theE pump is currently using 30 Frequency Provides the actual control signal frequency applied to the 8 Hz lt 31 Torque Provides the E pump motor torque 8 Nm 3ph 32 Speed Provides the speed of the E pump in revolutions per minute 8 rpm 33 NumberOfStarts Provides the number the E pump starts 1 3 34 Volume Provides the total pumped volume 8 m H S 5 3 Provides the status of the external digital inputs Logical 0 The input is V Logical 1 The input is 5 V 0 Digital input 1 2 35 Digitallnput 1 Digital input 2 5 Bits 3 2 Digital input 3 3 Digital input 4 4 7 Reserved Provides the status of the external digital outputs Logical 0 The output is 0 V n Logical 1 The output is 5 V 36 DigitalOutput 0 Digital output 1 5 Bits 3 1 Digital output 2 2 7 Reserved 37 UserSetpoint User setpoint as written from PROFIBUS PROFINET or 8 selected at E pump Scaling unit for the closed loop feedback sensor 0 bar 7 m s 14 l h 1 mbar 8 I s 15 l min T ETE nit 2 9 gpm 16 gal h eedBackSensorUni 3 kPa
37. equired 14 Feedback sensor value Pump and hydraulic system TM04 9677 4910 7 8 Alarms and warnings Module Name Description 4 WarningCode Code for E pump warning 5 FaultCode Code for E pump alarm In the WarningCode module the cause of an E pump warning can be read A warning has no influence on the E pump operation In the FaultCode module the cause of an E pump alarm can be read An E pump alarm will always lead to a reaction in the E pump operation usually the E pump will be stopped but some alarms in some E pump types have programmable alarm action types The complete list of possible alarm warning codes is shown below Code Alarm warning description 1 Leakage current 2 Missing phase 3 External fault signal 4 Too many restarts 7 Too many hardware shutdowns 14 Electronic DC link protection activated ERP 16 Other 30 Change bearings specific service information 31 Change varistor s specific service information 32 Overvoltage 40 Undervoltage 41 Undervoltage transient 42 Cut in fault dV dt 45 Voltage asymmetry 48 Overload 49 Overcurrent i line i dc i mo 50 Motor protection function general shutdown MPF 51 Blocked motor pump 54 Motor protection function 3 sec limit 55 Motor current protection activated MCP 56 Underload 57 Dry running 60 Low input power 64
38. es The last product in the chain is only connected to one of the Ethernet ports Each Ethernet port has its own MAC address 6 2 Setting the Industrial Ethernet protocol The CIM 500 Ethernet module has a rotary switch for selection of the Industrial Ethernet protocol See fig 13 TM05 7481 1013 Fig 13 Selecting the Industrial Ethernet protocol Pos Description 0 PROFINET IO Default from factory 1 Modbus TCP Reserved LED1 will be permanently red to indicate an invalid configuration Reset to factory default Note The rotary switch has to be set in this position for F 20 seconds before the CIM 500 resets to factory default During this period LED1 will be flashing red and green at the same time to indicate that a reset will occur Every change of the rotary switch when the Note module is powered on will cause the module to restart 6 3 Setting up the IP addresses The CIM 500 Ethernet module is default set up to a fixed IP address It is possible to change the IP address settings from the built in web server IP address 192 168 1 100 Subnet mask 255 255 255 0 Gateway 192 168 1 1 Default IP settings used by web server IP settings for Modbus TCP Must be setup by the Web server Ethernet switch K CIM CIM CIM 500 500 500 M CIM 9 500 gt Fig 11 Example of Industr
39. hanged on the e __ web server under Grundfos Management A 4 PROFINET IO configuration This web page is used to configure all the parameters relevant to the PROFINET IO protocol standard All settings can also be configured from a standard PROFINET IO configuration tool for instance Siemens Primary Setup Tool PST It is available on internet GRUNDFOS xX Grundfos CIM 500 industrial Ethernet PROFINET Say Real Time Ethernet Protocol Configuration PROFINET IO Protocol settings Device Name 500 _ ration Network settings IP Address 192 168 1 101 Subnet Mask 255 255 255 0 Gateway 192 168 1 1 Use DHCP N Product Simulation 8 Grundfos product simulation No Simulation v Fig 22 Real Time Ethernet Protocol Configuration PROFINET IO Description Object Device Name The PROFINET IO device name It must be unique IP Address The static IP address for CIM 500 on the PROFINET IO network Subnet mask Configure the subnet mask for the CIM 500 module on the PROFINET IO network Gateway Configure the default gateway for the PROFINET IO network Use DHCP The CIM 500 module can be configured to automatically obtain the IP address from a DHCP server on the network Grundfos product simulation will be terminated by a module power cycle The CIM 500 can be put in product simulation mode to generate realistic simulated values of all the PROFINET IO input data modules It wil
40. ial Ethernet network 2 NEUE inscius E 1 0604 1 0604 a 3 1 lt Leas fond Bath E li e 5 4 5 6 7 8 9 Fig 12 Example of Ethernet connection CIM 500 Pos Description Designation 1 Industrial Ethernet RJ45 Connector 1 ETH1 2 Industrial Ethernet RJ45 Connector 2 ETH2 3 Rotary switch for protocol selection SW1 4 Data activity LED for Connector 1 DATA1 5 Link LED for Connector 1 LINK1 6 Data activity LED for Connector 2 DATA2 7 Link LED for Connector 2 LINK2 8 Green red status LED for Ethernet LED 1 communication Green red status LED for internal 9 communication between module and LED 2 pump Device name and IP settings for PROFINET IO Static configuration from Web server or configuration from PROFINET IO configuration tool 6 4 Establish connection to the Webserver The CIM 500 module can be configured using the built in Web server To establish a connection from a PC to CIM 500 the following steps are required Connect the PC and the CIM 500 module using an Ethernet cable Configure the PC Ethernet port to the same subnetwork as the CIM 500 e g 192 168 1 101 and the subnet mask to 255 255 255 0 See section A 2 Web server configuration on page 28 Open a standard Internet browser and type 192 168 1 100 in the URL field Login to the Web server using User admin default Grundfos default Password User and password may have been changed from their factory default values
41. k protection Verification error BE parameter 14 activated ERP 31 Blocked motor pump 85 EEPROM Communication fault main system 15 SCADA 52 Motor slip high 88 Sensor fault 16 Other 53 Stalled motor 89 Signal fault feedback sensor 1 17 Performance requirement cannot 5A Motor protection function 90 Signal fault speed sensor be met 3 sec limit Motor current protection activated 18 Commanded alarm standby trip 55 MCP 91 Signal fault temperature 1 sensor 19 Diaphragm break dosing pump 56 Underload 92 Calibration feedback sensor 20 Insulation resistance low 57 Dry running 93 Signal fault sensor 2 21 Too many starts per hour 58 Low flow 94 Limit exceeded sensor 1 22 Moisture switch alarm digital 59 No flow 95 Limit exceeded sensor 2 23 Smart trim gap alarm 60 Low input power 96 Setpoint signal outside range 24 Vibration 64 Overtemperature 97 Signal fault setpoint input 25 Setup conflict 65 Motor temperature 1 98 Signal fault input for setpoint t_m or t_mo or t_mo1 influence Load continues even if the motor Temperature control electronics Signal fault input for analog 26 66 99 has been switched off t_e setpoint 27 External motor protector activated 67 Temperature too high internal 104 Software shutdown e g MP 204 frequency converter module t m External temperature Electronic rectifier protection 28 Battery low 58 water temperature t_w 109 activated ERP 29 Turbine operation 69 Therm
42. l thus be possible to connect a PROFINET IO master to a CIM 500 fitted in a CIU or E box without installing this device in a real industrial process system In an office environment it can then be verified that communication works and data are received and handled correctly by the PROFINET IO master application program e g PLC program before installing the device To enable product simulation select a product type from the drop down list Product simulation 29 Appendix 30 Argentina Bombas GRUNDFOS de Argentina S A Ruta Panamericana ramal Campana Cen tro Industrial Garin Esq Haendel y Mozart AR 1619 Garin Pcia de Buenos Aires Pcia de Buenos Aires Phone 54 3327 414 444 Telefax 54 3327 45 3190 Australia GRUNDFOS Pumps Pty Ltd P O Box 2040 Regency Park South Australia 5942 Phone 61 8 8461 4611 Telefax 61 8 8340 0155 Austria GRUNDFOS Pumpen Vertrieb Ges m b H GrundfosstraRe 2 A 5082 Gr dig Salzburg Tel 43 6246 883 0 Telefax 43 6246 883 30 Belgium N V GRUNDFOS Bellux S A Boomsesteenweg 81 83 B 2630 Aartselaar T l 32 3 870 7300 T l copie 32 3 870 7301 Belarus 220125 11 56 Ten 7 375 17 286 39 72 286 39 73 7 375 17 286 39 71 E mail minsk grundfos com Bosnia Herzegovina GRUNDFOS Sarajevo Trg Heroja 16 BiH 71000 Sarajevo
43. lashing red CIM 500 and the Grundfos product the Grundfos product 4 The LED for internal communication a The CIM 500 does not support the Contact the nearest Grundfos company LED2 is permanently red Grundfos product connected 5 The PROFINET IO LED LED1 is a Connected Grundfos product is not Contact the nearest Grundfos company permanently red supported b Illegal position of protocol switch Check that the rotary switch SW1 is set SW1 to 6 The PROFINET IO LED1 is flashing a Fault in the CIM 500 PROFINET IO Check that the right GSDML file is used red configuration Check that PROFINET IO IP address configuration is correct See section PROFINET IO configuration on page 17 Check device name in the CIM 500 and PROFINET IO master 7 The PROFINET IO LED1 is pulsing a Connection to master lost Check cables red Check master is running 8 LED1 is permanently red and green at a Error in firmware download Use the web server to download the the same time firmware again See section Firmware update on page 23 9 LED2 is permanently red and green at a Memory fault Replace the CIM 500 the same time CIM 500 fitted in a CIU 500 Fault LED status Possible cause Remedy 1 Both LEDs LED1 and LED2 remain off a The CIU 500 is defective Replace the CIU 500 when the power supply is connected 2 The PROFINET IO LED LED1 remains The protocol selection switch SW1 Set
44. le 187 Signal fault energy meter 215 Soft pressure build up timeout 160 GSM modem SIM card fault 188 Signal fault user defined sensor 216 Pilot pump alarm 161 Sensor supply fault 5 V 189 Signal fault level sensor 217 ean general purpose sensor Limit exceeded sensor Alarm general purpose sensor 162 Sensor supply fault 24 V 190 e g alarm level in WW 28 9 purp application 163 Measurement fault motor 191 Limit exceeded sensor 2 219 Pressure relief not adequate protection e g high level in WW application Limit exceeded sensor 3 164 Signal fault LiqTec sensor 192 e g overflow level in WW 220 Fault motor contactor feedback application Limit exceeded sensor 4 165 Signal fault analog input 1 193 e g low level in WW tank filling 221 Fault mixer contactor feedback application 166 Signal fault analog input 2 194 Limit exceeded sensor 5 222 Time for service mixer 25 English GB 99 ysi6ug Code Description Code Description Code Description 223 Maximum number of mixer starts 232 Ethernet Auto disabled due to 241 Motor phase failure per hour exceeded misuse 24 Pump fault due to auxiliary 233 Ethernet IP address conflict pap Automatic motor model component or general fault recognition failed 225 Communication fault pump 234 Back up pump alarm 243 Motor relay has been forced module manually operated commanded 226 Communication fault l O module 235 Gas detected 244 Fault On Off Auto
45. ll be interpreted as setpoint for the flow temperature or level ConstFlow is indicated in the figure In these modes the E pump is operating in closed loop control and a relevant sensor is required a temperature sensor for temperature control alevel sensor for level control a flow sensor for flow control TM04 2288 2208 gt VarDiffPress 6 The setpoint of the E pump will be interpreted as a proportional pressure setpoint as shown in the figure This is a closed loop control mode and a pressure sensor is required TM04 2291 2208 gt AUTOApapr 128 gt FLOWApapr 129 gt Closed loop sensor H Pressure head Q Flow In this control mode the setpoint curve is a proportional pressure curve where the setpoint has been set from factory The AUTOApapr algorithm in the pump will over time optimise the setpoint value according to the pipe characteristics of the system The setpoint curve will always be adjusted in a downward direction This control mode works similar to AUTO ApApr except that the flow limiting function FLOW is always active and limits the flow to the value ActualMaxFlowLimit data module 46 This is a general purpose closed loop control mode that can be used in cases where the pump is used for a type of control not covered by one of the other control modes Important notes to control mode Only valid control modes will be accepted Not all control modes are suppor
46. mperature as a measured by a remote 8 H S 3 S temperature sensor 57 AmbientTemp Provides the ambient temperature as measured by a 8 H S temperature sensor 58 HeatEnergyCounter Total accumulated heat energy in pump life time 8 Wh H S 3 S 59 HeatPower Actual heat power 8 H S 3 8 60 HeatDifffemp Differential temperature between forward and return pipe 8 C H S 3 S P The availability of these measurements requires that the data module VolumeFlow module 6 is available and that a differential temperature measurement is established by one of the below means MGE model HII Direct measurement where an analog or temperature input has been configured to Remote differential temperature e PumpLiquidTemp module 23 measured by build in Grundfos sensor and RemoteTemp2 module 56 measured by analog or temperature input RemoteTemp1 module 21 and RemoteTemp2 module 56 measured by analog or temperature input MAGNA3 For the calculation an estimated flow value and measurement of the liquid temperature by the build in temperature sensor is used Connection of an external temperature sensor is needed for the pump to calculate the needed differential temperature Note 18 Note A data value of OxFFFF indicates not available Estimated flow can be used for monitoring purposes only but it is not recommended for controlling purposes 7 10 Sensor dependent measurements As appears from the
47. ng the termination resistors in and out Figure 10 shows the DIP switches in cut out state TM04 1703 0908 SW1 SW2 Fig 10 Cutting termination resistors in and out DIP switch settings Status SW1 SW2 Cutin ON ON Cut out OFF OFF ON OFF Undefined state OFF ON To ensure stable and reliable communication it is important that only the termination resistors of the first and last units in the PROFIBUS network are cut in Note 5 6 Status LEDs The CIM 150 PROFIBUS module has two LEDs See fig 6 Red green status LED LED1 for PROFIBUS communication Red green status LED LED2 for GENIbus communication between the CIM CIU 150 and the connected E pump LED1 Status Description Off The CIM 150 has been switched off The CIM 150 is ready for PROFIBUS data Constantly gres transmission Data Exchange State CIM 150 module fault The CIM 150 does not support the connected E pump Constantly red Wrong or missing PROFIBUS Flashing red configuration or no contact to the PROFIBUS master LED2 Status Description Off The CIM 150 is switched off GENIbus communication between the Constantly green 150 and the E pump is OK The CIM 150 does not support the red connected E pump No GENIbus communication between the Flashing red CIM 150 and the E pump During start up there may be a delay of up to 5 seconds before the LED2 s
48. not support an internal add on communication module CIM module The enclosure class is IP54 3 2 PROFIBUS DP CIM 150 ae N PROFIBUS ME DP a Fig 1 Example of a CIM 150 solution The CIM module is installed inside the pump The figure shows a CRE pump e 5 PROFIBUS GENIbus 9 DP RS485 CIU 150 Fig 2 Example of a CIU 150 solution The figure shows a CUE drive for pumps 3 3 PROFINET IO CIM 500 y Ze CIM 500 PROFINET IO 2 x 8 gt Fig Example of a 500 solution The CIM module is installed inside the pump The figure shows a CRE pump PROFINET IO GENIbus RS485 3 wo CIU 500 s Fig 4 Example of a CIU 500 solution The figure shows a CUE drive for pumps 4 Specifications 4 1 CIM module general data General data Description Comments Ambient humidity 30 to 95 Relative non condensing Operating temperature 20 C to 45 C Storage temperature 25 C to 70 C GENlbus visual diagnostics LED2 Will be in one of these states Off constantly green flashing red constantly red See section 5 6 for PROFIBUS DP and section 6 5 for PROFINET IO Power supply CIU 24 240 V Located in the CIU GENlbus connection type CIU RS 485 3 wire screen Conductors A B and Y CIU box enclosure class IP54 CIU box dimensions H x W x D 182 x 108 x 82 mm 4 2 CIM 150 PROFIBUS DP The table
49. ntrol Relay control module RelayControl module 3 Setting of the maximum flow limit SetMaxFlowLimit module 44 Setting of the real time clock SetRealTimeClock module 45 Alarms and warnings Measurement data modules Sensor dependent measurements Page O 41 44 4400 O O OHHH 0000000000 Q N EA N OOO O 14 14 14 15 16 19 Device identification Deviceldentification module 41 20 Product simulation CIM 150 Product Simulation CIM 500 Product Simulation Fault finding CIM CIU 150 CIM CIU 500 Grundfos alarm and warning codes PROFIBUS address 21 21 21 22 22 23 24 27 1 Symbols used in this document Caution Note Warning If these safety instructions are not observed it may result in personal injury If these safety instructions are not observed it may result in malfunction or damage to the equipment Notes or instructions that make the job easier and ensure safe operation 2 Introduction 2 1 About this functional profile This functional profile describes the CIM CIU 150 PROFIBUS DP CIM CIU 500 Ethernet for PROFINET IO for the following Grundfos products Grundfos CRE CRNE CRIE MTRE CHIE CME Grundfos TPE TPE Series 2000 NBE NKE Grundfos CUE drive Grundfos MAGNA with add on GENIbus module Grundfos MAGNA3 Grundfos UPE Series 2000 UPE 80 120 and 100 120 In the following the
50. oint would be 4 bar and so on 10 bar S bar u xa TM04 2371 2508 0 7 0 6 8000 80 10000 100 Fig 16 Example of setpoint for constant pressure with a pressure sensor range of 0 10 bar Open loop The 16 bit data item Setpoint accepts values ranging from 0 10000 corresponding to 0 100 of the E pump performance frequency Some E pump types have a configurable maximum frequency limit If this limit has been Note set to a value lower than the frequency stated on the nameplate a performance of 100 cannot be attained 12 Example of open loop If the control mode is set to ConstFreq the setpoint is interpreted as setpoint for the E pump performance Maximum pump performance 50 pump performance gt 0 0 5000 50 10000 100 TM04 2372 2508 Fig 17 Example of setpoint for constant frequency 7 3 Status module StatusModule module 1 The status module is an input module used for reading status from E pumps Its data type is 10 non standard Byte Bit Name Byte 1 data type 5 AccessMode OnOff Fault Warning AtMaxSpeed AtMinSpeed Byte 2 data type 5 ResetFaultAck SetPointInfluence AtMaxPower Rotation lloj o oj o jo o CO N I o Direction Bytes 3 and 4 data type 6 ProcessFeedback 0 01 Byte 5 data type 5 ControlMode
51. ovides the DC Link voltage of the frequency converter of 8 V n A the E pump 14 MotorCurrent Provides the E pump motor current 8 A 3 15 MotorVoltage Provides the phase to phase voltage of the E pump motor 8 V 16 Power Provides the actual power consumed by the E pump motor 8 17 Energy Provides the accumulated electric energy consumption of the 8 Wh E E pump SONE 3 CUE 18 SpecificEnergyConsumption Provides the specific energy consumption if a flow is available 8 Wh m H S S 3 19 PowerElectronicTemp Provides the temperature in the frequency converter of the 8 C E _ E pump motor G S 20 MotorTemp Provides the E pump motor winding temperature 8 C 3ph s 21 RemoteTemp Provides the temperature measured by a remote temperature 8 C S S S sensor 22 ElectronicTemp Provides the E pump electronics temperature 8 C H MGE 3 23 PumpLiquidTemp Provides the pumped liquid temperature e g water 8 C G S S temperature 24 BearingTempDE Provides the motor bearing temperature in the drive end of 8 C H S S i the E pump motor 25 BearingTempNDE Provides the motor bearing temperature in the non drive end 8 H S S _ of the E pump motor 26 OperationTime Provides the total operating hours of the E pump 8 27 TotalPoweredTime Provides the total powered on time of the E pump 8 28 AuxSensorinput Provides an auxiliary sensor input for miscellaneous 8 S S 16 measur
52. put 28 AuxSensorlnput 28 AuxSensorlnput 28 CUE and 11 22 kW E pumps only CUE 11 22 kW E pumps and model G only Only if m or ft is selected 19 English GB 89 ysi6ug E pump model I eee Analog input ee Grundfos buildin Grundfos LiqTec Mapped to PROFIBUS Grundfos GO display AM Al2 AI3 input 1 T2 sensor sensor PROFINET data module Pump inlet pressure InletPressure 10 Pump inlet diff press InletDiffPressure 52 Pump outlet pressure OutletPressure 48 Pump outlet diff press OutletDiffPressure 53 Pump diff pressure DiffPressure 47 Remote pressure 1 RemotePressure1 11 Remote pressure 2 RemotePressure2 49 Remote diff pressure RemoteDiffpressure 54 Feed tank level FeedTankLevel 12 Storage tank level Storage TankLevel 55 Pump flow VolumeFlow 6 Remote flow RemoteFlow 7 Pumped liquid temp PumpLiquidTemp 23 Temperature 1 1 21 Temperature 2 RemoteTemp2 56 Remote diff temp RemoteDiffTemp 51 Ambient temperature AmbientTemp 57 Motor bearing temp BE BearingTempDE 24 Motor bearing temp NDE BearingTempNDE 25 Other parameter AuxSensorlnput 28 7 11 Device identification Deviceldentification module 41 The data type is 10 non standard Byte Name description UnitFamily enumeration 1 UPE MAGNA circulator
53. rivate IP address r User configured IP address 192 168 1 1 Subnet mask 255 255 255 0 Default gateway Preferred DNS server Alternate DNS server E Preferred WINS server N Alternate WINS server TMO05 7422 0913 Fig 20 Example from Windows XP A 2 Web server configuration The built in web server is an easy and effective way to monitor the status of the CIM 500 module and configure the available functions and Industrial Ethernet protocols The web server also makes it possible to update the firmware of the CIM module and store restore settings Before configuration Check that PC and CIM module are connected via an Ethernet cable Check that the PC Ethernet port is set to the same network as the CIM module For network configuration see section A 1 How to configure an IP address on your PC To establish a connection from a PC to CIM 500 the first time the following steps are required 1 Open a standard Internet browser and type 192 168 1 100 in the URL address field 2 Log in to the Web server 28 A 3 Login GRUNDFOS Grundfos 500 industrial Ethernet Modbus information Login Username admin Password X gt m Fig 21 Login Username Enter user name Default admin Password Enter password Default Grundfos kel User name and password can be c
54. switch 227 Combi event 236 Pump 1 fault 245 Pump continuous runtime too long User defined relay has been 228 User defined event 237 Pump 2 fault 246 forced manually operated commanded 229 water on floor 238 Pump 3 fault 247 OWer on notice device system has been switched off 230 Network alarm 239 Pump 4 fault 248 Fault battery UPS 231 Ethernet No IP address from 240 Lubricate bearings 26 DHCP server specific service information 11 PROFIBUS address Decimal to hexadecimal conversion table for setting of the PROFIBUS address switches See section 5 4 Setting the PROFIBUS address PROFIBUS address o oo SW4 PROFIBUS address o wo SW4 PROFIBUS address s e o 1 0 1 46 2 E 91 5 B 2 0 2 47 2 F 92 5 C 3 0 3 48 3 0 93 5 D 4 0 4 49 3 1 94 5 E 5 0 5 50 3 2 95 5 F 6 0 6 51 3 3 96 6 0 7 0 7 52 3 4 97 6 1 8 0 8 53 3 5 98 6 2 9 0 9 54 3 6 99 6 3 10 0 A 55 3 7 100 6 4 11 0 B 56 3 8 101 6 5 12 0 C 57 3 9 102 6 6 13 0 D 58 3 A 103 6 7 14 0 E 59 3 B 104 6 8 15 0 F 60 3 C 105 6 9 16 1 0 61 3 D 106 6 A 17 1 1 62 3 E 107 6 B 18 1 2 63 3 F 108 6 C 19 1 3 64 4 0 109 6 D 20 1 4 65 4 1 110 6 E 21 1 5 66 4 2 111 6 F 22 1 6 67 4 3 112 7 0 23 1 7 68 4 4 113 7 1 24 1 8 69 4 5 114 7 2 25 1 9 70 4 6 115 7 3 26 1 A 71 4 7 116 7 4 27 1 B 72 4 8 117 7 5 28 1 C 73 4 9 118 7 6 29 1 D 74 4
55. tatus is updated Note 5 7 Communication watchdog The state of the PROFIBUS communication watchdog can be changed with a PROFIBUS commissioning tool e g Siemens Simatic Manager If the watchdog is enabled all bits in the ControlModule see section 7 2 Control module controlModule module 2 are automatically set to 0 if the PROFIBUS communication is broken As a result the E pump will be set to local mode and then be operating according to the local operating mode local setpoint and local control mode 5 8 Reaction to PLC Stop button If the PLC is stopped by the operator all output registers will be set to 0 As aresult the control bit RemoteAccessReq will be cleared and the E pump will be set to local mode and then be operating according to the local operating mode local setpoint and local control mode English GB 99 usi6ug 6 PROFINET IO CIM 500 setup 6 1 Connecting the Ethernet cable Warning The CIM 500 must only be connected to SELV or SELV E circuits RJ45 plugs and Ethernet cable must be used The cable shield must be connected to protective earth at both ends It is important to connect cable shield to earth Note through earth clamp or to connect cable shield to earth in the connector The CIM 500 is designed for flexible network installation the built in two port switch makes it possible to daisy chain from product to product without the need of additional Ethernet switch
56. ted for all E pump types If not supported the resulting control mode as read from the StatusModule module 1 will remain equal to the last valid control mode set via PROFIBUS PROFINET TM05 3241 1012 TM05 3242 1012 11 English GB 89 usii65ua 7 2 4 Explanation to operating mode Control enumeration for selection of the remote operating mode 0 AutoControl This is the normal mode The E pump is controlled according to the selected control mode and setpoint See section 7 2 3 Explanation to control mode 4 OpenLoopMin The E pump operates at a fixed minimum frequency 6 OpenLoopMax The E pump operates at a fixed maximum frequency 7 2 5 Explanation to Setpoint Closed loop The 16 bit data item Setpoint accepts values ranging from 0 10000 corresponding to 0 100 of feedback sensor maximum value This is illustrated in fig 15 The Setpoint can represent speed pressure flow etc depending on the selected control mode which must match the selected sensor A setpoint of 0 does not imply a stop Sensor 4 maximum 2 o 2 u 2 9 ge 9 gt 3 0 0 Setpoint 10000 100 Fig 15 Closed loop Setpoint Example of closed loop If the control mode is set to ConstPress and the pressure sensor range is 0 10 bar a setpoint of 80 will result in an effective setpoint of 8 bar If the sensor range was 0 16 bar a 50 setpoint would be 8 bar a 25 setp
57. the switch in position O off has been set in Modbus TCP position 3 The LED for internal communication a No internal communication between the Check the cable connection between the LED2 is flashing red CIU 500 and the Grundfos product Grundfos product and the CIU 500 Check that the individual Conductors have been fitted correctly Check the power supply to the Grundfos product 4 The LED for internal communication a The CIM 500 does not support the Contact the nearest Grundfos company LED2 is permanently red Grundfos product connected 5 The PROFINET IO LED LED1 is a Connected Grundfos product is not Contact the nearest Grundfos company permanently red supported b Illegal position of protocol switch SW1 Check that the rotary switch SW1 is set to 0 6 The PROFINET IO LED1 is flashing a Fault in the CIM 500 PROFINET IO Check that the right GSDML file is used red configuration Check that PROFINET IO IP address configuration is correct See section 6 PROFINET IO CIM 500 setup Check device name in CIM 500 and PROFINET IO master The PROFINET IO LED1 is pulsing a Connection to master lost Check cables red Check master is running 8 LED1 is permanently red and green at a Error in firmware download Use the web server to download the the same time firmware again 9 LED2 is permanently red and green at a Memory fault Replace the CIM 500 the same time 23 English GB 89 ysi6ug
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