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Related Manuals for Beckhoff CX5110-01 9020 Series
Summary of Contents for Beckhoff CX5110-01 9020 Series
- Page 1 Manual | EN CX5110-01xx-9020 Embedded PC 4/13/2023 | Version: 1.0...
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Page 3: Table Of Contents
UL requirements....................... 37 Switching on ............................ 37 Switching off ............................ 38 7 Configuration............................ 39 Beckhoff Device Manager ....................... 39 7.1.1 Starting the Beckhoff Device Manager................ 39 7.1.2 Enabling a remote display.................... 40 7.1.3 Starting a remote connection ................... 41 CX5110-01xx-9020 Version: 1.0... - Page 4 Table of contents Configuration of switched Ethernet interfaces................. 42 Formatting storage media ....................... 43 TwinCAT............................ 44 7.4.1 Tree view.......................... 44 7.4.2 Searching for target systems ................... 45 7.4.3 Scanning an Embedded PC..................... 47 7.4.4 Configuring EtherCAT cable redundancy................. 48 7.4.5 Using a hardware watchdog..................... 51 8 NOVRAM .............................. 52 Creating and linking variables ......................
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Page 5: Notes On The Documentation
EP1590927, EP1789857, EP1456722, EP2137893, DE102015105702 with corresponding applications or registrations in various other countries. ® EtherCAT is a registered trademark and patented technology, licensed by Beckhoff Automation GmbH, Germany Copyright © Beckhoff Automation GmbH & Co. KG, Germany. The reproduction, distribution and utilization of this document as well as the communication of its contents to others without express authorization are prohibited. -
Page 6: Representation And Structure Of Warnings
Notes on the documentation Representation and structure of warnings The following warnings are used in the documentation. Read and follow the warnings. Warnings relating to personal injury: DANGER Hazard with high risk of death or serious injury. WARNING Hazard with medium risk of death or serious injury. CAUTION There is a low-risk hazard that can result in minor injury. -
Page 7: Documentation Issue Status
Notes on the documentation Documentation issue status Version Modifications First release CX5110-01xx-9020 Version: 1.0... -
Page 8: For Your Safety
Beckhoff Automation GmbH & Co. In addition, the following actions are excluded from the liability of Beckhoff Automation GmbH & Co. KG: • Failure to comply with this documentation. -
Page 9: Safety Instructions
• The sensitivity of a PC against malicious software increases with the number of installed and active software. • Uninstall or disable unnecessary software. Further information on the safe handling of networks and software can be found in the Beckhoff Information System: http://infosys.beckhoff.com... - Page 10 Using outdated or unsupported product versions can increase the risk of cyber threats. To stay informed about information security for Beckhoff products, subscribe to the RSS feed at https:// www.beckhoff.com/secinfo.
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Page 11: Transport And Storage
Transport and storage Transport and storage Transport NOTE Short circuit due to moisture Moisture can form during transport in cold weather or in the event of large temperature fluctuations. Avoid moisture formation (condensation) in the Embedded PC, and leave it to adjust to room temperature slowly. -
Page 12: Product Overview
Product overview Product overview The CX5110-01xx-9020 is a suitable, functional and economical replacement version of the CX9020. The ® CX5110-01xx-9020 has an Intel Atom single core processor with 1.20 GHz. The processor clocks at 1.20 GHz instead of 1.46 GHz to realize lower power consumption and thus a reduced housing width. The Embedded PC is functionally compatible with the CX9020, but not image compatible. -
Page 13: Structure
Product overview Structure Fig. 1: Example: CX5110-01xx-9020 Embedded PC. CX5110-01xx-9020 Version: 1.0... -
Page 14: Name Plate
Product overview Table 3: Key for the configuration. Component Description Space for interfaces such as RS232, EtherCAT, CANopen or Optional interface (X300) others. [} 21]. The optional interface must be pre-ordered ex factory and cannot be retrofitted. Interface for a monitor or panel. DVI-I interface (X200) [} 20]. -
Page 15: Table 4 Information On The Name Plate
Embedded PC, operating system, options and TwinCAT can be reordered. Product designation for identification of the Embedded PC. Serial number/ Beckhoff Traceability Number (BTN) for the unambiguous identification of the product. Hardware version and date of manufacture. -
Page 16: Types
Product overview Types The CX5110-01xx-9020 Embedded PC can be ordered with different software options. Use this overview in conjunction with the information on the name plate to ascertain the operating system and the TwinCAT version of the embedded PC. Fig. 3: Nomenclature for the CX5110-01xx-9020 Embedded PC. The CX5110-01xx-9020 Embedded PC is available with the following software options: Table 5: CX5110-01xx-9020, ordering information for software. -
Page 17: Architecture Overview
Product overview Architecture overview The CX5110-01xx-9020 Embedded PC is based on the Intel Atom microarchitecture, which was developed by Intel. The following CPU is used: ® • Intel Atom E3815 In addition to the arithmetic unit, the CPU also contains the memory controller and the graphics controller. ®... -
Page 18: Interface Description
Interface description Interface description USB (X100, X101, X102, X103) The Embedded PC has four independent USB interfaces for connecting keyboards, mice, touchscreens and other input or data storage devices. Fig. 4: USB interfaces (X100, X101, X102, X103). The USB interfaces are type A and comply with the USB 2.0 specification. Table 6: USB interfaces (X100, X101, X102, X103), pin assignment. -
Page 19: Ethernet Rj45 (X000, X001)
Interface description Ethernet RJ45 (X000, X001) The two Ethernet interfaces are independent; no switch is integrated. The independent Ethernet interfaces can be configured in different ways. In the delivery state, the Ethernet interfaces (X000, X001) are configured for EtherCAT communication. Note that an additional switch is required for a line topology. -
Page 20: Dvi-I (X200)
The DVI-I interface (X200) transfers digital data and is suitable for connection to digital or analog monitors. The resolution at the display or the Beckhoff Control Panel depends on the distance from the display device. The maximum distance is 5 m. Beckhoff offers various Panels with an integrated “DVI extension”. These make a cable length of up to 50 meters possible. -
Page 21: Optional Interfaces
Interface description Optional interfaces An optional interface is an additional interface that can be equipped with a wide range of signal types ex factory and extends the Embedded PC beyond the basic equipment. The optional interface must be ordered in advance and cannot be retrofitted to the device. 5.4.1 Audio interface (N020) Two inputs are available: "LINE IN"... -
Page 22: Fig. 9 Mic In X301 Jack Plug
Interface description Fig. 9: Mic In X301 jack plug. Version: 1.0 CX5110-01xx-9020... -
Page 23: Rs232 (N030)
Interface description 5.4.2 RS232 (N030) The optional N030 interface provides an RS232 interface (X300). The RS232 interface is implemented on a 9-pin D-sub connector. Fig. 10: RS232 interface X300. The maximum baud rate on both channels is 115 kbit. The interface parameters are set via the operating system or from the PLC program. -
Page 24: Rs422/Rs485 (N031)
Interface description 5.4.3 RS422/RS485 (N031) The optional N031 interface provides an RS422 or RS485 interface (X300). The interface is executed on a 9- pin D-sub socket. Fig. 11: RS485 interface X300. The maximum baud rate on both channels is 115 kbit. The interface parameters are set via the operating system or from the PLC program. -
Page 25: Ethercat Slave (B110)
Transmit - RD + Receive + connected reserved RD - Receive - connected reserved For the EtherCAT slave optional interface (B110), documentation with further information is available: https://infosys.beckhoff.com/content/1033/b110_ethercat_optioninterface/index.html? id=2623834056269338700 Document name CXxxxx-B110 | EtherCAT Slave Optional Interface. CX5110-01xx-9020 Version: 1.0... -
Page 26: Profibus (X310)
Table 17: Wire colors of the PROFIBUS line. PROFIBUS line D-sub B red Pin 3 A green Pin 8 For the PROFIBUS optional interface (x310), documentation with further information is available: https://infosys.beckhoff.com/content/1033/m310_b310_profibus_optioninterface/index.html? id=2233561431434830097 Document name CXxxxx-M310/B310 | Profibus Optional Interface Version: 1.0 CX5110-01xx-9020... -
Page 27: Canopen (X510)
Shield CAN Ground (internally connected to pin 3) CAN high (CAN+) not used not used For the CANopen optional interface (x510), documentation with further information is available: https://infosys.beckhoff.com/content/1033/m510_b510_canopen_optioninterface/index.html? id=1404127979601372947 Document name CXxxxx-M510/B510 | CANopen Optional Interface CX5110-01xx-9020 Version: 1.0... -
Page 28: Profinet Rt (X930)
TD - Transmit - RD + Receive + connected reserved RD - Receive - connected reserved For the PROFINET RT optional interface (x930), documentation with further information is available: https://infosys.beckhoff.com/content/1033/m930_b930_profinet_optioninterface/index.html? id=3617310193267164961 Document name CXxxxx-M930/B930 | Profinet Optional Interface Version: 1.0 CX5110-01xx-9020... -
Page 29: Commissioning
Commissioning Commissioning Mounting Fig. 16: CX5110-01xx-9020 Embedded PC, dimensions. CX5110-01xx-9020 Version: 1.0... -
Page 30: Permissible Installation Positions
Commissioning 6.1.1 Permissible installation positions NOTE Overheating The embedded PC may overheat if the installation position is incorrect or the minimum distances are not adhered to. Adhere to the maximum ambient temperature of 60°C and the mounting instructions. Install the embedded PC horizontally in the control cabinet on a DIN rail, in order to ensure optimum heat dissipation. -
Page 31: Fastening To The Din Rail
Commissioning 6.1.2 Fastening to the DIN rail The housing is designed such that the Embedded PC can be pushed against the DIN rail and latched onto it. Requirements: • DIN rail of the type TS35/7.5 or TS35/15 according to EN 60715. Fasten the Embedded PC to the DIN rail as follows: 1. -
Page 32: Changing The Microsd Card
MicroSD cards from other manufacturer may fail, resulting in data loss. Only use industrial MicroSD cards provided by Beckhoff. The MicroSD card slot is intended for a MicroSD card. Data and further programs can be stored here, or Windows Embedded Compact 7 can be installed instead. -
Page 33: Changing The Cfast Card
A CFast card is a non-volatile memory. Data to be retained in the event of a power failure should be saved on the CFast card. The CFast cards supplied by Beckhoff are industrial cards with an increased number of write cycles and an extended temperature range (+85 °C). -
Page 34: Installing Passive Ethercat Terminals
Commissioning 6.1.5 Installing passive EtherCAT Terminals Incorrectly installed passive EtherCAT Terminals The E-bus signal between an embedded PC and the EtherCAT Terminals can be impaired due to incorrectly installed passive EtherCAT Terminals. Passive EtherCAT Terminals should not be installed directly on the power supply unit. EtherCAT Terminals that do not take part in active data exchange are referred to as passive terminals. -
Page 35: Power Supply
Commissioning Power supply NOTE Damage to the Embedded PCs The Embedded PCs may be damaged during wiring. • The cables for the power supply should only be connected in de-energized state. The power supply terminal requires an external voltage source, which provides 24 V DC (-15% / +20%). The power supply terminal must provide 4 A at 24 V, in order to ensure the operation of the embedded PC in all situations. -
Page 36: Connect Embedded Pc
Commissioning 6.2.1 Connect embedded PC The cables of an external voltage source are connected to spring-loaded terminals on the power supply terminal. Observe the required conductor cross-sections and strip lengths. Table 20: Required conductor cross-sections and strip lengths. Conductor cross-section 0.5 ... 2.5 mm AWG 20 ... -
Page 37: Ul Requirements
Commissioning 6.2.2 UL requirements The CX5110-01xx-9020 Embedded PCs are UL-certified. The corresponding UL label can be found on the name plate. The CX5110-01xx-9020 Embedded PCs can thus be used in areas in which special UL requirements have to be met. These requirements apply to the system voltage (Us) and the power contacts (Up). Applications without special UL requirements are not affected by UL regulations. -
Page 38: Switching Off
Commissioning Switching off Loss of data If the Embedded PC is switched off during operation, data on the CFast card or other hard disks may be lost. Do not disconnect the Embedded PC during operation. To switch off the Embedded PC, do not disconnect the ground (0 V), because otherwise current may continue to flow via the shielding, depending on the device, and damage the Embedded PC or peripheral devices. -
Page 39: Configuration
Start the Beckhoff Device Manager as follows: 1. Open a web browser on the host PC. 2. Enter the IP address or the host name of the industrial PC in the web browser to start the Beckhoff Device Manager. • Example with IP address: https://169.254.136.237/config •... -
Page 40: Enabling A Remote Display
Enable the remote display as follows: 1. Open a web browser on the host PC. 2. Enter the IP address or the host name of the industrial PC in the web browser to start the Beckhoff Device Manager. • Example with IP address: https://169.254.136.237/config •... -
Page 41: Starting A Remote Connection
Configuration 7.1.3 Starting a remote connection With the aid of the Remote Display Control program (CERHOST), a remote connection can be established and an Industrial PC with CE operating system can be remotely controlled from a host PC. Requirements: • Remote Display is active. See: Enabling a remote display. •... -
Page 42: Configuration Of Switched Ethernet Interfaces
Configuration Configuration of switched Ethernet interfaces High data throughput generates system load Increased data throughput can have a negative effect on the system load for switched Ethernet interfaces. Consider this behavior for your configuration. In contrast to the CX9020, the Ethernet interfaces of the CX5110-01xx-9020 are not switched. The Ethernet interfaces (X000, X001) are independent of each other ex factory, they can be configured differently and are configured for EtherCAT communication. -
Page 43: Formatting Storage Media
Configuration Formatting storage media For storage media to be recognized under Windows Embedded Compact 7, they must be formatted in FAT32 format. The formatting of the storage media can also be started within the operating system. Proceed as follows: 1. Click Start > Control Panel and launch Explorer. 2. -
Page 44: Twincat
Configuration TwinCAT 7.4.1 Tree view The Tree View chapter can be used as an example for creating a project without actual hardware. All devices and components of an embedded PC must be added manually in TwinCAT 3. The smallest possible configuration of the CX5110-01xx-9020 Embedded PC is created as follows in the tree view under TwinCAT 3: Fig. 23: CX5110-01xx-9020 Embedded PC in the tree view of TwinCAT 3, with attached EtherCAT Terminals (left) or Bus Terminals (right). -
Page 45: Searching For Target Systems
Configuration 7.4.2 Searching for target systems Before you can work with the devices, you must connect your local computer to the target device. Then you can search for devices with the help of the IP address or the host name. The local PC and the target devices must be connected to the same network or directly to each other via an Ethernet cable. - Page 46 Configuration Enter the user name and password for the CX in the User Name and Password fields and click OK. The following information is set as standard in CX devices: User name: Administrator Password: 1 6. If you do not wish to search for any further devices, click on Close to close the Add Route Dialog. The new device is displayed in the Choose Target System window.
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Page 47: Scanning An Embedded Pc
Configuration 7.4.3 Scanning an Embedded PC This step shows how to scan an Embedded PC in TwinCAT and then further configure it. Prerequisites for this step: • Selected target device. Add the Embedded PC as follows: 1. Start TwinCAT and open an empty project. 2. -
Page 48: Configuring Ethercat Cable Redundancy
Requirements: • For TwinCAT 2 you have to install and license the supplement TS622x | TwinCAT EtherCAT Redundancy on the embedded PC: http://www.beckhoff.de/forms/twincat3/warenkorb.aspx?lg=de&title=TS622x-EtherCAT- Redundancy&version=1.0.2 • In TwinCAT 3 the supplement is already included and only has to be licensed. • Hardware wired as EtherCAT ring (see Fig.: Smallest possible configuration for EtherCAT cable redundancy) and added in TwinCAT. - Page 49 Configuration 1. In the tree view click on the EtherCAT master. 2. Click on the EtherCAT tab, then Advanced Settings. 3. Click on Redundancy in the structure tree on the left. 4. Click the Second Adapter option and then the Search button. CX5110-01xx-9020 Version: 1.0...
- Page 50 Configuration 5. Select the appropriate LAN connection according to your cabling at the embedded PC. 6. Confirm your settings with Ok. ð You have successfully configured cable redundancy. The EtherCAT slaves configured for cable redundancy are displayed in the Online tab. The state of the individual EtherCAT slaves can be found in the State column.
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Page 51: Using A Hardware Watchdog
Configuration 7.4.5 Using a hardware watchdog The function block FB_PcWatchdog_BAPI activates a hardware watchdog on the Embedded PC. The watchdog can be used to automatically restart systems that have entered an infinite loop or where the PLC has stopped. The watchdog is activated with bExecute = TRUE and nWatchdogTimeS >= 1s. Once the watchdog has been activated, the function block must be called cyclically and at shorter intervals than nWatchdogTimeS, because the Embedded PC automatically restarts if the set time is less than nWatchdogTimeS. -
Page 52: Novram
NOVRAM NOVRAM The NOVRAM can be used to reliably save important variable values, such as production data or counter values, in the event of a power failure. The memory size of the NOVRAM is limited and only suitable for smaller data quantities up to 63 kB. In this chapter we show you how the NOVRAM is used in TwinCAT 3. -
Page 53: Creating And Linking Variables
NOVRAM Creating and linking variables Once you have created a Retain Handler in TwinCAT, you can declare variables in the PLC and link them to the Retain Handler. The variables have to be identified in the PLC with the keyword VAR_RETAIN. Prerequisite for this step: •... - Page 54 NOVRAM 4. Under Retain Hdl, select the Retain Handler that you have created. ð After selecting a Retain Handler as a target, the symbols in the tree view are linked and a mapping is created. In the tree view the variables are created from the PLC under the Retain Handler and linked to the variables from the PLC instance.
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Page 55: Writing Speed Of The Retain Handler
NOVRAM Writing speed of the Retain Handler The Retain Handler takes a certain amount of time to search for changes (delta function) in the variables and save them in the NOVRAM. The following diagrams provide an overview of how long the Retain Handler needs to save a particular data quantity in the NOVRAM. -
Page 56: Deleting Variables Under The Retain Handler
NOVRAM Deleting variables under the Retain Handler If variables are deleted from the PLC, the link with the Retain Handler is cancelled. However, the variables continue to be shown under the Retain Handler and are not deleted automatically. Under TwinCAT 3 the variables have to be deleted manually. Prerequisites for this step: •... -
Page 57: 1-Second Ups (Persistent Variables)
1-second UPS (persistent variables) 1-second UPS (persistent variables) Loss of data Use only TwinCAT to control the 1-second UPS and save only persistent data with a maximum size of 1 MB. Use beyond this may result in data loss or corrupt data. The 1-second UPS is an UltraCap capacitor that continues to supply the processor with power in the event of a power failure. - Page 58 Always call the function block from the PLC and always use the fastest task to do so. In the case of a power failure Beckhoff recommends not calling the rest of the application in order to ensure that sufficient time remains for writing the data.
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Page 59: Bios Settings
1-second UPS (persistent variables) Fig. 29: Loading a backup of the persistent data. Settings in TwinCAT 3. The backup files will be deleted if the option Clear Invalid Persistent Data is activated. Corresponds to registry entry 1. Documents about this 2 ups_example.pro (Resources/pro/1937303563.pro) BIOS settings The 1-second UPS can be switched on or off via the BIOS. -
Page 60: Fb_S_Ups_Bapi
1-second UPS (persistent variables) Advanced Bootloader version 1.00-23 Enables/disables the UPS Firmware version 1.00-77 Mainboard serial no 120003414250178 Mainboard Prod. Date (Week.Year) 44.14 Mainboard BootCount 4711 Mainboard operation time 1224 min (20 h) Voltage (Min/Max) 5.00 V / 5.20 V Temperature (Min/Max) 15 °C / 63 °C USB-Port voltage [Off in S3-5] Watchdog timer mode... - Page 61 1-second UPS (persistent variables) The function block FB_S_UPS_BAPI can be used on devices with 1-second UPS and with BIOS-API from version v1.15, in order to control the 1-second UPS from the PLC. When the function block is first called, the data for accessing the 1-second UPS are determined via BIOS- API.
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Page 62: Data Types
1-second UPS (persistent variables) Name Type Description sNetID T_AmsNetId AmsNetID of the controller iPLCPort UINT Port number of the PLC runtime system (851 for the first PLC runtime system, 852 for the second PLC runtime system, etc.). If you do not specify a port number, the function block then automatically determines the port of the PLC runtime system. -
Page 63: Checking The Validity Of The Variables
1-second UPS (persistent variables) E_S_UPS_State The internal state of the function block can be read with E_S_UPS_State. eSUPS_PowerOK: in all modes: Power supply is OK eSUPS_PowerFailure: in all modes: Power supply is faulty (only shown for one PLC cycle) eSUPS_WritePersistentData: in mode eSUPS_WrPersistData_Shutdown: Writing of persistent data is active in mode eSUPS_WrPersistData_NoShutdown: Writing of persistent data is active eSUPS_QuickShutdown: in mode eSUPS_WrPersistData_Shutdown: QuickShutdown ist active in Mode eSUPS_ImmediateShutdown: QuickShutdown is active eSUPS_WaitForRecover: in mode eSUPS_WrPersistData_NoShutdown: Wait for the reestablishment of the power supply in mode eSUPS_CheckPowerStatus: Wait for the reestablishment of the power supply eSUPS_WaitForPowerOFF: in mode eSUPS_WrPersistData_Shutdown: Wait for switching off of the PC by the UPS in mode eSUPS_ImmediateShutdown: Wait for switching off of the PC by the UPS Checking the validity of the variables For TwinCAT 2 the implicit structure Systeminfotype.bootDataFlags can be read in order to determine the validity of the persistent data (see: SYSTEMINFOTYPE [} 63]). - Page 64 A registry setting can be used to determine whether the backup file is deleted or used. The backup file is used by default (setting 0). If the backup file is to be deleted, the value of "ClearInvalidRetainData" or "ClearInvalidPersistentData" must be set to 1 in the registry under: [HKEY_LOCAL_MACHINE\SOFTWARE\Beckhoff\TwinCAT\Plc] "ClearInvalidRetainData"=dword:00000000 "ClearInvalidPersistentData"=dword:00000000 the value of "ClearInvalidRetainData"...
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Page 65: Plcappsysteminfo
1-second UPS (persistent variables) Development environment Target platform PLC libraries to be linked TwinCAT v2.7.0 PC or CX (x86) PLCSystem.Lib TwinCAT v2.8.0 PC or CX (x86) TcSystem.Lib TwinCAT v2.10.0 Build >= 1301 CX (ARM) TcSystem.Lib 9.4.2 PlcAppSystemInfo Each PLC contains an instance of type 'PlcAppSystemInfo' with the name '_AppInfo'. The corresponding namespace is 'TwinCAT_SystemInfoVarList'. -
Page 66: Error Handling And Diagnostics
Error handling and diagnostics Error handling and diagnostics 10.1 Diagnostic LEDs Display Meaning Power supply The power LED lights green if the device is connected to a power supply unit and the unit is switched on. Bootloader is started and runs without errors (the colors red and yellow light up for one second). -
Page 67: Table 28 K-Bus Err Led, Fault Description And Troubleshooting
Error handling and diagnostics Table 28: K-BUS ERR LED, fault description and troubleshooting. Error code Error code argu- Description Remedy ment Persistent, EMC problems. • Check power supply for undervoltage or continuous overvoltage peaks. flashing • Implement EMC measures. • If a K-bus error is present, it can be localized by a restart of the power supply (by switching it off and then on again) 3 pulses... -
Page 68: Table 29 Description Of The State Variable Values
Error handling and diagnostics State variable In TwinCAT there is a State variable under the Bus Coupler for K-bus diagnostics. Fig. 30: Status variable for error handling and diagnostics under TwinCAT. If the value is "0", the K-bus operates synchronous and without error. If the value is <> "0" there may be a fault, or it may only be an indication that the K-bus cycle is longer than the task. -
Page 69: E-Bus
Error handling and diagnostics 10.1.2 E-bus The power supply unit checks the connected EtherCAT Terminals. The "L/A" LED is lit in E-bus mode. The "L/A" LED flashes during data transfer. Table 30: Diagnostic LEDs in K-Bus mode. Display Meaning Us 24 V Power supply for basic CPU module. -
Page 70: Faults
6. Any components / software used The quickest response will come from support / service in your country. Therefore please contact your regional contact. For details please refer to our website at www.beckhoff.de or ask your distribution partner. Version: 1.0... -
Page 71: Care And Maintenance
Only use original batteries and ensure that the positive and negative poles are inserted correctly. The battery must be replaced every 5 years. Spare batteries can be ordered from Beckhoff Service. A CR2032 battery (3 V, 225 mAh) is used in the Embedded PC. -
Page 72: Cleaning The Embedded Pc
Care and maintenance 11.2 Cleaning the Embedded PC CAUTION Risk of electric shock Live devices or parts can cause electric shocks. Disconnect the Embedded PC from the power supply before cleaning. Clean only the housing of the Embedded PC. Use a soft, moist cleaning cloth for this. Make sure that the ventilation slots of the device are always free and do not clog up. -
Page 73: Decommissioning
Decommissioning Decommissioning 12.1 Removing cables NOTE Electrical voltage If the power supply is switched on during dismounting, this can lead to damage to the Embedded PCs. Switch off the power supply for the Embedded PCs during dismounting. Before dismantling the Embedded PC, shut down the Embedded PC and switch off the power supply. Only then can you remove all the cables. -
Page 74: Dismantling The Embedded Pc
Decommissioning 12.2 Dismantling the Embedded PC This chapter explains how to dismantle the Embedded PC and remove it from the DIN rail. Requirements: • All cables were removed from the Embedded PC. Dismantle the Embedded PC as follows: 1. Release the DIN rail mounting by pushing the latches outwards with a screwdriver. 2. -
Page 75: Technical Data
Technical data Technical data Table 31: Technical data, dimensions and weights. CX5110-01xx-9020 Dimensions (W x H x D) 102 mm x 100 mm x 92 mm Weight approx. 760 g Table 32: Technical data, general data. Technical data CX5110-01xx-9020 ® Processor Intel Atom E3815 1.20 GHz Number of cores Main memory... -
Page 76: Table 34 Technical Data, Environmental Conditions
Technical data Table 34: Technical data, environmental conditions. Technical data Description Ambient temperature -25 °C ... +60 °C during operation Ambient temperature -40 °C ... +85 °C during storage see notes under: Transport and storage [} 11] Relative humidity 95 % no condensation Vibration resistance 10 frequency sweeps, in 3-axis 10 Hz <... -
Page 77: Appendix
Appendix Appendix 14.1 Accessories Table 38: Options. Order number Description CX5110-U900 Option only for CX5110-01xx-9020, internal capacitive 1-second UPS for safe storage of persistent application data on the MicroSD card Table 39: MicroSD cards. Order number Description CX1900-0122 512 MB MicroSD card CX1900-0124 1 GB MicroSD card CX1900-0126 2 GB MicroSD card... -
Page 78: Certifications
Appendix 14.2 Certifications FCC Approvals for the United States of America FCC: Federal Communications Commission Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. -
Page 79: Support And Service
Please contact your Beckhoff branch office or representative for local support and service on Beckhoff products! The addresses of Beckhoff's branch offices and representatives round the world can be found on our internet page: www.beckhoff.com You will also find further documentation for Beckhoff components there. -
Page 80: List Of Tables
Table 19 PROFINET RT interface, pin assignment..................Table 20 Required conductor cross-sections and strip lengths..............Table 21 Access data for the Beckhoff Device Manager on delivery............Table 22 Access data for the Beckhoff Device Manager on delivery............Table 23 Key for the tree view........................ - Page 81 List of figures List of figures Fig. 1 Example: CX5110-01xx-9020 Embedded PC................Fig. 2 Name plate example........................Fig. 3 Nomenclature for the CX5110-01xx-9020 Embedded PC............Fig. 4 USB interfaces (X100, X101, X102, X103).................. Fig. 5 Ethernet interfaces X000, X001....................Fig.
- Page 83 More Information: www.beckhoff.com/CX5110-01xx-9020 Beckhoff Automation GmbH & Co. KG Hülshorstweg 20 33415 Verl Germany Phone: +49 5246 9630 info@beckhoff.com www.beckhoff.com...