Page 1
Products Solutions Services BA00282R/09/EN/13.14 71258848 SW version 1.00.zz Operating Instructions RID14 Field Indicator ™ with FOUNDATION Fieldbus - protocol...
Page 2
How to find the documentation for your device RID14 How to find the documentation for your device Order code 00X00-XXXX0XX0XXX Ser. No.: X000X000000 TAG No.: XXX000 Serial number www.endress.com/deviceviewer Endress+Hauser Operations App Endress+Hauser...
Page 3
RID14 Brief overview Brief overview For quick and easy commissioning: Safety instructions → ä 7 ▾ Installation instructions → ä 11 ▾ Wiring → ä 14 ▾ Display and operating elements → ä 23 Information on configuration and operating programs from other manufacturers.
RID14 Document information Document information Document function These Operating Instructions contain all the information that is required in various phases of the life cycle of the device: from product identification, incoming acceptance and storage, to mounting, connection, operation and commissioning through to troubleshooting, maintenance and disposal.
Page 6
Document information RID14 1.2.3 Symbols for certain types of information Symbol Meaning Permitted Indicates procedures, processes or actions that are permitted. A0011182 Preferred Indicates procedures, processes or actions that are preferred. A0011183 Forbidden Indicates procedures, processes or actions that are forbidden.
Conversions to the device Unauthorized modifications to the device are not permitted and can lead to unforeseeable dangers. ‣ If, despite this, modifications are required, consult with Endress+Hauser. Repair To ensure continued operational safety and reliability, ‣ Carry out repairs on the device only if they are expressly permitted.
If a plastic transmitter housing is permanently exposed to certain steam and air mixtures, this can damage the housing. ‣ If you are unsure, please contact your Endress+Hauser Sales Center for clarification. ‣ If used in an approval-related area, observe the information on the nameplate.
Compare the order code on the nameplate of the device to that on the delivery papers. Made in Germany 2013 RID14 D-87484 Nesselwang Order code: RID14-XXXX/X Ser. no.: XXXXXXXXXXX Ext. ord. cd.: RID14-XXXXX 9 - 32 V IP66/67 Type 4X Ta = -40 ...+55/70/80°C FW: 1.00.00-[1...1] DevRev: X a0012565 Fig.
Identification RID14 3.3.1 Certification Foundation Fieldbus™ The field indicator has successfully passed all the tests and is certified and registered by the Fieldbus Foundation. The device meets all the requirements of the following specifications: • Certified in accordance with FOUNDATION Fieldbus™ specification •...
RID14 Installation Installation Incoming acceptance, transport, storage The permitted ambient and storage conditions must be observed. The precise specifications can be found in Section "Technical data". 4.1.1 Incoming acceptance On receipt of the goods, check the following points: • Are the packaging or contents damaged? •...
Installation RID14 4.2.2 Installation location Information on conditions that must be present at the installation location to mount the device correctly can be found in Section ' T echnical data' . These include the ambient temperature, degree of protection, climate class etc.
RID14 Installation a0011258 Fig. 4: Mounting the field indicator on a pipe with mounting bracket for pipe diameter 1.5-2.2" Mounting kit, consisting of: Mounting plate Mounting bracket 2 nuts M6 Post-installation check After installing the device, always run the following final checks:...
Wiring RID14 Wiring WARNING Danger of explosion if unit is connected incorrectly in hazardous area ‣ When connecting Ex-approved devices please take special note of the instructions and connection schematics in the Ex-specific supplement to these Operating Instructions. The local E+H representative is available for assistance if required.
RID14 Wiring 5.1.1 Quick wiring guide Terminal assignment ESD - electrostatic discharge Protect the terminals from electrostatic discharge. Failure to observe this may result in destruction or malfunction of parts of the electronics. FOUNDATION Fieldbus a0012569 Fig. 6: Terminal assignment...
Page 16
Fieldbus connector Optionally, a fieldbus connector can be installed in field housing instead of a cable gland. Fieldbus connectors can be ordered from Endress+Hauser as an accessory (see Section 8 ' A ccessories' ) . The connection technology of FOUNDATION Fieldbus™ allows measuring devices to be connected to the fieldbus via uniform mechanical connections such as T-boxes, junction boxes, etc.
RID14 Wiring a0012573 Fig. 8: Connectors for connecting to the FOUNDATION Fieldbus™ Fieldbus connector – 1 Blue wire: FF– (terminal 2) – 2 Brown wire: FF+ (terminal 1) – 3 Gray wire: shielding – 4 Green/yellow wire: ground Field indicator Connector technical data: •...
Page 18
Wiring RID14 Type A Type B Characteristic impedance at 100 Ω ± 20% 100 Ω ± 30% 31.25 kHz Attenuation constant at 39 kHz 3 dB/km 5 dB/km Capacitive asymmetry 2 nF/km 2 nF/km Envelope delay distortion (7.9 to 1.7 ms/km...
Page 19
RID14 Wiring 5.3.5 Shielding and grounding Optimum electromagnetic compatibility (EMC) of the fieldbus system can only be guaranteed if the system components and, in particular, the lines are shielded and the shield forms as complete a cover as possible. • To ensure an EMC protective effect, connect the shield as often as possible to the reference ground.
Wiring RID14 5.3.6 Bus termination The start and end of each fieldbus segment are always to be terminated with a bus terminator. With various junction boxes (non-Ex), the bus termination can be activated via a switch. If this is not the case, a separate bus terminator must be installed. Note the following points in addition: •...
RID14 Wiring Post-connection check After the electrical installation of the device, always perform the following final checks: Device condition and specifications Notes Are the indicator or the cables damaged (visual check)? Electrical connection Notes Does the supply voltage match the specifications on the nameplate?
Operating the field indicator RID14 Operating the field indicator Quick operation guide You have a number of options for configuring and commissioning the device: 1. Configuration programs The configuration of FF functions and device-specific parameters is done via the fieldbus interface.
RID14 Operating the field indicator Display and operating elements 6.2.1 Display a0012574 Fig. 11: LC display of the field indicator Item 1: bar graph display in increments of 10% with indicators for underranging (item 1a) and overranging (item 1b) Item 2: measured value display, digit height 26 mm (1.02"), status indication "Bad measured value status"...
Page 24
Operating the field indicator RID14 Field controller Visualization and monitoring e. g. P View, FieldCare and diagnostic software High speed Ethernet (HSE) 100 Mbit/s Linking Linking Linking 31.25 kbit/s Device Device Device H1 IEC 61158-2 FISCO 0 - 10 bar...
Page 25
RID14 Operating the field indicator 6.3.2 Link Active Scheduler (LAS) The FOUNDATION Fieldbus™ works according to the ' p roducer-consumer' relationship. This provides various advantages. Data can be directly exchanged between field devices, e.g. a sensor and an actuating valve.
Operating the field indicator RID14 6.3.5 Function blocks The FOUNDATION Fieldbus™ uses predefined function blocks to describe the functions of a device and to specify uniform data access. The function blocks implemented in each fieldbus device provide information on the tasks which a device can accept in the whole of the automation strategy.
RID14 Operating the field indicator Process control systems Asset management systems Endress+Hauser ControlCare National Instruments NI-Configurator (≥ 3.1.1) Emerson DeltaV Emerson AMS and Handheld FC375 Rockwell Control Logix/FFLD Honeywell PKS Experion Yokogawa Centum CS3000 These can be used for configuring both the FF functions and all of the device-specific parameters.
ID, device type and device serial number. It is unique and can never be assigned twice. The DEVICE_ID of the device is composed as follows: DEVICE_ID = 452B4810CF-XXXXXXXXXXX 452B48 = Endress+Hauser 10CF = RID1x XXXXXXXXXXX = device serial number (11-digit)
Page 29
Switch the device on. The first time you establish a connection, the device reacts as follows in the configuration system: – EH_RID14-xxxxxxxxxxx (tag name PD-TAG for RID14) or EH_RID16-xxxxxxxxxxx (tag name PD-TAG for RID16) – 452B4810CF-xxxxxxxxxxx (DEVICE_ID) – Block structure:...
Page 30
Using the DEVICE_ID noted, identify the field device and assign the desired tag name (PD_TAG) to the fieldbus device in question. Factory setting: EH_RID14-xxxxxxxxxxx (for RID14, xxx... = serial number) or EH_RID16-xxxxxxxxxxx (for RID16, xxx... = serial number). Configuring the "Resource Block" (base index 400) Open the Resource Block.
Page 31
RID14 Commissioning For this purpose, configuration software, e.g. NI-FBUS Configurator from National Instruments, is used to connect the function blocks to the desired control strategy (mostly using graphic display) and then the time for processing the individual process control functions is specified.
Maintenance RID14 Maintenance No special maintenance work is required on the device. Accessories Various accessories, which can be ordered separately from your supplier, are available for the device. Detailed information on the order code in question can be obtained from your service organization.
In the event of a serious fault, an indicator might have to be returned to the manufacturer for repair. Follow the instructions in → Chap. 10.4 before returning the indicator to Endress+Hauser. Check local display No display visible - No 1.
Trouble-shooting RID14 Transducer Blocks: The device description file (Device Description, DD) has not yet been loaded to The manufacturer-specific the host system or the configuration program? → Download the file to the parameters are not visible. configuration system. For information on where to obtain the DD, → ä 26 Make sure you are using the correct system files for integrating field devices into the host system.
Page 35
RID14 Trouble-shooting Cate Status messages Display symbol Cause of error / remedy gory – CURRENT_STATUS_ NUMBER in the 'Advanced Diagnostics' Transducer Block – Local display Device status message No bargraph displayed Cause of error: (FF): Electronic board Error in the electronics.
3x NPT 1/2" without terminal block 3x M20x1.5 without terminal block 3x thread G1/2" without terminal block Version: Standard RIA141G- ⇐ Order code cpl. RID14 housing Item no. Designation Order number Housing cover, alu Ex d + sealing RIA141X-HK Housing cover cpl. display aluminum + sealing RIA141X-HL Housing cover cpl.
RID14 Trouble-shooting 10.4 Return For later reuse or to return the device to the service organization of your supplier, the device must be packed in such a way as to protect it from impact and damage. The original packaging material offers the best protection here.
Technical data RID14 Technical data 11.0.1 Communication • FOUNDATION Fieldbus™ H1, IEC 61158-2 • FDE (Fault Disconnection Electronic) = 0 mA • Data transmission rate: supported baud rate = 31.25 kBit/s • Signal coding = Manchester II • LAS (link active scheduler), LM (link master) function is supported: Thus, the indicator can assume the function of a link active scheduler (LAS) if the current link master (LM) is no longer available.
Page 39
RID14 Technical data Publisher VCRs Link settings Slot time Min. inter PDU delay Max. response delay Blocks Block description Block index Permanent Block execution time Block class Resource Extended Display Transducer Manufacturer- Advanced Diagnostic specific 100 ms Manufacturer- Input Selector 1...
Page 40
Technical data RID14 11.0.2 Power supply Electrical connection a0011303 Fig. 15: Terminal assignment of the field display unit. Supply voltage Voltage is supplied via the fieldbus. U = 9 to 32 V DC, polarity-independent (max. voltage U = 35 V).
Page 41
RID14 Technical data Altitude Up to 4000 m (13100 ft.) above mean sea level in accordance with IEC 61010-1, CSA 1010.1-92 Climate class According to IEC 60654-1, Class C Humidity • Condensation permitted as per IEC 60 068-2-33 • Max. rel. humidity: 95% as per IEC 60068-2-30 Degree of protection IP 67.
Page 42
Technical data RID14 132 (5.2) 112 (4.4) 106 (4.2) 121 (4.8) 166 (6.5) a0011152 Fig. 16: Dimensions in mm (dimensions in inches in brackets) • Aluminum housing for general applications, or optional stainless steel housing • Electronics compartment and terminal compartment together in the single-chamber housing •...
Page 43
Rockwell Control Logix/FFLD Honeywell PKS Experion Yokogawa Centum CS3000 11.0.7 Certificates and approvals CE mark The device meets the legal requirements of the EC directives. Endress+Hauser confirms that the device has been successfully tested by applying the CE mark. Endress+Hauser...
Page 44
Technical data RID14 Ex-approval Information about currently available Ex versions (ATEX, FM, CSA, etc.) can be supplied by your E+H Sales Center on request. All explosion protection data are given in a separate documentation which is available upon request. Other standards and guidelines •...
RID14 Operation via FOUNDATION™ Fieldbus Operation via FOUNDATION™ Fieldbus 12.1 Block model In the FOUNDATION™ Fieldbus all the device parameters are categorized according to their functional properties and task and are generally assigned to three different blocks. A block may be regarded as a container in which parameters and the associated functionalities are contained.
Page 46
Operation via FOUNDATION™ Fieldbus RID14 12.2.1 Selecting the operating mode The operating mode is set by means of the MODE_BLK parameter group. The Resource Block supports the following operating modes: • AUTO (automatic mode) • OOS (out of service) The ' O ut of Service' (OOS) operating mode is also displayed by means of the BLOCK_ERR parameter.
Page 47
RID14 Operation via FOUNDATION™ Fieldbus 12.2.5 Resource Block FF parameters The following table shows all the specified FOUNDATION™ Fieldbus parameters of the Resource Block. Resource Block Parameter Parameter Write access with Description Index operating mode (MODE_BLK) Acknowledge Option AUTO - OOS...
Page 48
Operation via FOUNDATION™ Fieldbus RID14 Resource Block Parameter Parameter Write access with Description Index operating mode (MODE_BLK) Cycle Type Read only Displays the block execution method supported by the device. (CYCLE_TYPE) Display: SCHEDULED Timed block execution method BLOCK EXECUTION Sequential block execution method...
Page 49
Manufacturer ID Read only Displays the manufacturer' s ID number. (MANUFAC_ID) Display: 0 x 452B48 = Endress+Hauser Max Notify Read only Displays the maximum number of event reports supported by the device (MAX_NOTIFY) that can exist unconfirmed at the same time.
Page 50
Operation via FOUNDATION™ Fieldbus RID14 Resource Block Parameter Parameter Write access with Description Index operating mode (MODE_BLK) Nonvolatile Cycle Time Read only Displays the time interval for which the dynamic device parameters are (NV_CYCLE_T) stored in the nonvolatile memory. The time interval displayed relates to storage of the following dynamic device parameters: •...
Page 51
RID14 Operation via FOUNDATION™ Fieldbus Resource Block Parameter Parameter Write access with Description Index operating mode (MODE_BLK) Shed Remote Cascade AUTO - OOS Specifies the monitoring time for checking the connection between the (SHED_RCAS) fieldbus host system and a function block in the RCAS operating mode.
Operation via FOUNDATION™ Fieldbus RID14 Resource Block Parameter Parameter Write access with Description Index operating mode (MODE_BLK) Write Priority AUTO - OOS Specifies the behavior of a write protected alarm ("WRITE_ALM" (WRITE_PRI) parameter). User input: The write protection alarm is not evaluated.
Page 53
RID14 Operation via FOUNDATION™ Fieldbus 12.3.3 Transducer Block FF parameters The following table lists all the specified FOUNDATION Fieldbus parameters of the Transducer Blocks. The device specific parameters are described from page 56ff. Transducer Block (FF parameters) Parameter Parameter Write access with...
Page 54
Operation via FOUNDATION™ Fieldbus RID14 Transducer Block (FF parameters) Parameter Parameter Write access with Description Index operating mode (MODE_BLK) Block Error Read only The active block errors appear on the display. (BLOCK_ERR) Display: OUT OF SERVICE The block is in the "out of service" operating mode.
Page 55
RID14 Operation via FOUNDATION™ Fieldbus 12.3.4 Transducer Block “Display” The Display Transducer Block contains all necessary parameters to configure the display function. Also the Listener Mode is activated via this Transducer Block! Transducer Block “DISPLAY” (E+H parameters) Parameter Parameter Write access with...
Page 56
Operation via FOUNDATION™ Fieldbus RID14 Transducer Block “DISPLAY” (E+H parameters) Parameter Parameter Write access with Description Index operating mode (MODE_BLK) DISP_VALUE_1[...8]_LISTENER_VALUE_SELECT: After selecting a publisher’s address in parameter "Listener device", the device shows the first published value on the display. You can select the next published value by choosing "Next value".
Page 57
RID14 Operation via FOUNDATION™ Fieldbus Transducer Block “DISPLAY” (E+H parameters) Parameter Parameter Write access with Description Index operating mode (MODE_BLK) DISP_VALUE_1[...8]_FORMAT: Number of places after decimal point for the display. Available parameters are: • Auto (the device automatically sets the position of the decimal point to fill all 5 digits of the display) •...
Page 58
Operation via FOUNDATION™ Fieldbus RID14 Transducer Block “ADVANCED DIAGNOSTIC” (E+H parameters) Parameter Parameter Write access with Description Index operating mode (MODE_BLK) F437 • Input Selector 1 is not instantiated, but used as source • Input Selector 2 is not instantiated, but used as source •...
RID14 Operation via FOUNDATION™ Fieldbus 12.4 PID function block (PID controller) A PID function block contains the input channel processing, the proportional integral- differential control (PID) and the analog output channel processing. The configuration of the PID function block depends on the automation task. The following can be realized: Basic controls, feed forward control, cascade control, cascade control with limiting.