Endress+Hauser RIA452 Operating Instructions Manual
  1. Manuals
  2. Brands
  3. Endress+Hauser Manuals
  4. Control Panel
  5. RIA452
  6. Operating instructions manual

Endress+Hauser RIA452 Operating Instructions Manual

Panel meter
Hide thumbs Also See for RIA452:
Table of Contents

Advertisement

Quick Links

See also: Technical Information , Operating Instructions Manual
BA00265R/09/EN/13.13
71212732
Software version
2.01.xx
Products

Operating Instructions

RIA452
Panel meter
Solutions
RIA452
Endress+Hauser
2573
m³/min
Services

Advertisement

Table of Contents
loading

Related Manuals for Endress+Hauser RIA452

Summary of Contents for Endress+Hauser RIA452

  • Page 1: Operating Instructions

    Products Solutions Services BA00265R/09/EN/13.13 71212732 Software version 2.01.xx Operating Instructions RIA452 Panel meter RIA452 Endress+Hauser 2573 m³/min...
  • Page 2 Display and operating elements → ä 17 ▾ Commissioning → ä 20 Device configuration - explanation and use of all the configurable device functions with the associated value ranges and settings. Block circuit diagram G09-RIA452xx-05-00-xx-en-000 Fig. 1: RIA452 block circuit diagram Endress+Hauser...

  • Page 3: Table Of Contents

    RIA452 Table of Contents Safety instructions ....4 Appendix ......55 Designated use .

  • Page 4: Safety Instructions

    Safety instructions RIA452 Safety instructions Safe operation of the panel meter is only guaranteed if these Operating Instructions have been read and the safety instructions have been observed. Designated use The panel meter analyzes analog process variables and depicts them on its multicolored display.

  • Page 5: Notes On Safety Conventions And Icons

    RIA452 Safety instructions Notes on safety conventions and icons Always refer to the safety instructions in these Operating Instructions labeled with the following symbols: Symbol Meaning WARNING! This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in serious or fatal injury.

  • Page 6: Identification

    Identification RIA452 Identification Device designation 2.1.1 Nameplate Compare the nameplate on the device with the following diagram: G09-RIA452xx-18-00-xx-xx-000 Fig. 2: Nameplate of the panel meter (example) Order code and serial number of the deviceTab/ Power supply Software version number Ambient temperature...

  • Page 7: Certificates And Approvals

    RIA452 Installation Certificates and approvals CE mark, declaration of conformity The panel meter is designed to meet state-of-the-art safety requirements, has been tested and left the factory in a condition in which it is safe to operate. The device meets the relevant standards and directives as per IEC 61 010-1 "Safety requirements for electrical equipment...
  • Page 8 Installation RIA452 G09-RIA452xx-17-01-06-xx-001 Fig. 3: Installation in panel Push the device with the sealing ring (item 1) through the panel cutout from the front. Keep the device horizontal and suspend the two fixing clips (item 2) in the recesses provided.

  • Page 9: Wiring

    RIA452 Wiring Wiring Quick wiring guide G09-RIA452ZZ-04-01-xx-en-000 Fig. 4: Terminal assignment of the panel meter (universal input → Page 11) Terminal assignment Termin Terminal assignment Type L/L+ L for AC L+ for DC Power supply N/L- N for AC L- for DC...
  • Page 10 Wiring RIA452 Termin Terminal assignment Type 24 V sensor power supply 1 Transmitter power supply (optionally intrinsically safe) Ground, sensor power supply 1 Normally closed (NC) Common (COM) Relay 1 Normally open (NO) Normally closed (NC) Common (COM) Relay 2...
  • Page 11 RIA452 Wiring Termin Terminal assignment Type + analog output Analog output (optional) Ground, analog output + digital output Digital output (optional) Ground, digital output 24 V sensor power supply 2 Transmitter power supply Ground, sensor power supply 2 Universal input option The device can be optionally equipped with a universal input instead of a current input.

  • Page 12: Connecting The Device

    Wiring RIA452 Connecting the device CAUTION Danger through electric tension ‣ Do not install or wire the device when it is connected to the power supply. 4.2.1 Connecting the power supply NOTICE Damage to device through wrong supply voltage ‣...

  • Page 13: Post-Connection Check

    RIA452 Wiring Universal input G09-RIA452xx-04-10-xx-en-003 Fig. 8: Connection of the four-wire sensor, transmitter power supply and universal input Post-connection check Device condition and specifications Notes Is the device or cable damaged (visual inspection)? Electrical connection Notes Does the supply voltage match the specifications on the nameplate?

  • Page 14: Operation

    Operation RIA452 Operation Quick operation guide Analog input Signal type Connection type* Curve Signal damping INPUT Signal type Connection Curve Damp Dimension Decimal point 0% value 100% value Dimension Dec. point 0% value 100% value Offset Comparat. Fixed comparat. Open circuit temperature* temp.*...
  • Page 15 RIA452 Operation M10- Limit 1-4 (8)* Assignment Function 1-4 (8) Decimal point Switch point A Switch point B LIMIT Ref. num Function Dec. point Setpoint A Setpoint B Hysteresis or switch- Switching delay 1-4 Alternate function Delay for 1st Switch-on period...
  • Page 16 Operation RIA452 Min/Max memory Signal source for Decimal point Display minimum MIN/MAX Min/Max value Ref. min/max Dec. point Min. value Display maximum Reset minimum Reset maximum value vaule value Max. value Reset min Reset max Linearizationtable Number of support Dimension of...

  • Page 17: Display And Operating Elements

    RIA452 Operation Display and operating elements Remove the protective strip from the display as this restricts display legibility otherwise. 5.2.1 Display Range Display Relay Analog output Integration Input current is Display " " Fault condition Set failsafe mode No integration...

  • Page 18: Local Operation

    Operation RIA452 Digital input status display Digital input configured: (green) Signal at digital input: (yellow) Information on troubleshooting can be found in Sections 9.1 and 9.2 of the Operating Instructions. Local operation Operating menu activated by pressing the jog/shuttle dial for 3 seconds at least.
  • Page 19 RIA452 Operation Item Description Activate the operating menu by pressing the jog/shuttle dial for at least 3 seconds. The first character then starts flashing. You can change the flashing (selected) character by turning the jog/shuttle dial (see "Possible characters" in the next paragraph). You can go back to the previous character by selecting the back symbol (arrow to left).

  • Page 20: Commissioning

    Commissioning RIA452 Commissioning Function check Make sure that all post-connection checks have been carried out before you commission your device: • Checklist Section 4.3 ' P ost-connection check' Remove the protective strip from the display as this restricts display legibility otherwise.
  • Page 21 RIA452 Commissioning Function Parameter setting Description (menu item) Signal type PT50 (GOST) (*) Selects the signal type of the connected sensor. PT100 (IEC751) (*) Parameters marked with an asterisk (*) can only be PT100 (JIS1604) (*) selected with the universal input option.
  • Page 22 Commissioning RIA452 Adjusting the analog input The input can be adjusted to the sensor with the aid of the following parameters. For current, voltage and resistance sensors, a scaled value is calculated from the sensor signal. For temperature outputs, the scaled value is calculated from linearization tables. The temperature value can be converted to degrees Celsius, degrees Fahrenheit or Kelvin.
  • Page 23 RIA452 Commissioning Function Parameter setting Description (menu item) Bar rise Right Bar graph orientation. Left • Right = 100% value (rising from left to right) • Left = 100% value left (falling from left to right) 6.3.3 Analog output - ANALOG OUT/M3 This item is only available if the "Analog output"...
  • Page 24 Commissioning RIA452 Function Parameter setting Description (menu item) Simu mA Simulates the current output and outputs the selected 0.0 mA current at the output, regardless of the input value. 3.6 mA Is automatically set to OFF when the Simu mA menu 4 mA item is exited.
  • Page 25 RIA452 Commissioning Pump monitoring function The digital inputs 1 to 4 are permanently assigned to relays 1 to 4 for the pump monitoring function. This function is activated for the relevant digital input using the Function parameter. Pump must be selected here.
  • Page 26 Commissioning RIA452 G09-RIA452ZZ-16-10-xx-en-007 Event 1 shows uninterrupted operation of pump 1. Pump 1 is activated upon request due to a limit value violation. The status signal at DI1, which changes within T, indicates that the pump is operating correctly, pump 1 continues pumping.
  • Page 27 RIA452 Commissioning Function Parameter setting Description (menu item) Ref. num. Input Selects which value is used: Lin. table • Input: scaled value from analog input • Lin. table = value from linearization table or current flow rate for calculation of channel Function Selects limit value and fault monitoring.
  • Page 28 Commissioning RIA452 Function Parameter setting Description (menu item) Reset Resets the run time and switching frequency for this limit value. Simu relay Simulation of the selected limit value. Is automatically set to Off when the menu item is exited. High...
  • Page 29 RIA452 Commissioning Menu Function (menu item) Setting value LIMIT 1 to 8/M10 to 17 Function Setpoint A Value for threshold Hysteresis Value for hysteresis Grad operating mode G09-RIA452ZZ-15-00-xx-en-006 Fig. 16: Grad operating mode The "Grad" operating mode is used for monitoring the changes in the input signal over time.
  • Page 30 Commissioning RIA452 • Bus error reading the relay data after power-up (E105) The relay remains picked up even after acknowledging. • Universal card HW error (E106) The relay remains picked up even after acknowledging. • Pulse buffer overflow (E210) The relay is de-energized after acknowledgement.
  • Page 31 RIA452 Commissioning If power is switched off, the time for the 24-hour activation function starts again. The following parameters must be configured for the example above: Menu Function (menu item) Setting value LIMIT Sw. period Activation duration Sw. delay Activation delay...
  • Page 32 Commissioning RIA452 Relays not included in alternating pump control are available. This function cannot be applied to individual relays. Relays not included are not assessed based on the switch-on and switch-off duration. The following parameters must be configured for the example above:...
  • Page 33 RIA452 Commissioning Function Parameter Description (menu setting item) Totalizer 9999999 In this position, the totalizer can be displayed and edited (e.g. assigned a default value). The counter starts again at 0 if the maximum value of 9999999 is exceeded. Reset total Reset totalizer ®...
  • Page 34 Commissioning RIA452 Function Parameter Description (menu setting item) Flumes weir Kha Venturi Kha-Venturi = Khafagi-Venturi channels ISO Venturi ISO Venturi = ISO-Venturi channels BST Venturi BST Venturi = Venturi channels as per British Standard Parshall Parshall = Parshall channels Palmer-Bow...
  • Page 35 RIA452 Commissioning Function Parameter Description (menu setting item) Palmer-Bow. Palmer-Bowlus channels 6" 6" = Palmer-Bowlus channel 6 in 8" 8" = Palmer-Bowlus channel 8 in 10" 10" = Palmer-Bowlus channel 10 in 12" 12" = Palmer-Bowlus channel 12 in 15"...
  • Page 36 Commissioning RIA452 Integration function/totalizer With this function, the computed value from the linearization table, or of the current flow rate for channel calculation or of the analog input can be numerically integrated to create a totalizer for example. The totalizer is calculated as follows: The measuring interval is 0.1 s.
  • Page 37 RIA452 Commissioning The scaling constant C must always refer to Q in m /h, i.e. C has to be converted if Q is available in another flow unit. Examples: • Q in l/h with C = 2.11 1 l/h = 0.001 m ...
  • Page 38 Commissioning RIA452 Function Parameter setting Description (menu item) Dec. point XXXXX Number of digits after the decimal point for the min/ XXXX.X max value memory. XXX.XX XX.XXX X.XXXX Min. value 0..99999 Displays the current minimum value in the memory. Max. value 0..99999...
  • Page 39 RIA452 Commissioning Tank linearization Example: G09-RIA452ZZ-15-00-xx-xx-011 Fig. 21: Example for tank linearization You want to determine the amount of cereal filled into a silo, display this information on site and transfer it to a process control system. A 4-20 mA level sensor determines the level in...
  • Page 40 Commissioning RIA452 Menu Function (menu item) Setting value LINPOINTS 1 to 10 / M23 to 32 Each point Use point (Used) Each X value X-value (as in table above) Each Y value Y-value (as in table above) ANALOG OUT / M 3 Ref.

  • Page 41: Maintenance

    RIA452 Maintenance Function Parameter setting Description (menu item) Version V X.XX.XX Version of the device software currently installed. Func. alt. Time Setting for controlling pump rotation in alternating Count pump control. • Time = switching time of the relay • Count = switching frequency of the relay Lock time 99.9...

  • Page 42: Troubleshooting

    Troubleshooting RIA452 Troubleshooting The following section provides you with an overview of possible causes of errors to provide you with an initial troubleshooting aid. Troubleshooting instructions WARNING Explosion hazard through open device in explosion-hazardous environment ‣ In the case of Ex devices, fault diagnosis cannot be carried out on the open device as this annuls the explosion protection.

  • Page 43: Spare Parts

    Error code is shown on the display until a key cannot be increased due to number overflow is pressed. of the dependent parameters. Spare parts G09-RIA452ZZ-09-00-xx-xx-000 Fig. 22: RIA452 spare parts Item No. Name Order No. Housing front RIA452X-HA Endress+Hauser...

  • Page 44: Return

    51008587 Jumper operating lock 50033350 No Item Casing fixing clip RIA452 (1 piece) 71035359 Return For a return, e.g. in case of repair, the device must be sent in protective packaging. The original packaging offers the best protection. Repairs must only be carried out by your supplier' s service organization.

  • Page 45: Technical Data

    RIA452 Technical data Technical data 10.1 Input 10.1.1 Measured variable Current (standard) Digital inputs (standard) Current/voltage, resistance, resistance thermometer, thermocouples (universal input option) 10.1.2 Measuring ranges Current input: • 0/4 to 20 mA +10% overrange, 0 to 5 mA • Short-circuit current: max. 150 mA •...
  • Page 46 Technical data RIA452 Maximum measured error Current input: Accuracy 0.1% of full scale Resolution 13 bit Temperature drift ≤ 0.4%/10 K (≤ 0.4%/18 °F) Universal input: Input: Range: Maximum measured error of measuring range (oMR): Accuracy Current 0 to 20 mA, 0 to 5 mA, 4 to 20 mA;...
  • Page 47 RIA452 Technical data Accuracy Thermocouples Type J (Fe-CuNi), -210 to 999.9 °C (- ± (0.15% oMR +0.5 K (0.9 °F)) as of 346 to 1382 °F) (IEC584) -100 °C (-148 °F) from -100 °C (-148 °F) Type K (NiCr-Ni), -200 to 1372 °C (- ±...

  • Page 48: Power Supply

    Technical data RIA452 Voltage output Linearity 0.1% of full scale Resolution 13 bit Temperature drift ≤ 0.1%/10K (0.1%/18 °F) 10.1.5 Power supply Electrical connection G09-RIA452ZZ-04-01-xx-en-000 Fig. 23: Terminal assignment of panel meter Endress+Hauser...

  • Page 49: Output

    RIA452 Technical data Universal input option The device can be optionally equipped with a universal input instead of a current input. G09-RIA452xx-04-10-xx-en-002 Fig. 24: Universal input terminal assignment Supply voltage Low voltage power unit 90 to 250 V AC 50/60 Hz...
  • Page 50 Technical data RIA452 Load: • ≤ 600 Ω (current output) • Max. loop current 22 mA (voltage output) Signal characterization: • Signal freely scalable Galvanic isolation towards all other circuits 10.2.4 Pulse output • Frequency range to 12.5 kHz • I = 200 mA •...

  • Page 51: Installation

    RIA452 Technical data • Impedance: ≤ 345 Ω Approvals: • ATEX • FM • CSA Transmitter power supply 2, terminal 91/92: Electrical specifications: • Output voltage: 24 V ± 15% • Output current: max. 250 mA (sustained short-circuit proof) Transmitter power supply 1 and 2: Galvanic isolation •...

  • Page 52: Mechanical Construction

    Technical data RIA452 Electromagnetic compatibility (EMC) • Interference immunity: To IEC 61326 industrial environments / NAMUR NE 21 • Interference emissions: To IEC 61326 Class A 10.4 Mechanical construction 10.4.1 Design, dimensions G09-RIA452ZZ-06-01-xx-xx-000 Fig. 25: Dimensions of the panel meter G09-RIA452xx-06-01-00-en-001 Fig.

  • Page 53: Human Interface

    RIA452 Technical data 10.4.3 Material • Housing front: ABS plastic, galvanized • Housing casing: plastic PC10GF 10.4.4 Terminals Pluggable screw terminals, core size 1.5 mm (16 AWG) solid, 1.0 mm (18 AWG) strand with wire ferrule 10.5 Human interface 10.5.1...

  • Page 54: Certificates And Approvals

    10.6 Certificates and approvals 10.6.1 CE mark The device meets the legal requirements of the EU directives. Endress+Hauser confirms that the device has been tested successfully by affixing the CE mark. 10.6.2 Ex approval Information about currently available Ex versions (ATEX, FM, CSA, etc.) can be supplied by your E+H Sales Center on request.
  • Page 55 RIA452 Appendix Appendix 11.1 Flow conversion Conversion of various units to m Liter US megagallon • 1 l/s = 3.6 m • 1 USMgal/s = 13,627,481.6155 m • 1 l/min = 0.06 m • 1 USMgal/min = 227,124.6936 m • 1 l/s = 0.001 m •...
  • Page 56 RIA452 Index Numerics Digital input Parameter........24 0% value (function) .

  • Page 57: Operating Mode

    RIA452 Limit values Linearization table ......38 Parameter ........26 Min/max memory .
  • Page 58 RIA452 Input ........45 Installation.
  • Page 59 RIA452 Endress+Hauser...
  • Page 60 www.addresses.endress.com...

Table of Contents