Product information. Differential pressure. Mechanical and electronic differential pressure measurement

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Product information Mechanical and electronic differential pressure measurement VEGADIF 85 VEGABAR 8 VEGABAR 8 VEGABAR 8 VEGABAR 86 VEGABAR 87 Document ID: 65

Contents Contents Measuring principle... Type overview... Overview, mechanical differential pressure... 7 Overview, electronic differential pressure... 9 5 Selection criteria, mechanical differential pressure... 6 Selection criteria, electronic differential pressure... 7 Comparison mechanical and electronic differential pressure... 8 Housing overview... 9 Mounting, mechanical differential pressure... 5 0 Mounting, electronic differential pressure... 6 Electronics - 0 ma - two-wire... 7 Electronics - 0 ma/hart - two-wire... 8 Electronics - Profibus PA...9 Electronics - Foundation Fieldbus... 0 5 Electronics - Modbus, Levelmaster protocol... 6 Electronics - Slave... 7 Adjustment... 8 Dimensions... 5 Take note of safety instructions for Ex applications Please note the Ex specific safety information that you can find at www.vega.com and that comes with each instrument. In hazardous areas you should take note of the appropriate regulations, conformity and type approval certificates of the sensors and power supply units. The sensors must only be operated on intrinsically safe circuits. The permissible electrical values are stated in the certificate. 65-EN-8050

Measuring principle Measuring principle Mechanical differential pressure A metallic measuring cell is used as sensor element. The process pressures are transmitted via the separating diaphragms and filling oils to a piezoresistive sensor element (resistance measuring bridge using semiconductor technology). The difference between the acting pressures changes the bridge voltage. This change is measured, further processed and converted into a corresponding output signal. In addition, the measuring cell temperature and the static pressure are measured on the low pressure side. The measuring signals are further processed and are available as additional output signals. 6 µm P 6 5 P 6 Fig. : Configuration of the CERTEC measuring cell Process diaphragm Glass joint Base element In addition, the measuring cell temperatures and the static pressure are measured on the low pressure side as own value. The measuring signals are further processed and are available as additional output signals. Fig. : Configuration metallic measuring cell Filling fluid Temperature sensor Absolute pressure sensor, static pressure Overload system 5 sensor 6 Separating diaphragms Electronic differential pressure For an electronic differential pressure measurement, a slave sensor is combined with a master sensor of the VEGABAR series. The sensors are connected via a screened four-wire cable. The measured value from the slave sensor is read in and factored into the calculations. Power supply and parameter adjustment are carried out through the master sensor. M S Fig. : Principle, electronic differential pressure measurement Master sensor Slave sensor Connection Master - Slave Output signal 65-EN-8050 The sensor element is the CERTEC measuring cell with robust ceramic diaphragm. The process pressure deflects the ceramic diaphragm and causes a capacitance change in the measuring cell. This capacitance change is converted into an electrical signal and outputted as measured value via the output signal.

Type overview Type overview Mechanical differential pressure VEGADIF 85 VEGADIF 85 with chemical seal CSS VEGADIF 85 with chemical seal CSB Measuring cell Piezoresistive Piezoresistive Piezoresistive Diaphragm Metal Metal Metal Media Gases, vapours and liquids gases, vapours and liquids, also aggressive ones, at high temperatures gases, vapours and liquids, also aggressive ones, at high temperatures Process fitting NPT ¼-8 according to IEC 658 Plus side: Flanges from DN 50 or ¾" Plus and minus side: Flanges from DN 5 or ½", hygienic fittings from ½" Material Process fitting C.8, 6L, Alloy C76 (.89) 6L 6L Diaphragm material 6L, Alloy C76 (.89), Tantalum 6L, Alloy C76 (.89), Tantalum 6L, Alloy C76 (.89), Tantalum, Inconell 600, Duplex, PFA Seal FKM, EPDM - - Isolating liquid Silicone oil Silicone oil, high temperature oil, halocarbon oil, medical white oil Silicone oil, high temperature oil, halocarbon oil, medical white oil Measuring range 0.0 0 bar (0.5 580. psig) 0. 0 bar (.5 580. psig) 0. 0 bar (.5 580. psig) Smallest adjustable span mbar (0.05 psig) mbar (0.05 psig) mbar (0.05 psig) Process temperature -0 +85 C (-0 +85 F) -0 +00 C (-0 +75 F) -0 +00 C (-0 +75 F) Ambient, storage and transport temperature -0 +80 C (-0 +76 F) -0 +80 C (-0 +76 F) -0 +80 C (-0 +76 F) Smallest deviation < ±0.075 % < ±0.075 % + influence of the chemical seal Signal output 0 ma 0 ma 0 ma/hart 0 ma/hart Profibus PA Profibus PA Foundation Fieldbus Foundation Fieldbus Indication/Adjustment Approvals Modbus PLICSCOM PACTware VEGADIS 8 VEGADIS 8 ATEX SIL FM CSA EAC (GOST) Shipbuilding Overfill protection Modbus PLICSCOM PACTware VEGADIS 8 VEGADIS 8 ATEX SIL FM CSA EAC (GOST) Shipbuilding Overfill protection < ±0.075 % + influence of the chemical seal 0 ma 0 ma/hart Profibus PA Foundation Fieldbus Modbus PLICSCOM PACTware VEGADIS 8 VEGADIS 8 ATEX SIL FM CSA EAC (GOST) Shipbuilding Overfill protection 65-EN-8050

Type overview Electronic differential pressure VEGABAR 8 VEGABAR 8 VEGABAR 8 Measuring cell Piezoresistive/DMS CERTEC Piezoresistive/strain gauge, METEC Diaphragm Metal Ceramic Metal Media Process fitting Material Process fitting Diaphragm material gases, vapours and liquids, also aggressive ones, at high temperatures Thread from G½ or ½ NPT Flanges from DN 0 Boltings, tube isolating diaphragm each from DN 5 6L 6L, Alloy C76 (.89), Tantalum, gold on 6L gases, vapours and liquids, also with abrasive substances Thread from G or ½ NPT Flanges from DN 5 Extension fittings from " 6L, PVDF, Alloy C (.60), Alloy C76 (.89) Al O ceramic Measuring cell seal - FKM, EPDM, FFKM - Isolating liquid Measuring range Silicone oil, high temperature oil, Halocarbon oil Medical white oil - +000 bar/-00 +00 MPa (-.5 +500 psig) Dry measuring system - +00 bar/-00 +0 MPa (-.5 +50 psig) gas, vapours and liquids, also viscous Thread from G or ½ NPT Flanges from DN 0 Boltings, tube isolating diaphragm each from DN 5 6L Alloy C76 (.89), gold-coated, gold/ rhodium-coated Silicone oil, Halocarbon oil Medical white oil - +000 bar/-00 +00 MPa (-.5 +500 psig) Smallest measuring range 0. bar/0 kpa (5.80 psig) 0.05 bar/.5 kpa (.5 psig) 0. bar/0 kpa (.5 psig) Process temperature -90 +00 C (-0 +75 F) -0 +50 C (-0 +0 F) -0 +00 C (-0 +9 F) Smallest deviation < ±0. % + influence of the chemical seal < 0.05 % < 0.075 % Signal output 0 ma 0 ma 0 ma/hart 0 ma/hart Profibus PA Profibus PA Foundation Fieldbus Foundation Fieldbus Interface Indication/Adjustment Approvals Modbus Digital interface for Master-Slave combination PLICSCOM PACTware VEGADIS 8 VEGADIS 8 ATEX SIL FM CSA EAC (GOST) Shipbuilding Overfill protection Modbus Digital interface for Master-Slave combination PLICSCOM PACTware VEGADIS 8 VEGADIS 8 ATEX SIL FM CSA EAC (GOST) Shipbuilding Overfill protection 0 ma 0 ma/hart Profibus PA Foundation Fieldbus Modbus Digital interface for Master-Slave combination PLICSCOM PACTware VEGADIS 8 VEGADIS 8 ATEX SIL FM CSA EAC (GOST) Shipbuilding Overfill protection 65-EN-8050 5

Type overview Electronic differential pressure VEGABAR 86 VEGABAR 87 Measuring cell CERTEC METEC Diaphragm Al O ceramic Alloy C76 (.89) Media Liquids, also with abrasive content gas, vapours and liquids, also viscous Process fitting Material Process fitting Straining clamp, unassembled threaded fitting from G½, thread G½, flanges from DN 50 PE, PUR, FEP, 6L Diaphragm material 6L, PE-coating, PVDF 6L Measuring cell seal FKM, EPDM, FFKM - Straining clamp, unassembled threaded fitting from G½, thread G½, flanges from DN 50 FEP, 6L Isolating liquid Dry measuring system Medical white oil Measuring range 0 +5 bar/0 +500 kpa (-.5 +6.6 psig) 0 +5 bar/0 +500 kpa (-.5 +6.6 psig) Smallest measuring range 0.05 bar/.5 kpa (.5 psig) 0. bar/0 kpa (.5 psig) Process temperature -0 +00 C (-0 + F) - +00 C (+0. + F) Smallest deviation < 0. % < 0. % Signal output 0 ma 0 ma 0 ma/hart 0 ma/hart Profibus PA Profibus PA Foundation Fieldbus Foundation Fieldbus Modbus Modbus Interface Digital interface for Slave-Master combination Digital interface for Slave-Master combination Indication/Adjustment PLICSCOM PACTware PLICSCOM VEGADIS 8 PACTware VEGADIS 8 VEGADIS 8 VEGADIS 8 Approvals ATEX IEC ATEX SIL IEC FM SIL CSA FM EAC (GOST) CSA EAC (GOST) Shipbuilding Shipbuilding Overfill protection Overfill protection 65-EN-8050 6

Overview, mechanical differential pressure Overview, mechanical differential pressure Configuration The mechanical differential pressure consists of the differential pressure transmitter VEGADIF 85 and an optionally connection chemical seal system. transmitter Fig. : VEGADIF 85 differential pressure transmitter Housing cover, optionally with integrated display and adjustment module Housing with electronics Process component with measuring cell Single-sided chemical seal CSS The chemical seal CSS consists of the components: separating diaphragm, process fitting as well as connection piece with transmission line (capillaries). The components are fully welded to each other and to the associated differential pressure transmitter and represent a hermetically sealed system. Fig. : VEGADIF 85 with chemical seal CSB VEGADIF 85 Transmission line (capillaries) Process fitting Separating diaphragm Area of applications The differential pressure transmitter VEGADIF 85 is used for various applications such as differential pressure measurements of filters and pumps as well as level measurements in pressurized vessels. Through the precise measuring cell grading and low deviation flow, density and interface measurements can be realised. The differential pressure transmitter is suitable for all gases, vapours and liquids where product-resistant sensors are required. For extremely moist areas, IP 68 versions are available. measurement Fig. : VEGADIF 85 with chemical seal CSS VEGADIF 85 Process fitting Transmission line (capillaries) Separating diaphragm + p p Fig. 5: measurement with VEGADIF 85 Level measurement Double-sided chemical seal CSB The chemical seal CSB consists of the components: separating diaphragm, process fitting as well as transmission lines (capillaries). The components are fully welded to each other and to the associated differential pressure transmitter and represent a hermetically sealed system. Fig. 6: Level measurement with VEGADIF 85 65-EN-8050 7

Overview, mechanical differential pressure Flow measurement + p p Q Fig. 7: Flow measurement with VEGADIF 85 and DP flow element Density measurement + Fig. 8: Density measurement with VEGADIF 85 Interface measurement + Fig. 9: Interface measurement with VEGADIF 85 65-EN-8050 8

Overview, electronic differential pressure Overview, electronic differential pressure Configuration and housing protection classes Pressure transmitters VEGABAR 8, 8 and 8 are available in different materials and housing protection classes. The following illustrations show typical examples. extremely moist areas, IP 68 versions are available. Level measurement Fig. 0: Example of a VEGABAR 8 with plastic housing with protection rating IP 66/ IP 67 Housing lid with integrated display and adjustment module (optional) Housing with electronics Process fitting with measuring cell 5 Fig. : Example of a VEGABAR 8 with aluminium housing in protection class IP 66/IP 68, bar Housing lid with integrated display and adjustment module (optional) Housing with electronics Process fitting with measuring cell Cable gland 5 Connection cable Fig. : Measurement setup, level measurement in pressurized vessel VEGABAR 8 VEGABAR 8 - Slave sensor measurement 5 Fig. : Example of a VEGABAR 8 with protection rating IP 68 and external electronics Housing lid with integrated display and adjustment module (optional) Housing with electronics Housing base Connection cable 5 Process module Fig. : Measurement setup for differential pressure measurement of gases in pipelines VEGABAR 8 VEGABAR 8 - Slave sensor 65-EN-8050 Area of applications The electronic differential pressure is used for various applications such as differential pressure measurements of filters and pumps as well as level measurements in pressurized vessels. Through the precise measuring cell grading and low deviation flow, density and interface measurements can be realised. The differential pressure transmitter VEGADIF 85 is suitable for all gases, vapours and liquids where product-resistant sensors are required. For 9

Overview, electronic differential pressure Interface measurement Density-compensated level measurement 0,8 h,0 Fig. 5: Measurement setup with interface measurement, h = distance between the two measuring points VEGABAR 8 VEGABAR 8 - Slave sensor Density measurement h h Fig. 7: Measurement setup for density-compensated level measurement, h = distance between the two measuring points VEGABAR 8 VEGABAR 8 - Slave sensor Fig. 6: Measurement setup for density measurement, h = distance between the two measuring points VEGABAR 8 VEGABAR 8 - Slave sensor 65-EN-8050 0

Selection criteria, mechanical differential pressure 5 Selection criteria, mechanical differential pressure VEGADIF 85 VEGADIF 85 with chemical seal CSS VEGADIF 85 with chemical seal CSB Wear through process Aggressive products Process temperature up to +85 C (+85 F) +00 C (+75 F) Application Level measurement measurement Flow measurement Density measurement Interface measurement Version process fittings Front-flush Hygienic Smallest measuring range 0 mbar ( kpa) 00 mbar (0 kpa) Largest measuring range 6 bar (.6 MPa) Vacuum applications up to mbar abs (00 Pa) Suitability for industry-specific applications Chemical Power generation Paper Environment and recycling industry Water, waste water 65-EN-8050

Selection criteria, electronic differential pressure 6 Selection criteria, electronic differential pressure VEGABAR 8 VEGABAR 8 VEGABAR 8 VEGABAR 86 VEGABAR 87 Wear through process Aggressive products Abrasive products Process temperature up to +00 C (+ F) +50 C (+0 F) +00 C (+0 F) +00 C (+75 F) Application Level measurement measurement Flow measurement Density measurement Interface measurement Measuring system Dry Oil-filled Version process fittings Front-flush Hygienic Smallest measuring range 5 mbar (.5 kpa) 00 mbar (0 kpa) Largest measuring range 5 bar (.5 MPa) 00 bar (0 MPa) 000 bar (00 MPa) Vacuum applications up to mbar abs (00 Pa) Suitability for industry-specific applications Aggregates and mining industry Chemical Power generation Renewable energies Foodstuffs Metal production Offshore Paper Petrochemical Pharmaceutical Shipbuilding Environment and recycling industry Water, waste water Cement industry 65-EN-8050

Comparison mechanical and electronic differential pressure 7 Comparison mechanical and electronic differential pressure Mechanical differential pressure Electronic differential pressure Process/Environment High static pressure - Vacuum - High process temperature Temperature fluctuations in the process - Large temperature difference between the measurement points - Abrasive solids - Measurement loop Low installation and mounting expenditure - Evaluation Suitable - Less resp. not suitable Low maintenance expenditure - Compact construction - Small process fittings - High measuring accuracy with Turn Down up to 0 : High measuring accuracy with Turn Down up to 00 : - Measurement of smallest pressure differences - 65-EN-8050

Housing overview 8 Housing overview Plastic PBT Protection rating IP 66/IP 67 IP 66/IP 67 Version Single chamber Double chamber Area of application Industrial environment Industrial environment Aluminium Protection rating IP 66/IP 67, IP 66/IP 68 ( bar) IP 66/IP 67, IP 66/IP 68 ( bar) Version Single chamber Double chamber Area of application Industrial environment with increased mechanical stress Industrial environment with increased mechanical stress Stainless steel (6L) Protection rating IP 66/IP 67 IP 66/IP 67, IP 66/IP 68 ( bar) IP 66/IP 67, IP 66/IP 68 ( bar) Version Single chamber, electropolished Single chamber, precision casting Double chamber, precision casting Area of application Aggressive environment, food processing, pharmaceutical Aggressive environment, extreme mechanical stress Aggressive environment, extreme mechanical stress Separate version Material Stainless steel (6L) Plastic PBT Protection rating IP 68 (5 bar) IP 65 Function Transmitter External electronics Area of application Extremely moist environment Industrial environment 65-EN-8050

Mounting, mechanical differential pressure 9 Mounting, mechanical differential pressure Mounting examples The following illustrations show mounting examples and measurement setups for the mechanical differential pressure. Pump Reaction vessel Fig. 9: measurement on a pump The VEGADIF 85 can be also used for measurement of the difference between pump input and output. The instrument measures this pressure difference independent from the static pressure. Fig. 7: Level measurement in reaction vessel with VEGADIF 85 VEGADIF 85 can be also used under high temperatures. The instrument measures the hydrostatic pressure of the liquid column in a reaction vessel independently of foam on the product surface. Its advantages are the high resistance diaphragm materials and the low oil volume of the chemical seal. The temperature influence of the chemical seal is thus kept low. Boiler Fig. 8: Level measurement in a boiler with VEGADIF 85 VEGADIF 85 can be also used with high temperatures and pressures. The instrument measures the hydrostatic pressure of the liquid column in a boiler independent of the static pressure in the vessel. 65-EN-8050 5

Mounting, electronic differential pressure 0 Mounting, electronic differential pressure Mounting examples The following illustrations show mounting examples and measurement setups for the electronic differential pressure. Stock deaerator Flue gas scrubber Fig. : Level measurement on stock deaerator with VEGABAR 8 The electronic differential pressure can be also used with small levels and superimposed vacuum. The instrument measures the hydrostatic pressure of the liquid column with millimetre accuracy in the stock deaerator. Drying cylinder Fig. : measurement on a drying cylinder Fig. 0: Level measurement in flue gas scrubber with VEGABAR 8 The electronic differential pressure can be also used for the measurement of the pressure difference between input and output of the drying cylinder. The instrument measures this pressure difference independent from the static pressure. The electronic differential pressure can be also used with small levels. The instrument measures the hydrostatic pressure of the liquid column in a flue gas scrubber independent of foam on the product surface. 65-EN-8050 6

Electronics - 0 ma - two-wire Electronics - 0 ma - two-wire Configuration of the electronics The plug-in electronics is mounted in the electronics compartment of the instrument and can be exchanged by the user when servicing is required. The electronics is completely encapsulated to protect against vibration and moisture. The terminals for voltage supply as well as the plug with I²C interface for parameter adjustment are located on the upper side of the electronics. In the double-chamber housing, these connection elements are located in the separate terminal compartment. Voltage supply Power supply and current signal are carried on the same two-wire cable. The operating voltage can differ depending on the instrument version. You can find the data of the voltage supply in chapter "Technical data" in the operating instructions manual of the respective instrument. Provide a reliable separation between the supply circuit and the mains circuits according to DIN EN 60 VDE 00-. Specifications of the voltage supply: Operating voltage 9.6 5 V DC Permissible residual ripple - Non-Ex, Ex-ia instrument for U N V DC: 0.7 V eff (6 00 Hz) for U N V DC:.0 V eff (6 00 Hz) Permissible residual ripple - Ex-d-ia instrument for U N V DC:.0 V eff (6 00 Hz) Keep in mind the following additional factors that influence the operating voltage: Lower output voltage of the power supply unit under nominal load (e.g. with a sensor current of 0.5 ma or ma in case of fault) Influence of additional instruments in the circuit (see load values in chapter "Technical data" of the operating instructions of the respective instrument) Connection cable The instrument is connected with standard two-wire cable without screen. If electromagnetic interference is expected which is above the test values of EN 66- for industrial areas, screened cable should be used. Cable screening and grounding If screened cable is required, we recommend connecting the cable screen on both ends to ground potential. In the sensor, the screen must be connected directly to the internal ground terminal. The ground terminal on the outside of the housing must be connected to the ground potential (low impedance). Connection Single chamber housing...0ma ( + ) (-) 5 6 7 8 65-EN-8050 Fig. : Electronics and terminal compartment, single chamber housing Voltage supply/signal output For display and adjustment module or interface adapter For external display and adjustment unit Ground terminal for connection of the cable screen 7

Electronics - 0 ma/hart - two-wire Electronics - 0 ma/hart - two-wire Configuration of the electronics The plug-in electronics is mounted in the electronics compartment of the instrument and can be exchanged by the user when servicing is required. The electronics is completely encapsulated to protect against vibration and moisture. The terminals for voltage supply as well as the contact pins with I²C interface for parameter adjustment are located on the upper side of the electronics. In the double-chamber housing, the terminals are located in the separate terminal compartment. Connection Single chamber housing...0ma Voltage supply Power supply and current signal are carried on the same two-wire cable. The operating voltage can differ depending on the instrument version. You can find the data of the voltage supply in chapter "Technical data" in the operating instructions manual of the respective instrument. Provide a reliable separation between the supply circuit and the mains circuits according to DIN EN 60 VDE 00-. Specifications of the voltage supply: Operating voltage 9.6 5 V DC Permissible residual ripple - Non-Ex, Ex-ia instrument for U N V DC: 0.7 V eff (6 00 Hz) for U N V DC:.0 V eff (6 00 Hz) Permissible residual ripple - Ex-d-ia instrument for U N V DC:.0 V eff (6 00 Hz) Keep in mind the following additional factors that influence the operating voltage: Lower output voltage of the power supply unit under nominal load (e.g. with a sensor current of 0.5 ma or ma in case of fault) Influence of additional instruments in the circuit (see load values in chapter "Technical data" of the operating instructions of the respective instrument) Connection cable The instrument is connected with standard two-wire cable without screen. If electromagnetic interference is expected which is above the test values of EN 66- for industrial areas, screened cable should be used. We generally recommend the use of screened cable for HART multidrop mode. ( + ) (-) 5 6 7 8 Fig. : Electronics and terminal compartment, single chamber housing Voltage supply/signal output For display and adjustment module or interface adapter For external display and adjustment unit Ground terminal for connection of the cable screen Double chamber housing...0ma ( + ) (-) Fig. 5: Terminal compartment, double chamber housing Voltage supply/signal output For display and adjustment module or interface adapter Ground terminal for connection of the cable screen Cable screening and grounding If screened cable is required, we recommend connecting the cable screen on both ends to ground potential. In the sensor, the screen must be connected directly to the internal ground terminal. The ground terminal on the outside of the housing must be connected to the ground potential (low impedance). 65-EN-8050 8

7 7 Electronics - Profibus PA Electronics - Profibus PA Configuration of the electronics The plug-in electronics is mounted in the electronics compartment of the instrument and can be exchanged by the user when servicing is required. The electronics is completely encapsulated to protect against vibration and moisture. The terminals for voltage supply as well as the contact pins with I²C interface for parameter adjustment are located on the upper side of the electronics. In the double-chamber housing, the terminals are located in the separate terminal compartment. Voltage supply The voltage supply is provided by a Profibus DP /PA segment coupler. Specifications of the voltage supply: Operating voltage 9 V DC Max. number of sensors per DP/PA segment coupler Connection cable Connection is carried out with screened cable according to Profibus specification. Make sure that the entire installation is carried out according to the Profibus specification. In particular, make sure that the bus is terminated with suitable terminating resistors. Cable screening and grounding In systems with potential equalisation, connect the cable screen directly to ground potential at the power supply unit, in the connection box and at the sensor. The screen in the sensor must be connected directly to the internal ground terminal. The ground terminal outside on the housing must be connected to the potential equalisation (low impedance). In systems without potential equalisation, connect the cable screen directly to ground potential on the power supply unit and the sensor. In the connection box or T-distributor, the screen of the short stub to the sensor may not be connected to ground potential or to another cable screen. Connection Single chamber housing 0 0 0 9 8 6 5 9 8 6 0 5 5 65-EN-8050 Connection, double chamber housing Bus ( + ) (-) 5 6 7 8 Fig. 7: Terminal compartment, double chamber housing Voltage supply, signal output For display and adjustment module or interface adapter For external display and adjustment unit Ground terminal for connection of the cable screen Bus ( + ) (-) 6 7 8 5 Fig. 6: Electronics and terminal compartment, single chamber housing Voltage supply/signal output For display and adjustment module or interface adapter Selection switch for bus address For external display and adjustment unit 5 Ground terminal for connection of the cable screen 9

Electronics - Foundation Fieldbus Electronics - Foundation Fieldbus Configuration of the electronics The plug-in electronics is mounted in the electronics compartment of the instrument and can be exchanged by the user when servicing is required. The electronics is completely encapsulated to protect against vibration and moisture. The terminals for voltage supply as well as the contact pins with I²C interface for parameter adjustment are located on the upper side of the electronics. In the double-chamber housing, the terminals are located in the separate terminal compartment. Voltage supply Power supply via the H Fieldbus cable. Specifications of the voltage supply: Operating voltage 9 V DC max. number of sensors Connection cable Connection is carried out with screened cable according to Fieldbus specification. Make sure that the entire installation is carried out according to the Fieldbus specification. In particular, make sure that the bus is terminated with suitable terminating resistors. Cable screening and grounding In systems with potential equalisation, connect the cable screen directly to ground potential at the power supply unit, in the connection box and at the sensor. The screen in the sensor must be connected directly to the internal ground terminal. The ground terminal outside on the housing must be connected to the potential equalisation (low impedance). In systems without potential equalisation, connect the cable screen directly to ground potential on the power supply unit and the sensor. In the connection box or T-distributor, the screen of the short stub to the sensor may not be connected to ground potential or to another cable screen. Connection Connection, double chamber housing Bus ( + ) (-) 5 6 7 8 Fig. 9: Terminal compartment, double chamber housing Voltage supply, signal output For display and adjustment module or interface adapter For external display and adjustment unit Ground terminal for connection of the cable screen Single chamber housing 0 Bus 0 ( + ) (-) 5 6 7 8 5 Fig. 8: Electronics and terminal compartment, single chamber housing Voltage supply/signal output Contact pins for the display and adjustment module or interface adapter Selection switch for bus address For external display and adjustment unit 5 Ground terminal for connection of the cable screen 65-EN-8050 0

Electronics - Modbus, Levelmaster protocol 5 Electronics - Modbus, Levelmaster protocol Configuration of the electronics The plug-in electronics is mounted in the electronics compartment of the instrument and can be exchanged by the user when servicing is required. The electronics is completely encapsulated to protect against vibration and moisture. The contact pins with I²C interface for parameter adjustment are located on the upper side of the electronics. The terminals for the power supply are located in the separate connection compartment. Voltage supply Power supply via the Modbus host (RTU) Operating voltage 8 0 V DC max. number of sensors Connection cable The instrument is connected with standard two-wire, twisted cable suitable for RS 85. If electromagnetic interference is expected which is above the test values of EN 66 for industrial areas, screened cable should be used. For power supply, a separate two-wire cable is required. Make sure that the entire installation is carried out according to the Fieldbus specification. In particular, make sure that the bus is terminated with suitable terminating resistors. Cable screening and grounding In systems with potential equalisation, connect the cable screen directly to ground potential at the power supply unit, in the connection box and at the sensor. The screen in the sensor must be connected directly to the internal ground terminal. The ground terminal outside on the housing must be connected to the potential equalisation (low impedance). In systems without potential equalisation, connect the cable screen directly to ground potential on the power supply unit and the sensor. In the connection box or T-distributor, the screen of the short stub to the sensor may not be connected to ground potential or to another cable screen. Connection Double chamber housing power supply USB MODBUS D0 ( + ) ( + ) (-) off on 5 65-EN-8050 D (-) IS GND Fig. 50: Terminal compartment USB interface Slide switch for integrated termination resistor (0 Ω) Modbus signal Voltage supply

Electronics - Slave 6 Electronics - Slave Configuration of the electronics The plug-in electronics is mounted in the electronics compartment of the instrument and can be exchanged by the user when servicing is required. The electronics is completely encapsulated to protect against vibration and moisture. The terminals for voltage supply as well as the contact pins with I²C interface for parameter adjustment are located on the upper side of the electronics. In the double-chamber housing, the terminals are located in the separate terminal compartment. Voltage supply The Slave sensor can be mounted up to 5 m away from the Master sensor, by which it is directly powered. A separate power supply is not required. Connection cable VEGADIF 85 is connected to the sensor with standard four-wire, screened cable. Cable screen and grounding Connect the cable screen on both ends to ground potential. In VEGADIF 85 Slave and Master sensor, the screen must be connected directly to the internal ground terminal. The ground terminal on the outside of the respective housing must be connected to the potential equalisation (low impedance). Connection Single chamber housing connect to Master 5 6 7 8 Fig. 5: Electronics and connection compartment Slave sensor To the Master sensor Ground terminal for connection of the cable screen ) ) Connect screen here. Connect ground terminal on the outside of the housing to ground as prescribed. The two terminals are galvanically connected. 65-EN-8050

Adjustment 7 Adjustment 7. Adjustment directly at the measuring point Via the display and adjustment module through keys The plug-in display and adjustment module is used for measured value indication, adjustment and diagnosis. It is equipped with an illuminated full dot matrix as well as four keys for adjustment. PACTware is an adjustment software for configuration, parameter adjustment, documentation and diagnosis of field devices. The corresponding device drivers are called DTMs. 7. Operation in the measurement loop environment - wireless via Bluetooth Via a smartphone/tablet The display and adjustment module with integrated Bluetooth functionality allows wireless connection to smartphones/tablets with ios or Android operating system. The adjustment is carried out via the VEGA Tools app from the Apple App Store or Google Play Store. Fig. 5: Display and adjustment module with single chamber housing Via the display and adjustment module through magnetic pen With the Bluetooth version of the display and adjustment module, the sensor can also be adjusted with the magnetic pen. This is done right through the closed lid (with inspection window) of the sensor housing. Fig. 55: Wireless connection to smartphones/tables Display and adjustment module Sensor Smartphone/Tablet Via a PC with PACTware/DTM The wireless connection from the PC to the sensor is carried out via the Bluetooth USB adapter and a display and adjustment module with integrated Bluetooth function. The adjustment is carried out via the PC with PACtware/DTM. Fig. 5: Display and adjustment module - with adjustment via magnetic pen Via a PC with PACTware/DTM The interface converter VEGACONNECT is required for connection of the PC. The converter is placed on the sensor instead of the display and adjustment module and connected to the USB interface of the PC. Fig. 56: Connection of the PC via Bluetooth USB adapter Display and adjustment module Sensor Bluetooth USB adapter PC with PACTware/DTM 7. Adjustment carried out at position remote from the measuring point - wired 65-EN-8050 Fig. 5: Connection of the PC via VEGACONNECT and USB VEGACONNECT Sensor USB cable to the PC PC with PACTware/DTM Via external display and adjustment units For this, the external display and adjustment units VEGADIS 8 and 8 are available. The adjustment is carried out via the keys of the built-in display and adjustment module. The VEGADIS 8 is mounted at a distance of 50 m from the sensor and directly to the sensor electronics. VEGADIS 8 is looped directly into the signal cable at any point.

Adjustment Fig. 57: Connection of VEGADIS 8 to the sensor Voltage supply/signal output sensor Sensor Connection cable sensor - external display and adjustment unit External display and adjustment unit 5 Display and adjustment module 5 Fig. 60: Transmission of measured values and remote parameter adjustment of the sensor via mobile phone network. 7.5 Alternative adjustment programs DD adjustment programs Device descriptions as Enhanced Device Description (EDD) are available for DD adjustment programs such as, for example, AMS and PDM. The files can be downloaded at www.vega.com/downloads under "Software". 5 Field Communicator 75, 75 Device descriptions for the instruments are available as EDD for parameterisation with Field Communicator 75 or 75. Integrating the EDD into the Field Communicator 75 or 75 requires the "Easy Upgrade Utility" software, which is available from the manufacturer. This software is updated via the Internet and new EDDs are automatically accepted into the device catalogue of this software after they are released by the manufacturer. They can then be transferred to a Field Communicator. Fig. 58: Connection of VEGADIS 8 to the sensor Voltage supply/signal output sensor External display and adjustment unit Display and adjustment module 0 ma/hart signal cable 5 Sensor Via a PC with PACTware/DTM The sensor adjustment is carried out via a PC with PACTware/DTM. 5 6 Fig. 59: Connection of VEGADIS 8 to the sensor, adjustment via PC with PACTware Voltage supply/signal output sensor External display and adjustment unit VEGACONNECT 0 ma/hart signal cable 5 Sensor 6 PC with PACTware/DTM 7. Adjustment carried out at position remote from the measuring point - wireless through mobile network As an option, the radio module PLICSMOBILE can be mounted into a plics sensor with double chamber housing. It is used for transmission of measured values and for remote parameter adjustment of the sensor. 65-EN-8050

Dimensions 8 Dimensions Plastic housing Lateral ventilation ~ 69 mm (.7") ø 79 mm (.") ~ 8 mm (.") ø 79 mm (.") M6x,5 65-EN-8050 mm (.") mm (.") M0x,5/ ½ NPT M0x,5/ ½ NPT 9 mm (.58") 60 mm (.6"), mm (.6") Single chamber housing Double chamber housing Aluminium housing 5 mm (.") 86, mm (.9") Fig. 65: VEGADIF 85, lateral ventialtion 80 mm (.5") ~ 6 mm (.57") ø 86 mm (.9") ~ 87 mm (.") ø 86 mm (.9") Oval flange, prepared for chemical seal connection M6x,5 6 mm (.57") 0 mm (.7") M0x,5/ ½ NPT Single chamber housing Double chamber housing M0x,5 M0x,5/ ½ NPT 9 mm (.58") 60 mm (.6"), mm (.6") 7/6-0 UNF M 0 (M) Stainless steel housing 5 mm (.") 86, mm (.9") 5 mm (.") 86, mm (.9") ~ 59 mm (.") ø 80 mm (.5") mm (.") ~ 69 mm (.7") ø 79 mm (.") 7 mm (.6") M6x,5 ~ 87 mm (.") ø 86 mm (.9") 0 mm (.7") Fig. 66: left: Process fitting VEGADIF 85 prepared for chemical seal assembly. right: Position of the copper ring seal Chemical seal connection Copper ring seal Cup diaphragm M0x,5/ ½ NPT M0x,5/ ½ NPT M0x,5/ ½ NPT VEGABAR 8 Single chamber housing (electropolished) Single chamber housing (precision casting) Double chamber housing (precision casting) Ventilation on process axis mm (.5") 9 mm (.58") 60 mm (.6"), mm (.6") mm (8.78") 5 mm (.") 86 mm (.6") 80 mm (.5") Flange version (+50 C) Flange version with cooling element (+00 C) Fig. 6: VEGADIF 85, ventilation on process axis 5

Dimensions VEGABAR 8 VEGABAR 86 SW 6 mm (.8") 5 mm (.77") 0,8 mm (0.8") SW 7 mm (.06") G ½ ø 8, mm (0.7") ø 7 mm (.06") 50 mm (.97") mm (0.87") Threaded version G½, front-flush Threaded version G½ Flange version DN 50 VEGABAR 8 G ½ ø 55 mm (.7") 50 mm (.97") SW 0 mm (.8") 8,5 mm (.5") G ½ mm (0.55") SW 6 mm (.8") ø 8 mm (0.") mm (0.87") ø 9 mm (.") G ½ mm (0.9") 6 mm (.8") L 8 mm (.65") L SW 7mm (.06") 78 mm (.07") L mm (0.") ø mm (0.") ø 6 mm (0.") 7,5 mm (.87") ø 85 mm (.5") ø 6 mm (.5") 5 mm (6.0") Threaded version G½, manometer connection EN 87 Threaded version front-flush with screening sheet (- +00 C) Clamp version " ø mm (.6") Version with suspension cable and threaded fitting unassembled G½ Threaded version G½, suspension cable Threaded version G½, connection tube 65-EN-8050 6

Dimensions VEGABAR 87 SW 6 mm (.8") G ½ G ½ SW 0 mm (.8") 8,5 mm (.5") 0 mm (0.79") mm (0.87") 65-EN-8050 L G ½ L L ø 8 mm (0.") ø 9 mm (.") 77 mm (6.97") mm (0.55") ø 0 mm (.58") Version with suspension cable and threaded fitting unassembled G½ Threaded version G½, suspension cable Threaded version G½, connection tube The listed drawings represent only an excerpt of the available process fittings. You can find more drawings at www.vega.com/downloads under "Drawings". 7

All statements concerning scope of delivery, application, practical use and operating conditions of the sensors and processing systems correspond to the information available at the time of printing. Subject to change without prior notice VEGA Grieshaber KG Am Hohenstein 7776 Schiltach Germany Phone +9 786 50-0 Fax +9 786 50-0 E-mail: info.de@vega.com www.vega.com 65-EN-8050 VEGA Grieshaber KG, Schiltach/Germany 08