Operating Instructions VEGAPULS 62 4 ...
Contents Contents 1 About this document 1.1 1.2 1.3 2 6 6 6 6 7 7 8 8 9 . . . . . . . . . . . . .. .. .. .. 10 11 12 12 General instructions. . . . . . . . . . . . . . . . . Mounting preparations - Horn antenna . . . Mounting preparations - Parabolic antenna Mounting information . . . . . . . . . . . . . . . . Mounting information . . . . . . . . . . . . . . . . . . . . . . . . . . .. .. .. .. .. 14 15 16 17 18 Preparing the connection . . . . . . . . . . . . . .
Contents 6.3 6.4 6.5 6.6 6.7 7 35 36 37 43 46 Connecting the PC . . . . . . . . . . . . . . . . . . . Parameter adjustment with PACTware™. . . . Parameter adjustment with AMS™ and PDM Saving the parameter adjustment data . . . . . .. .. .. .. 47 48 49 49 .. .. .. .. 50 50 51 52 . . . . . . . . . . . . . . . Maintenance and fault rectification 8.1 8.2 8.3 8.4 9 .. .. .. .. .. . . . . . Setup with PACTware™ and other adjustment programs 7.1 7.2 7.3 7.4 8 . . . . . Adjustment system . . . . .
Contents Supplementary operating instructions manuals Information: VEGAPULS 62 is available in different versions and is supplied specifically acc. to the order. Depending on the selected version, supplementary operating instructions manuals come with the shipment. The supplementary operating instructions are stated in paragraph "Product description".
About this document 1 About this document 1.1 Function This operating instructions manual has all the information you need for quick setup and safe operation. Please read this manual before you start setup. 1.2 Target group This operating instructions manual is directed to trained, qualified personnel. The contents of this manual should be made available to these personnel and put into practice by them. 1.3 Symbolism used Information, tip, note This symbol indicates helpful additional information.
For your safety 2 For your safety 2.1 Authorised personnel All operations described in this operating instructions manual must be carried out only by trained specialist personnel authorised by the operator. For safety and warranty reasons, any internal work on the instruments must be carried out only by personnel authorised by the manufacturer. 2.2 Appropriate use VEGAPULS 62 is a sensor for continuous level measurement.
For your safety l EMC: EN 61326: 2004 - Emission: Class B - Susceptibility: Industrial areas l R & TTE directive: I-ETS 300-440 Expert opinion No. 0043052-02/SEE, Notified Body No. 0499 l LVD: EN 61010-1: 2002 2.6 Compatibility acc. to NAMUR NE 53 VEGAPULS 62 meets NAMUR recommendation NE 53.
For your safety list or having a gain greater than 33 dB are strictly prohibited for use with this device. The required antenna impedance is 50 Ohm. 2.8 Safety information for Ex areas Please note the Ex-specific safety information for installation and operation in Ex areas. These safety instructions are part of the operating instructions manual and come with the Exapproved instruments. 2.9 Manufacturer declaration In conformity with DIN EN 60079-14/2004, para. 5.2.
For your safety l l l l Make sure that the cable gland is tight and strain-relieved. The outer diameter of the connection cable must be adapted to the cable gland. Tighten the pressure screw of the cable gland carefully. Cover unused openings for cable glands tightly Mount the instrument in such a position that the sensor cannot touch the vessel wall or vessel installations. Keep the influence of product movements in the vessel in mind.
Product description 3 Product description 3.1 Configuration Versions The VEGAPULS 62 radar sensor is available in two electronics versions: Standard electronics type PS60K Electronics with increased sensitivity type PS60S The respective version can be determined by means of the type label on the electronics.
Product description 1 2 3 Fig. 1 2 3 1: VEGAPULS 62, threaded version with plastic housing Housing cover with integrated PLICSCOM (optional) Housing with electronics Process fitting with horn antenna 3.2 Principle of operation Area of application VEGAPULS 62 is a radar sensor in K-band (emitting frequency approx. 26 GHz) for continuous level measurement. A version of VEGAPULS 62 is available for the respective application. The version with "thread and horn antenna with ø 40 mm (1.
Product description proportional to the distance and hence to the level. The determined level is converted into an appropriate output signal and outputted as measured value. Supply Two-wire electronics 4 … 20 mA/HART for power supply and measured value transmission on the same cable. The voltage supply range can differ depending on the instrument version. The exact range is stated in the "Technical data" in the "Supplement".
Product description The packaging of standard instruments consists of environment-friendly, recyclable cardboard. For special versions, PE foam or PE foil is also used. Dispose of the packaging material via specialised recycling companies. Storage and transport temperature l 28435-EN-060317 l Storage and transport temperature see "Supplement Technical data - Ambient conditions" Relative humidity 20 … 85 % VEGAPULS 62 - 4 ...
Mounting 4 Mounting 4.1 General instructions Installation position Select an installation position you can easily reach for mounting and connecting as well as later retrofitting of an indicating and adjustment module. The housing can be rotated by 330° without the use of any tools. You can also install the indicating and adjustment module in four different positions (each displaced by 90°).
Mounting Information: If the medium reaches the antenna, buildup can be caused which can lead to faulty measurements later on. Fig. 1 2 3 Pressure 3: Measuring range (operating range) and max. measuring distance full empty (max. measuring distance) Measuring range The process fitting must be sealed if there is gauge or low pressure in the vessel. Before use, check if the seal material is resistant against the measured product and the process temperature. The max.
Mounting 3 Insert the antenna from below into the vessel socket and secure it against falling off 4 Retighten the antenna with hexagon screws to the antenna socket; torque max. 10 Nm (7.5 lbf ft) Note: VEGAPULS 62 with purging air connection or with antenna extension has a notch on the antenna socket. This notch must fit with the marking on the hexagon of the process fitting.3) 1 2 3 4 Fig. 1 2 3 4 4: Dismounting of the horn antenna Marking Notch Hexagon screws on the antenna socket Antenna 4.
Mounting 2 Hold the connection piece (3) with a wrench SW 22 on the flattenings 3 Unscrew the locknut (2) with SW 36 against the antenna 4 Unscrew the compression nut (1) with a wrench SW 41 against the antenna 5 Remove the parabolic antenna (4) axially 6 Mount sensor flange to the adapter flange and clamp it 7 Check if the O-ring is available on the adapter and if it is undamaged. If necessary, replace: FKM (Viton) article no. 2.28248; Kalrez 6375 article no. 2.
Mounting 4.4 Mounting information Horn and parabolic antenna The illustrations on the mounting instructions show a VEGAPULS 62 with horn antenna. The mounting instructions also apply to VEGAPULS 62 with parabolic antenna. Installation position When mounting VEGAPULS 62, keep a distance of at least 200 mm (7.9 in) to the vessel wall. If the sensor is installed in the center of concave or arched vessel tops, multiple echoes can arise.
Mounting Fig. 7: Vessel with conical bottom Inflowing material Do not mount the instruments in or above the filling stream. Make sure that you detect the product surface and not the inflowing product. Fig. 8: Inflowing material Socket pieces should be dimensioned such that the antenna end protrudes at least 10 mm (0.4 in) out of the socket. 28435-EN-060317 Socket VEGAPULS 62 - 4 ...
ca. 10 mm Mounting Fig. 9: Recommended socket mounting h max. If the reflective properties of the medium are good, you can mount VEGAPULS 62 on sockets higher than the antenna length. You will find recommended values for socket heights in the following illustration. The socket end should be smooth and burr-free, if possible also rounded. Then carry out a false echo storage. d d 1½" 50 mm/2" 80 mm/3" 100 mm/4" 150 mm/6" h max. 200 mm 250 mm 300 mm 500 mm 800 mm Fig.
Mounting Fig. 11: Orientation in liquids Vessel installations The radar sensor should be installed at a location where no installations cross the microwave signals. Vessel installations such as, for example, ladders, limit switches, heating spirals, struts, etc. can cause false echoes that get superimposed on the useful echo. Make sure when planning your measuring site that the radar sensor has a "clear view" to the measured product.
Mounting Fig. 13: Agitators Foam generation Through the action of filling, stirring and other processes in the vessel, dense foams which considerably damp the emitted signals may form on the product surface. If foams lead to measurement errors, you should use the biggest possible radar antennas and low frequency radar sensors, e.g. VEGAPULS 65, 66 (C-band). VEGAFLEX sensors with guided microwaves are not influenced by foam generation and are particularly suitable for such applications.
Mounting max. 1 2 min. Fig. 14: Pipe antenna systems in a tank 1 Marking of the polarisation direction 2 Vent holde max. ø 5 mm (0.2 in) If possible, the antenna diameter of the sensor should correspond to the inner diameter of the tube. With VEGAPULS 62 this is approx. 40 mm (1.6 in). The sensor can be used with tube diameters between 40 … 80 mm (1.6 … 3.2 in).
100% > 300 mm Mounting 1 0% Fig. 15: VEGAPULS in a bypass tube 1 Marking of the polarisation direction When mounting the sensor on a bypass tube, the distance of VEGAPULS 62 to the upper tube connection should be approx. 300 mm (12 in) or more. In case of extremely rough tube inner walls, you should use an inserted tube (tube within tube) or a radar sensor with tube antenna. 28435-EN-060317 24 VEGAPULS 62 - 4 ...
Connecting to power supply 5 Connecting to power supply 5.1 Preparing the connection Note safety instructions Always observe the following safety instructions: l l Connect only in the complete absence of line voltage If overvoltages are expected, overvoltage arresters should be installed Tip: We recommend using VEGA overvoltage arresters ÜS-F-LB-I and ÜSB 62-36G.X.
Connecting to power supply Caution: No grease should be used when screwing the NPT cable gland or steel tube into the threaded insert. Standard grease can contain additives affecting the connection between threaded insert and housing. This will influence the stability of the connection and the tightness of the housing. Cable screening and grounding If screened cable is necessary, connect the cable screen on both ends to ground potential.
Connecting to power supply Fig. 16: Connection steps 6 and 7 8 Press the opening lever of the terminals downward, you will hear the terminal spring closing 9 Check the hold of the wires in the terminals by lightly pulling on them 10 Connect the screen to the internal ground terminal and the external ground terminal to potential equalisation 11 Tighten the compression nut of the cable entry. The seal ring must completely encircle the cable.
Connecting to power supply Housing overview 4 4 1 Fig. 1 2 3 4 4 2 3 17: Material versions, single chamber housing Plastic Aluminium Stainless steel Filter element for pressure compensation or blind stopper with version IP 66/ IP 68, 1 bar Electronics and connection compartment Display I2C 4 1 2 5 6 7 8 1 2 3 Fig.
Connecting to power supply Wiring plan Display I2C 1 2 5 6 7 8 1 Fig. 19: Wiring plan, single chamber housing 1 Power supply/Signal output 5.4 Wiring plans, double chamber housing The following illustration apply to non-Ex as well as Ex ia versions. The Exd version is described in the next subchapter. Housing overview 1 2 3 4 Fig. 1 2 3 4 28435-EN-060317 5 5) 5) VEGAPULS 62 - 4 ...
Connecting to power supply Electronics compartment 1 Display I2C 1 2 5 6 7 8 2 3 Fig. 1 2 3 21: Electronics compartment, double chamber housing Plug connector for VEGACONNECT (I²C interface) Internal connection cable to the connection compartment Terminals for VEGADIS 61 Display Connection compartment 1 3 1 2 I2C 2 Fig.
Connecting to power supply Wiring plan I2C 1 2 1 Fig. 23: Wiring plan, double chamber housing 1 Power supply/Signal output 5.5 Wiring plans, double chamber housing Exd Housing overview 1 2 3 4 Fig. 1 2 3 4 28435-EN-060317 5 6) 6) VEGAPULS 62 - 4 ...
Connecting to power supply Electronics compartment 1 Display I2C 1 2 5 6 7 8 2 3 Fig. 1 2 3 25: Electronics compartment, double chamber housing Plug connector for VEGACONNECT (I²C interface) Internal connection cable to the connection compartment Terminals for VEGADIS 61 Connection compartment 1 1 2 2 Fig.
Connecting to power supply Wiring plan 1 2 1 Fig. 27: Wiring plan, double chamber housing Exd 1 Power supply/Signal output 5.6 Wiring plans, version IP 66/IP 68, 1 bar Wire assignment, connection cable + 1 2 Fig. 28: Wire assignment, connection cable 1 br (+) and bl (-) for power supply or to the processing system 2 Screen 5.7 Switch-on phase Switch-on phase After VEGAPULS 62 is connected to power supply or after a voltage recurrence, the instrument carries out a self-test for approx. 30 seconds.
Setup with the indicating and adjustment module PLICSCOM 6 Setup with the indicating and adjustment module PLICSCOM 6.1 Short description Function/Configuration The indicating and adjustment module PLICSCOM is used for measured value display, adjustment and diagnosis.
Setup with the indicating and adjustment module PLICSCOM 4 Screw housing cover with inspection window tightly back on Removal is carried out in reverse order. PLICSCOM is powered by the sensor, an additional connection is not necessary. Fig. 29: Installation of PLICSCOM 28435-EN-060317 Note: If you intend to retrofit VEGAPULS 62 with a PLICSCOM for continuous measured value indication, a higher cover with an inspection glass is required. VEGAPULS 62 - 4 ...
Setup with the indicating and adjustment module PLICSCOM 6.3 Adjustment system 2 1 1.1 3 Fig. 1 2 3 Key functions Adjustment system l [OK] key: - move to the menu overview - confirm selected menu - edit parameter - save value l [->] key to select: - menu change - list entry - editing position l [+] key: - modify value of a parameter l [ESC] key: - interrupt input - jump to the next higher menu The sensor is adjusted via the four keys of the indicating and adjustment module.
Setup with the indicating and adjustment module PLICSCOM 6.4 Setup procedure Address setting HART-Multidrop In HART-Multidrop mode (several sensors on one input) the address must be set before continuing with the parameter adjustment. You will find a detailed description in the operating instructions manual of PLICSCOM or in the online help of PACTware™ or DTM.
Setup with the indicating and adjustment module PLICSCOM 2 Select the menu item "Basic adjustment" with [->] and confirm with [OK]. Now the menu item "Min. adjustment" is displayed. Min. adjustment 0.00 % = 5.000 m(d) 4.000 m(d) 3 Prepare the % value for editing with [OK] and set the cursor to the requested position with [->]. Set the requested percentage value with [+] and save with [OK]. The cursor jumps now to the distance value.
Setup with the indicating and adjustment module PLICSCOM Medium Liquid According to the conductivity and the dielectric value of liquids, the reflection properties can differ considerably. Therefore additional options such as "Solvent", "Chem. mixture" and "Water based" are offered below the menu item Liquid. With solids, you can choose between "Powder/Dust", "Granular/Pellets" or "Ballast/Pebbels".
Setup with the indicating and adjustment module PLICSCOM measured value with a corresponding delay. In general, a time of a few seconds is sufficient to smooth the measured value display. Damping 0s Enter the requested parameter via the appropriate keys, save your settings and jump to the next menu item with the [->] key. Linearization curve A linearization is necessary for all vessels in which the vessel volume does not increase linearly with the level - e.g.
Setup with the indicating and adjustment module PLICSCOM ment. A false echo storage detects and marks these false echoes, so that they are no longer taken into account for the level measurement. A false echo memory should be created with empty vessel so that all potential interfering reflections will be detected. False signal suppression Change now? Proceed as follows: 1 Move from the measured value display to the main menu by pushing [OK].
Setup with the indicating and adjustment module PLICSCOM l l l l l l Displayed value Display unit Scaling Current output Units of measurement Language The following safety-relevant data are not read out or written: l l l HART mode PIN SIL Copy sensor data Copy sensor data? Basic adjustment If the "Reset" is carried out, the sensor resets the values of the following functions to the reset vales (see chart):9) Function Reset value Max. adjustment 0 m(d) Min.
Setup with the indicating and adjustment module PLICSCOM Function Reset value Lighting no reset Language no reset SIL no reset HART mode no reset Factory setting Like basic setting, in addition special parameters are reset to default values.10) Peak values The min. and max. distance values are reset to the current value. 28435-EN-060317 Optional settings Additional adjustment and diagnosis options such as e.g.
Setup with the indicating and adjustment module PLICSCOM 6.5 Menu schematic Information: Depending on the version and application, the highlighted menu windows are not always available. Basic adjustment ▶ Basic adjustment Display Diagnostics Service Info 1 Min. adjustment 0.00 % = 10.000 m(d) 8.000 m(d) 1.1 Damping 1.5 Max. adjustment 100.00 % = 1.000 m(d) 2.000 m(d) 1.2 Linearization curve 1.6 0s Medium Liquid Water based (DK>10) 1.3 Sensor-TAG 1.7 Linear Vessel form 1.
Setup with the indicating and adjustment module PLICSCOM Peak values 3.1 Distance-min.: 0.234 m(d) Distance-max.: 5.385 m(d) Meas. reliability 8 db Sensor status OK 3.2 Extended settings 4.2 Choose curve 3.3 Echo curve Echo curve 3.4 Presentation of the echo curve Service ▶ Basic adjustment Display Diagnostics Service Info False signal suppression 4 4.1 4.5 Units of measurement Reset? HART mode 4.6 Standard Address 0 Simulation Copy sensor data Copy sensor data? 4.
Setup with the indicating and adjustment module PLICSCOM 6.6 Saving the parameter adjustment data It is recommended noting the adjusted data, e.g. in this operating instructions manual and archive them afterwards. They are hence available for multiple use or service purposes. If VEGAPULS 62 is equipped with an indicating and adjustment module PLICSCOM, the most important data can be read out of the sensor into PLICSCOM.
Setup with PACTware™ and other adjustment programs 7 Setup with PACTware™ and other adjustment programs 7.1 Connecting the PC Connecting the PC directly to the sensor VEGACONNECT 3 PACTwareTM/ 3 >PA< 1 = ~ 2 Fig. 1 2 3 Power supply 31: PC connected directly to the sensor RS232 connection VEGAPULS 62 I²C adapter cable for VEGACONNECT 3 Necessary components: l l l 28435-EN-060317 l VEGAPULS 62 PC with PACTware™ and suitable VEGA-DTM VEGACONNECT 3 with I²C adapter cable (article no. 2.
Setup with PACTware™ and other adjustment programs Connecting the PC to the signal cable = 4 ~ 2 Power supply 3 PACTwareTM/ VEGACONNECT 3 Fig. 1 2 3 4 1 32: Connecting the PC to the signal cable RS232 connection VEGAPULS 62 HART adapter cable for VEGACONNECT 3 HART resistance 250 Ohm Necessary components: l l l l l VEGAPULS 62 PC with PACTware™ and suitable VEGA-DTM VEGACONNECT 3 with HART adapter cable (art. no. 2.25397) HART resistance approx.
Setup with PACTware™ and other adjustment programs detailed description is available in the online help of PACTware™ and the VEGA-DTMs. Note: Keep in mind that for setup of VEGAPULS 62, DTM-Collection 06/2003 or a newer version must be used. All currently available VEGA-DTMs are provided in the DTM Collection on CD and can be obtained from the responsible VEGA agency for a token fee. This CD includes also the up-todate PACTware™ version. The basic version of this DTM Collection incl.
Maintenance and fault rectification 8 Maintenance and fault rectification 8.1 Maintenance When used as directed in normal operation, VEGAPULS 62 is completely maintenance-free. 8.2 Fault rectification Causes of malfunction VEGAPULS 62 offers maximum reliability. Nevertheless faults can occur during operation. These may be caused by the following, e.g.
Maintenance and fault rectification l No voltage supply à check cables for line break, repair, if necessary l supply voltage too low or load resistance too high à check and adapt, if necessary ? Current signal greater than 22 mA or less than 3.6 mA l Electronics defective à Exchange instrument or return it for repair In Ex applications, the regulations for the wiring of intrinsically safe circuits must be observed.
Maintenance and fault rectification In Ex applications, only an instrument and an electronics module with appropriate Ex approval may be used. If there is no electronics module available on site, one can be ordered from the VEGA agency serving you. Sensor serial number The order data of the sensor must be downloaded into the new electronics module. This can be done: l l at the factory by VEGA personnel or on site by the user In both cases, the sensor serial number is necessary.
Maintenance and fault rectification www.vega.com under: "Services – Downloads – Forms and Certificates – Repair form". By doing this you help us carry out the repair quickly and without having to call back for needed information.
Dismounting 9 Dismounting 9.1 Dismounting procedure Warning: Before dismounting, be aware of dangerous process conditions such as e.g. pressure in the vessel, high temperatures, corrosive or toxic products etc. Take note of the instructions in chapters "Mounting" and "Connecting to power supply" and carry out the listed steps in reverse order. 9.2 Disposal The instrument consists of materials which can be recycled by specialised recycling companies.
Supplement 10 Supplement 10.1 Technical data General data 316L corresponds to 1.4404 or 1.4435 Materials, non-wetted parts - Housing plastic PBT (Polyester), Alu-die casting powder-coated, 316L - Seal ring between housing and housing cover NBR (stainless steel housing), silicone (Alu/ plastic housing) - Inspection window in housing cover for PLICSCOM Polycarbonate (UL746-C listed) - Ground terminal 316Ti/316L (1.4571/1.
Supplement Output variable Output signal Resolution Fault signal Current limitation Load Integration time (63 % of the input variable) Fulfilled NAMUR recommendation 4 … 20 mA/HART 1.6 µA current output unchanged; 20.5 mA; 22 mA; <3.6 mA (adjustable) 22 mA see load diagram in Power supply 0 … 999 s, adjustable NE 43 Input variable distance between process fitting and product surface Min. distance from antenna end 50 mm (2 in) Recommended meas. range depending on the antenna diameter - ø 40 mm (1.
Supplement Characteristic curve deviation and measurement characteristics11) Average temperature coefficient of the zero signal (temperature error) Resolution, general Frequency Interval Adjustment time12) Received average emitted power reaching an - Distance 1 m - 0.03 %/10 K max. 1 mm K-band (26 GHz technology) approx. 1 s >1 s (dependent on the parameter adjustment) object directly in front of the antenna 108 nW per cm² (108x10-9 W/cm²) 4.3 nW per cm² (4.
Supplement 30 mm 15 mm -15 mm 1,0 m 30 m -30 mm Fig. 34: Accuracy VEGAPULS 62 with horn antenna and increased sensitivity Beam angle with parabolic antenna Accuracy with parabolic antenna 4° see diagram 40 mm 3 mm -3 mm 2,0 m 30 m -40 mm Fig. 35: Accuracy VEGAPULS 62 with parabolic antenna 40 mm 15 mm -15 mm 2,0 m 30 m Fig. 36: Accuracy VEGAPULS 62 with parabolic antenna and increased sensitivity 58 VEGAPULS 62 - 4 ...
Supplement Ambient conditions Ambient, storage and transport temperature - without indicating and adjustment module - with indicating and adjustment module -40 … +80°C (-40 … +176°F) -20 … +70°C (-4 … +158°F) Process conditions Process temperature (measured on the process fitting), depending on the seal of the antenna system - FKM (Viton) -40 … +130°C (-40 … +266°F) - FKM (Viton) with impedance cone PP -40 … +80°C (-40 … +176°F) - FKM (Viton) with temperature adapter -40 … +200°C (-40 … +392°F) -
Supplement psi 232 145 -40 32 212 122 302 392 ˚F Fig. 38: DIN flange PN 16 temperature derating in psi/°F Vessel pressure relating to DIN flange PN 40 (note nominal pressure stage of the flange and temperature derating!) bar 40 40,0bar DN80, DN100 30 34,4bar DN150 29,4bar DN200 26,4bar DN250 37 34 20 10 -40 0 50 100 150 200 ˚C Fig.
Supplement bar 70 64 64,0bar DN80 50 54,0bar 50,4bar DN100 DN150 40 44,0bar 39,6bar DN200 DN250 60 56 30 20 10 -40 50 0 100 150 200 ˚C Fig. 41: DIN flange PN 64 temperature derating in bar/°C psi 1015 928,2psi DN80 928 870 812 725 783,2psi DN100 731,0psi DN150 580 638,2psi DN200 574,4psi DN250 435 290 145 32 -40 122 212 302 392 ˚F Fig.
Supplement lbs./sq.in. 150 -40 2"…10" 32 122 212 302 392 ˚F Fig. 44: ANSI flange 150 lbs temperature derating based on °F Vessel pressure relating to ANSI flange 300 lbs (note nominal pressure stage of the flange and temperature derating!) lbs./sq.in. 2"…10" 300 200 100 -40 0 50 100 150 200 ˚C Fig. 45: ANSI flange 300 lbs temperature derating based on °C lbs./sq.in. 2"…10" 300 200 100 -40 32 122 212 302 392 ˚F Fig.
Supplement lbs./sq.in. 2"…10" 600 500 400 -40 32 122 212 302 392 ˚F Fig. 48: ANSI flange 600 lbs temperature derating based on °F Vessel pressure relating to ANSI flange 900 lbs (note nominal pressure stage of the flange and temperature derating!) lbs./sq.in. 2"… 6" 1 8"…10" 2 900 800 700 -40 0 50 100 150 200 ˚C Fig. 49: ANSI flange 900 lbs temperature derating based on °C 1 RF 2 TG small/large lbs./sq.in. 2"… 6" 1 8"…10" 2 900 800 700 -40 32 122 212 302 392 ˚F Fig.
Supplement Data on rinsing air connection Pressure Air flow - with 0.5 bar (7.3 psi) - with 3.0 bar (43.5 psi) max. 6 bar (87 psi) approx. 50 l/min approx. 100 l/min Air flow with reflux valve - with 0.55 bar (8.0 psi) approx. 20 l/min with 3.0 bar (43.5 psi) approx. 85 l/min - Thread Catch - with non-Ex - with Ex G⅛A Dust protection cover of PE Plug of 316Ti (1.4571) Reflux valve - attached (with non-Ex option, with Ex in the scope of delivery) - Material 316Ti (1.
Supplement Electromechanical data - version IP 66/IP 67 and IP 66/IP 68; 0.2 bar Cable entry/plug 14) - Single chamber housing l 1x cable entry M20x1.5 (cable-ø 5 … 9 mm), 1x blind stopper M20x1.5 or: l 1x closing cap ½ NPT, 1x blind plug ½ NPT or: - Double chamber housing l 1x plug (depending on the version), 1x blind plug M20x1.5 l 1x cable entry M20x1.5 (cable-ø 5 … 9 mm), 1x blind stopper M20x1.
Supplement Connection cable - Configuration four cores, one suspension cable, one breather capillary, screen braiding, foil, mantle - wire cross section 0.5 mm² - wire resistance <0.036 Ohm/m - tensile load >1200 N (270 pounds force) - Standard length 5 m (16.4 ft) - Max. length 1000 m (3280 ft) - Min. bending radius 25 mm (at +25°C/+77°F) - Diameter approx.
Supplement Permissible residual ripple - <100 Hz - Uss <1 V Uss <10 mV 100 Hz … 10 kHz see diagram Load Ω 1000 750 3 500 2 1 250 4 14 Fig.
Supplement Ω 1000 750 3 500 2 1 250 4 15 Fig. 1 2 3 4 16 18 20 22 24 26 28 30 32 34 36 V 52: Voltage diagram for version with increased sensitivity HART load Voltage limit EEx ia instrument Voltage limit non-Ex/Exd instrument Supply voltage Electrical protective measures Protection - Plastic housing IP 66/IP 67 - Alu and stainless steel standard IP 66/IP 68 (0.
Supplement Approvals17) ATEX ia ATEX II 1G, 1/2G, 2G EEx ia IIC T6; ATEX II 1G, 1/2G, 2G EEx ia IIC T5+ATEX II 1/2D IP6X T6 ATEX II 1/2 D IP6X T ATEX II 1G, 1/2G, 2G EEx ia IIC T5+ATEX II 1/ 2D IP6X T6 ATEX II 1/2G, 2G EExd ia IIC T6 ATEX II 1/2G, 2G EExd ia IIC T5+ATEX II 1/2D IP6X T6 IEC Ex ia IIC T6 IEC Exd ia IIC T6 Ex tD A20/A21 IP66 T, A21 FM CI.I, Div2 (NI)+CI.II, III, Div1 (DIP); FM CI.IIII, Div 1 (IS); FM Cl.I-III, Div 1(IS)+Cl.I-III, Div 1 Gr.C-G (XP) CSA CI.I, Div2 (NI)+CI.
Supplement 10.2 Dimensions Housing versions in protection IP 66/IP67 and IP 66/IP 68, 0.2 bar ~ 69mm (2 23/32") ~ 69mm (2 23/32") ø 77mm (3 1/32") ~ 87mm (3 27/64") ø 84mm (3 5/16") ø 77mm (3 1/32") ~ 116mm (4 9/16") ø 84mm (3 5/16") M20x1,5/ ½ NPT M20x1,5/ ½ NPT 1 116mm (4 9/16") 120mm (4 23/32") 112mm (4 13/32") 117mm (4 39/64") M16x1,5 M20x1,5/ ½ NPT M20x1,5/ ½ NPT 2 3 M20x1,5 4 Fig. 53: Housing versions in protection IP 66/IP 67 and IP 66/IP 68, 0.
Supplement 118mm (4 41/64") 46mm (1 13/16") 2 y G1½A / 1½ NPT mm y x 1½" 100 ø40 2" 120 ø48 3" 216 ø75 4" 430 ø95 22mm (55/64") 38mm (1 1/2") 1 22mm (55/64") VEGAPULS 62 - horn antenna in threaded version x y 1½" 3 15/16" 4 23/32" 8 1/2" 16 59/64" 2" 3" 4" x y inch ø1 37/64" ø1 57/64" ø2 61/64" ø3 47/64" x 28435-EN-060317 Fig. 55: VEGAPULS 62 - horn antenna in threaded version 1 Standard 2 with temperature adapter VEGAPULS 62 - 4 ...
Supplement VEGAPULS 62 - horn antenna in threaded version with rinsing air connection 2 38mm (1 1/2") 3 y G1½A/ 1½ NPT mm y x 1½" 100 ø40 2" 120 ø48 3" 216 ø75 4" 430 ø95 inch y x 1½" 3 15/16" 4 23/32" 8 1/2" 16 59/64" ø1 37/64" ø1 57/64" ø2 61/64" ø3 47/64" 2" x 3" 4" 118mm (4 41/64") 46mm (1 13/16") 22mm (55/64") 4 y 22mm (55/64") 1 x Fig.
Supplement 118mm (4 41/64") 2 mm y x 1½" > 200 ø40 2" > 220 ø48 3" > 316 ø75 4" > 530 ø95 inch y 7 7/8" 1½" 2" 3" 4" 8 21/32" 12 7/16" 20 55/64" x ø1 37/64" ø1 57/64" ø2 61/64" ø3 47/64" y y G1½A / 1½ NPT 22mm (55/64") 38mm (1 1/2") 1 46mm (1 13/16") 22mm (55/64") VEGAPULS 62 - horn antenna in threaded version with antenna extension x x 28435-EN-060317 Fig.
Supplement y b 2 140mm (5 33/64") d 1 60mm (2 23/64") VEGAPULS 62 - horn antenna in flange version x k D mm D b k inch D b k d x y DN 40 PN 40 150 18 110 4xø18 40 100 DN 40PN 40 5 29/32" 45/64" 4 21/64" 4xø45/64" 1 37/64" 3 15/16" DN 50 PN 40 165 20 125 4xø18 48 120 DN 50 PN 40 6 1/2" 25/32" 4 59/64" 4xø45/64" 1 57/64" 4 23/32" 7 7/8" 15/16" 6 19/64" d x 8xø45/64" 2 61/64" y 8 1/2" DN 80 PN 40 200 24 160 8xø18 75 216 DN 80 PN 40 DN 100 PN 16 220 20
Supplement VEGAPULS 62 - horn antenna in flange version with rinsing air connection 1 2 3 y b d 140mm (5 33/64") 82,5mm (3 1/4") 4 x k D mm b k d x y 150 18 110 4xø18 40 100 DN 40PN 40 5 29/32" DN 50 PN 40 165 20 125 4xø18 48 120 DN 50 PN 40 DN 80 PN 40 200 24 160 8xø18 75 216 DN 80 PN 40 DN 100 PN 16 220 20 180 8xø18 95 430 DN 100 PN 16 D b k d x y 45/64" 4 21/64" 4xø45/64" 1 37/64" 3 15/16" 6 1/2" 25/32" 4 59/64" 4xø45/64" 1 57/64" 4 23/32" 7 7/8
Supplement 128mm (5 3/64") G1½A / 1½ NPT 118mm (4 41/64") 46mm (1 13/16") 2 22mm (55/64") 1 22mm (55/64") 38mm (1 1/2") VEGAPULS 62 - parabolic antenna in threaded version ø 243mm (9 9/16") Fig. 60: VEGAPULS 62 - parabolic antenna in threaded version 1 Standard 2 with temperature adapter 28435-EN-060317 76 VEGAPULS 62 - 4 ...
Supplement VEGAPULS 62 - parabolic antenna in flange version 2 140mm (5 33/64") b k 60mm (2 23/64") 1 D 128mm (5 3/64") d ø 243mm (9 9/16") mm DN 40 PN 40 DN 50 PN 40 D b k d 150 18 110 4xø18 165 20 125 inch D b k d DN 40PN 40 5 29/32" 45/64" 4 21/64" 4xø45/64" 6 1/2" 25/32" 4 59/64" 4xø45/64" 7 7/8" 15/16" 6 19/64" 8xø45/64" 4xø18 DN 50 PN 40 DN 80 PN 40 200 24 160 8xø18 DN 80 PN 40 DN 100 PN 16 220 20 180 8xø18 DN 100 PN 16 8 21/32" 25/32" 7 3/32" 8xø4
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28435-EN-060317 Supplement VEGAPULS 62 - 4 ...
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