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Appendix

7.1

Calibration and linearisation in volume units

Use the following two procedures if you can calibrate in volume units only but still require
a linearisation.

Linearisation, horizontal
cylinder

The parameters must be entered in the
order below. Two parameters are entered:

•

Tank diameter,

•

Tank volume,

Matrix

Entry

Remarks

V9H5

670

Reset

»E«

V3H5

Zero frequency

»E«

V3H6

∆

Sensitivity

»E«

V3H0

Volume units

»E«

V2H7

Tank diameter,
%, m or ft

10 -

»E«

11 V2H8

Tank volume*,
hl, gal

…

12 -

»E«

13 V2H0

Activate linearisation

14 -

»E«

15 V0H1

Tank empty, current
volume in hl, gal

…

16 -

»E«

17 V0H2

Tank full, current
volume in hl, gal

…

18 -

»E«

Note!

•

D determines the level units at V0H9

•

If V =100 is entered, the calibration
must be made in % volume units

After linearisation

•

Volume is displayed at V0H0

•

Level is displayed at V0H9

Next step

…

Set analogue output and relays in volume
units, see p. 30

…

33.

V0H1

V0H2

D (V2H7)

V (V2H8)

»Empty« vol. E
(0

…

40%)

»Full« vol. F
(60

…

100%)

BA142_50

probe or
sensor
covered

zero point for calibration

100% = V (V2H8)

Fig. 7.1:
Parameters for calibration and linearisation in a
horizontal cylinder

Note!

Chapter 7: Appendix

Prolevel FMC 661

Hauser

Summary of Contents for prolevel FMC 661

Page 1: ...prolevel FMC 661 Level Measurement Operating Instructions BA 142F 00 en 07 98a 016562 1000 valid for Software 1 x Hauser Endress Nothing beats know how...

Page 2: ......

Page 3: ...l if not 100 Press E to register entry 5 Relays 1a and 1b V1H0 V1H1 Enter level for switching in calibration units Press E to register entry Enter fail safe mode 0 minimum 1 maximum Press E to registe...

Page 4: ......

Page 5: ...0 Z 21 3 4 Rackbus RS 485 option 22 4 Level Measurement 23 4 1 Commissioning 23 4 2 Calibration 24 4 3 Analogue Outputs 30 4 4 Relays 32 4 5 Measured value display 34 4 6 Parameter locking 34 5 Level...

Page 6: ...Table of Contents Prolevel FMC 661 2 Endress Hauser...

Page 7: ...icate of Conformity PTB No Ex 96 D 2074 Prolevel FMC 661 EEx ia IIC install outside Ex area CSA LR 53988 81 FMC 661 Class I II III Div I Groups A G FM J I 0Z2A7 AX FMC 661 Class I II III Div I Groups...

Page 8: ...may indirectly affect operation or may lead to an instrument response which is not planned Caution Caution indicates actions or procedures which if not performed correctly may lead to personal injury...

Page 9: ...er matrix Chapter 5 Level Measurement with Limit Switch describes the automatic calibration correction and other operating modes of the Prolevel FMC 661 Chapter 6 Trouble Shooting contains a descripti...

Page 10: ...2A 2B 3 H V E _ 1 1 2 0 4 20 mA limit relays Prolevel FMC 661 transmitter BA142_01 Liquids Bulk solids Channel 1 hazardous area safe area or or Channel 1 alarm relay Fig 1 1 Standard application show...

Page 11: ...trols Without display and front panel controls in this case the transmitter must be configured by the Commulog VU 260 Z handheld terminal or over the optional Rackbus RS 485 interface In all other res...

Page 12: ...material surrounding the probe Equation 1 applies whereby the variable D is now the diameter of the probe with insulation In this case the capacitance varies by approx 300 pF m Measurement is independ...

Page 13: ...ia the optional Rackbus RS 485 interface Fail safe operation If a fault condition is detected e g a break in sensor transmitter cable the analogue signal switches to 10 or 110 level or holds the last...

Page 14: ...or with FEB 17 FEB 17 P Switch input channel 2 Signal Pulse frequency modulated signal from connected probe or sensor Limit switch Multicap probe with EC 16 Z or EC 17 Z electronic insert other capaci...

Page 15: ...or 24 V 16 60V residual ripple max 2 Vpp within tolerance Power consumption max 7 W switch on current 880 mA Safe isolation between power supply and signal outputs CPU Rackbus RS 485 switch on curren...

Page 16: ...arly important when the sensors are to be installed in hazardous areas Please note the following Warning The Prolevel FMC 661 transmitter must be installed outside explosion hazardous areas Observe th...

Page 17: ...A TI 239 240 242 243 EC 37 Z EC 47 Z DC 11 TI 169F DC 16 TI 096F DC 21 TI 208F DC 26 TI 209F 11 450 Z St TI 197 11 961 Z E 04 77 04 21 262 Z St TI 227 21 265 Z St TI 195 Multicap TE TA E A EC 17 Z EC...

Page 18: ...ted with the all weather cover The fastenings nuts and bolts for both post mounting and all weather cover are supplied with the units Post mounting Material galvanised steel for 2 post Order No 919 56...

Page 19: ...ound to the metallic terminal strip provided at the left this ensures safe isolation and contact protection Current output relay outputs power connection and sensor input are all electrically isolated...

Page 20: ...g a bridge between terminals 4 and 5 of the insert see Fig 2 6 Full instructions on selection of the insert are to be found in Publication E 07 80 06 1c Note the zero frequency fo____ and sensitivity...

Page 21: ...serts can be used at Channel 2 with Liquiphant sensors for limit level switching For Soliphant sensors the EM 17 Z insert is used Publications 013154 0008 and BA 042 014897 0002 contain full installat...

Page 22: ...itch off power loosen screws and open the terminal compartment Set the address at DIP switch SW1 Example 2 8 10 For the last transmitter on the bus i e furthest away from the computer Switch in the te...

Page 23: ...with the Prolevel FMC 661 transmitter Prolevel FMC 661 display Parameter at current matrix position Pressed together Move to V0H0 Move H0 H9 H0 Move V0 V9 V0 BA142_22 Current matrix position Fig 3 1...

Page 24: ...n Fig 3 3 Front panel of the Prolevel FMC 661 transmitter The transmitter is also available without the keyboard Keys Function Matrix selection Press V to select the vertical position Press H to selec...

Page 25: ...Function Matrix selection Select matrix position Escape key selects the position V0H0 Displays error message if diagnostics icon flashes Press Escape to reset fault alarm and return to last position...

Page 26: ...to that of the keyboard version Full details of the programs can be taken from e g Operating Instructions BA 134F which is delivered with all Prolevel transmitters with Rackbus RS 485 interface Note T...

Page 27: ...ry based parameters see Table in back cover Then enter the probe constants fo and S f measured at 25 C This ensures that the EC 37 Z EC 47 Z electronic insert or Deltapilot can be replaced without the...

Page 28: ...ank full current level in your units 4 E Register entry 5 V0H0 Level Measured value in the units selected Note The calibration can be performed in reverse order For bulk solids capacitance probes the...

Page 29: ...at the tank bottom If the zero point of the calibration does not start at the same point you must now enter a negative offset in the units of calibration Matrix Entry Remarks 1 V3H4 OFF Offset m or ft...

Page 30: ...2H4 H1 30 Level m or ft 12 E Register entry 13 V2H5 E Next table no springs to V2H3 Repeat 9 13 until all values entered 13 V2H0 3 Activate manual 14 E Register entry Note First pair 0 level in m ft l...

Page 31: ...p 30 33 Deletion of value pairs To delete a pair of values Enter table number in V2H2 Enter 9999 in V2H3 or V2H4 Deletion of linearisation There are two possibilities for deleting a linearisation Ente...

Page 32: ...10 x 1 0 x 9 807 x 0 45 44 13 mbar pspan 10 x 1 0 x 9 807 x 10 00 980 7 mbar Offset pzero 44 13 mbar Sensitivity pspan span 980 7 100 9 807 mbar Sensor calibration Matrix Entry Remarks 1 V0H2 e g 100...

Page 33: ...r a negative level offset must be entered p 25 7 V3H4 e g 50 Level offset 8 E Register entry Next step Set analogue outputs and relays in the units used for calibration e g hl see p 30 33 Density corr...

Page 34: ...t limits 0 0 20 mA 2 22 mA 1 4 20 mA 2 22 mA Example 4 20 mA Matrix Entry Remarks 1 V0H3 1 4 20 mA 2 E Register entry Output damping This parameter sets the degree of damping of the analogue output on...

Page 35: ...alue is held Example Output 10 on alarm Matrix Entry Remarks 1 V0H7 0 10 on alarm 2 E Register entry The current values set on an alarm are shown in the table V0H3 Current on alarm when V0H7 0 10 1 11...

Page 36: ...operation power failure de energised Fig 4 14 Relay LEDs as a function of relay status limit relay lit energised out de energised alarm relay default setting lit de energised out energised Parameter M...

Page 37: ...y 9 V1H9 1 Assign to channel 2 10 E Register entry Note The switch point and hysteresis are always entered in the units of calibration or linearisation A small hysteresis prevents faulty switching due...

Page 38: ...arisation The entries for the 0 4 mA and 20 mA value at V0H5 and V0H6 control the 10 step LCD bar diagram V0H8 Current measuring frequency channel 1 Displays the frequency which is actually measured b...

Page 39: ...hing on channel 2 only The setting of the analogue output relays measured value display and parameter upload and locking are described in Chapter 4 V0H0 BA142_43 Corrected level measurement Measured v...

Page 40: ...is frequently covered and uncovered increases frequency of correction as near as possible to 100 ensures greatest accuracy we recommend a height between 70 90 Note For Deltapilot S always use a Liquip...

Page 41: ...Switching delay 5 E Register entry 6 V8H3 e g 75 Installation height 7 E Register entry 8 V8H4 1 Sensor Capacit 9 E Register entry 10 V8H5 0 Sensor uncovered 11 E Register entry 12 V8H6 e g 1 Switch p...

Page 42: ...ion Matrix Entry Remarks 10 V8H7 1 At empty level set corr factor to 1 11 E Register entry 12 V0H1 e g 10 Empty level 13 E Register entry 14 V8H7 1 At full level set corr factor to 1 15 E Register ent...

Page 43: ...ance probes p 37 Liquiphant p 38 For a top mounted capacitance switch there is an additional delay see Table 5 1 Set the relay fail safe mode only If V1H4 2 channel 2 copy the values in V1H5 V1H7 to V...

Page 44: ...field V9H0 is selected If the cause of the fault is rectified its code is no longer displayed the code for the last fault rectified is retained in V9H1 this message can be cleared by pressing the E ke...

Page 45: ...e E 600 Warning PFM transmission internal code check can be ignored if it appears only briefly E 601 Warning PFM transmission internal code check can be ignored if it appears only briefly E 602 Warnin...

Page 46: ...eck operating mode V8H0 Change in density of product recalibrate for Mode 0 1 5 enter new density at V8H7 Sensor damaged check and remedy Capacitance or Deltapilot S Channel 1 Relays do not trip corre...

Page 47: ...ast measured value as default value in V9H7 Example Simulation of volume and current by entry of level in V9H7 Matrix Entry Significance 1 V8H0 6 Select simulation 2 E Register entry 3 V9H7 e g 80 Ent...

Page 48: ...d the transmitter must be recalibrated If the constants were not entered a recalibration is necessary Procedure Step Matrix Entry Significance 1 V3H5 e g 57 2 Enter zero frequency offset 2 E Register...

Page 49: ...n of the fault Caution Special precautions must be observed when sending probes for repair Remove all visible traces of product from the probe If the product can impair health i e is corrosive poisono...

Page 50: ...lume hl gal 12 E Register entry 13 V2H0 1 Activate linearisation 14 E Register entry 15 V0H1 E Tank empty current volume in hl gal 16 E Register entry 17 V0H2 F Tank full current volume in hl gal 18 E...

Page 51: ...tivate manual 19 E Register entry 20 V0H1 E Tank empty current volume in hl gal 21 E Register entry 22 V0H2 F Tank full current volume in hl gal 23 E Register entry Note First pair 0 level in m ft las...

Page 52: ...ation 46 47 Deletion of value pairs 27 horizontal cylindrical tanks 25 46 semi automatic with controlled filling 27 tanks with conical outlet 47 Location 14 M Max fail safe mode 33 Measured value disp...

Page 53: ...V6 V7 V8 V9 Display field The default parameters are as indicated below H0 H1 H2 H3 H4 H5 H6 H7 H8 H9 V0 0 0 100 0 0 1 0 0 100 0 1 V1 90 0 1 2 0 0 1 90 0 1 0 1 0 2 V2 0 0 1 0 0 0 0 1 100 100 V3 0 0 0...

Page 54: ...on Channel 1 Calibration mode 0 level 1 volume Offset Sensitivity Zero offset value Offset of device zero frequency Sensitivity of device For Service only 0 mA D A calibration For Service only 20 mA D...

Page 55: ......

Page 56: ...Tritec S R L Cochabamba Tel 042 56993 Fax 042 50981 Brazil Samson Endress Hauser Ltda Sao Paulo Tel 011 5363455 Fax 011 5363067 Canada Endress Hauser Ltd Burlington Ontario Tel 905 6819292 Fax 905 681...

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