s

Manual

SITRANS F US SONOFLO Ultrasonic flowmeter Sensor type SONOCELL

[

]

Order no.: FDK:521H1172 SFIDK.PS.029.B2.02 - A5E00253430

*085R9463*

SITRANS F US SONOFLO

Contents

2

1. 1.1 1.2 1.3 1.4 1.5

Introduction .................................................................................................................... 3 Precision measuring system ........................................................................................... 3 Handling .......................................................................................................................... 3 Permissible pressure and temperature ........................................................................... 3 Corrosion ......................................................................................................................... 3 Calculator type INFOCAL 5 ............................................................................................. 4

2. 2.1

Function .......................................................................................................................... 5 Calibration ....................................................................................................................... 5

3. 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11

Technical data ................................................................................................................ 6 Sizing table (DN 50 to DN 4000) .................................................................................... 6 Specification .................................................................................................................... 7 Installation options, calculator type INFOCAL 5 ............................................................. 8 Technical data INFOCAL 5 .............................................................................................. 9 Permanent memory/account date reading .................................................................... 10 Error handling ............................................................................................................... 10 Optical output ................................................................................................................ 10 Pulse output .................................................................................................................. 10 Fitting/installation .......................................................................................................... 10 INFOCAL 5 operation and reading ............................................................................... 11 INFOCAL 5 display views ............................................................................................. 12

4. 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

Installation .................................................................................................................... 13 Location ......................................................................................................................... 13 Gas bubbles .................................................................................................................. 13 Direction of flow ............................................................................................................. 13 Full pipes ....................................................................................................................... 13 Installation in vertical pipes ........................................................................................... 14 Installation in horizontal pipes ...................................................................................... 14 Measuring liquids containing abrasive or other particles ............................................ 14 Accuracy ........................................................................................................................ 15

5. 5.1 5.2

Electrical connections ................................................................................................. 16 Wiring ............................................................................................................................ 17 Optical data acquisition via the front panel ................................................................... 18

6. 6.1 6.2 6.3

Commissioning ............................................................................................................ 19 SITRANS F US SONOFLO ultrasonic flowmeter ........................................................ 19 Function test .................................................................................................................. 19 Error information ........................................................................................................... 19

7. 7.1

Sealing .......................................................................................................................... 20 User sealings of the SITRANS F US SONOFLO ultrasonic flowmeter type SONOCELL ........................................................................................................... 20

8. 8.1

Trouble shooting ........................................................................................................... 20 Trouble shooting INFOCAL 5 ........................................................................................ 20

9. 9.1 9.2

Ordering ........................................................................................................................ 21 Sensor SONOCELL ...................................................................................................... 21 Accesories for SONOCELL ........................................................................................... 21

10. 10.1 10.2

Accessories ................................................................................................................. 22 INFOLOG hand-held terminal type PSION ................................................................... 22 Optical read-out head ................................................................................................... 23

SFIDK.PS.029.B2.02

SITRANS F US SONOFLO

1.

1.

Introduction

Siemens Flow Instruments SITRANS F US SONOFLO  ultrasonic flowmeters type SONOCELL are designed for measurement of:

Introduction

• • •

Volume Flow rate Peak flow values

SITRANS F US SONOFLO  flowmeters measure flow in standard volumetric units. Measurement is independent of changes in liquid temperature, density, pressure and conductivity.

A time of flight flowmeter is designed for use on clean liquids. A SITRANS F US SONOFLO flowmeter will also operate on liquids containing small amounts of air bubbles and solid particles. Features: • High performance accuracy • Measurements are not affected by the presence of contaminating particles, chemical substances or magnetite in the water • Static metering with no moving parts • No pressure drop • Battery powered • Battery back-up • 24 months memory • Optical data reading with INFOLOG hand-held data logger (see accessories) • 230 V a.c. and 24 V a.c./d.c. optional 1.1 Precision measuring system

The ultrasonic flowmeter is a precision measuring system that is "user friendly", and must be installed in accordance with the instructions given in this manual. SITRANS F US SONOFLO flowmeters are totally obstruction free and thus ensuring reliable and accurate flow measurement with a negligible pressure drop and with excellent performance independent of water quality or conductivity. Having no moving parts means no need for maintenance. SITRANS F US SONOFLO flowmeter type SONOCELL is calibrated at in-house flow laboratories accredited to the European norm ISO/IEC 17025, guaranteeing maximum confidence and traceability back to international standards. Service on the internal parts of the ultrasonic transducers can be done without stopping the water flow and without recalibration of the flowmeter.

1.2 Handling

The sensor should be handled with care. Impact and shock can damage the piezeoelectric crystals located in the transducers.

1.3 Permissible pressure and temperature

Maximum permissible pressure and temperature for Siemens Flow Instruments ultrasonic flowmeters can be seen on the sensor label. Flanges according to EN Flanges and joints as well as related pressure/temperature (p/t) classification have been described in EN 1092-1. For steel group 1E1: Table 15. Flange norm EN 1092-1 has replaced previous DIN norms in the middle of 2002. Warning! Exposing the sensors to pressures/temperatures above the limits stated may cause damage. The sensor construction does not allow any other external action other than what is normal during common mounting in the pipeline. The transducer holders must not be used for any other purpose.

1.4 Corrosion

The flowmeters type SONOCELL have been designed with a corrosion allowance of 2 mm. The flowmeters are designed for use in the irrigation and water industry and are therefore not included in the PED directives. The customer is responsible for checking that the actual medium can be used with the sensor. SFIDK.PS.029.B2.02

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SITRANS F US SONOFLO

1.

Introduction

1.5 Calculator type INFOCAL 5

INFOCAL 5 is a universal calculator, which meets the requirements of OIML R75 Class 4 and EN 1434. INFOCAL 5 can be used for up to 25,000 m3/h.

INFOCAL 5 approvals

TS

27.01. 101

EN 1434

TS

27.01. 105

OIML R75 Class 4

Features

Basic functions • High accuracy volume flow metering • Optical data reading • D-cell battery included (8 years +) • Instantaneous values for volume flow • 24 months’ memory • Error logging with date and time • Pulse output • Battery back up Additional functions • Read-out of account date Accessories • 230 V a.c. module • 24 V a.c./d.c. module

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PTB

22.55 00.04

C-tick

SITRANS F US SONOFLO

2.

2.

Measuring with ultrasonics

Function

Function

Velocity distribution along sound path

Velocity distribution in pipe

Time of flight

Physical principle A sound wave travelling in the same direction as the liquid flow arrives at point B from point A in a shorter time than a sound wave travelling against the direction of flow (from point B to A). The difference in sound transit time indicates the flow velocity in the pipe. Measuring principle In SITRANS F US SONOFLO flowmeters the two ultrasonic transducers are placed at an angle θ in relation to the pipe axis. The transducers function as transmitters and receivers of the ultrasonic signals. Measurement is performed by determining the time the ultrasonic signal takes to travel with and against the flow. The principle can be expressed as follows: V=K t down = t up = V = t = K =

tA, B tB, A Average flow velocity Transit time Proportional factor

tdown − tup tup x tdown

=K

∆t t2

This measuring principle offers the advantage that it is independent of variations in the actual sound velocity of the liquid, i.e. independent of the temperature. Proportional factor K is determined by wet calibration. 2.1 Calibration

All SONOCELL flowmeters are wet calibrated with volumetric reference on Siemens Flow Instruments Flow Laboratories. Siemens Flow Instruments flow laboraties are accredited by the United Kingdom Accreditation Service (UKAS Accredited Calibration Laboratory No. 0301) and DANAK (DANsk AKreditering). The accreditation is carried out according to the same standard - ISO/IEC 17025 “General requirements for the competance of testing and calibration laboratories”. The principle is shown in the figure below and consists of a pump, pipework, valve and a tank of a known volume.

The calibration is carried out by filling the pipe section with water, opening the valve and filling the tank. After a certain time the valve is closed and the volume can be read directly on the tank, typically from a scaled indicator. The reading can be made directly in litres and is therefore ideal for calibration of volume meters. SFIDK.PS.029.B2.02

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SITRANS F US SONOFLO

3.

3.

Technical data

Technical data

3.1 Sizing table (DN 50 to DN 4000)

The table is a general sizing table for ultrasonic flowmeters. SONOCELL is available in sizes from DN 80 (3”) to DN 400 (16”).

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SITRANS F US SONOFLO

3.2 Specification

3.

Technical data

Enclosure Material body Material transducer Material terminal box housing Mechanical vibration Ambient temperature CE-mark EMC Low voltage Sensor description Nominal size Process connections

Transducer Flow velocity Supply voltage Pulse out cable

DN DIN 2501 PN 10 80 100 125 150 200 225 250 300 350 400

340 395 445 505 565

D (mm) DIN AS 4087 2501 Fig B7 PN 16 Cl. 14 200 185 220 215 250 285 280 340 335 370 405 405 460 455 520 525 580 580

SFIDK.PS.029.B2.02

IP 68 to IEC 529 0.2 bar Hot-dipped galvanized steel Stainless steel 316SS Fiberglass-reinforced polyamide 2G 1-800 Hz sinusoidal in all directions to IEC 68-2-6 Operation: 2°C...55°C Storage: –10°C...85°C CENELEC Emission EN 50081-1 Immunity EN 50082-2 According to EN 60730 1-track sensor with flanges and integrated transducers DN 80, DN 100, DN 125, DN 150, DN 200, DN 225, DN 250, DN 300, DN 350, DN 400, 3", 4", 5", 6", 8", 10", 12", 14", 16" DN 80 to DN 400 (Except DN 225) PN 10 & PN 16 EN 1092-1 3" to 16" ANSI B 16.5 Class 150 DN 80 to DN 400, AS 4087, Fig B7, Class14 Integrated version screwed into body with ¾“ pipe thread 0 m/sec. to 6 m/sec. 0 ft./sec. to 20 ft./sec. 3.6 V battery, 230 V a.c. 24 V d.c. 10 meter PUR 3 x 0.5 mm2

ANSI B.16.5 Cl. 150 190.5 228.6 254.0 279.4 342.9 406.4 482.6 533.4 596.9

du (mm) 88.9 114.3 141.3 168.3 219.1 244.5 273.0 324.0 356.7 407.0

di (mm) 82.9 107.1 128.1 158.3 206.5 231.9 260.4 311.4 340.9 391.2

L (mm) 400 374 395 395 350 450 450 500 550 600

A (°) 45 45 45 45 60 60 60 60 60 60

Weight (kg) 18 25 29 35 54 70 73 83 98 119

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3.

Technical data

3.3 Installation options, calculator type INFOCAL 5

Max. 55°C

•

On the wall The calculator is mounted using the wall fitting supplied. (Ambient temperature max. 55°C).

•

In panel Mounting hole of 130 x 90 mm. The calculator is fixed using M3.5 x 12 mm self-tapping screws.

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SITRANS F US SONOFLO

3.4 Technical data INFOCAL 5

3.

Technical data

Optical connection Protocol Connection Pulse output ON time ON current External supply Supply data Internal voltage Current consumption Battery Battery lifetime Power supply optional Environment/safety Generally Ambient temperature Storage temperature Enclosure Vibrations Free fall EMC Personal safety Materials Top Pipe/wall fitting Other plastic parts Gaskets Rubber bushing Packaging

SFIDK.PS.029.B2.02

EN 60870-5 Optical eye, 600 baud, EN 61107 > 30 ms ≤ 10 mA ≤ 24 V d.c. 3.6 +0.1/−0.4 V d.c. Typically 45 µA 3.6 V lithium D-cell Typically 8 years 230 V a.c. +15/−30% 50/60 Hz 24 V a.c. EN 1434 −20...+55 °C −25...+70 °C IP 54 in accordance with IEC 529 1G, 1 & 1000 Hz in accordance with IEC 68-2-34 IEC 68-2-32 EN 1434 (EN 50081-1 / 50082-1) EN 60730 Polycarbonate Lexan 141R Transparent 111 PA 6,6 GF25 ABS Cycolac GPM500 Neoprene EPDM 50 Bio-degradable cardboard

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SITRANS F US SONOFLO

3.

3.5 Permanent memory/ account date reading

The LOG of the calculator is updated every 10 minutes with all the cumulative values: Date, Σ water, date/time and info code.

Technical data

INFOCAL 5 allows for account date outputs. If the use of account date output has been selected during configuration, the above data are stored to enable output to a selected date in the year. All data are stored for a further 24 months in a record for possible subsequent study of operating conditions in the system.

Accounting date output

The accounting date is set as standard to June 1.

3.6 Error handling

If INFOCAL 5 records an error, this will be indicated by a ”!” in the display for a sensor error or for another error. The error will similarly be recorded on the LOG. The LOG can contain up to 10 errors with a statement of date/time of occurrence of the error and de-occurence of the error. When using the function key it is possible to read the error code which is indicated by an ”F”. Resetting the error code can be done either by using a hand terminal or by briefly separating the calculator top from the lower part and re-connecting it with the lower part, while the operating button is held down. INFOCAL 5 is now in a reset mode and error codes can be deleted from the display. The following errors can be detected: F3 Internal equipment error F5 Overflow exceed Qs

3.7

Optical output

INFOCAL 5 is fitted with an optical infra-red send/receive port. A reader head with a permanent magnet in accordance with EN 1434 can be used for programming/ altering programming of readout data, configuration data, etc. The reader head can also be used to amend measuring data.

3.8

Pulse output

Pulse output module The pulse output module contains: 3 terminals for RS 232 (DATA, REQ and GND) 2 terminals for CE (volume pulse output) 2 terminals for CV (not in use) Data transfer via RS 232 only with SW from Siemens Flow Instruments CE: Volume pulse output. 1 pulse per change in the least significant digit in the volume flow unit and resolution selected.

3.9

10

Fitting/installation

INFOCAL 5 can be mounted in a panel or on a wall. It is not possible to fit INFOCAL 5 compactly on the sensor body. Installation instructions are enclosed with the flowmeters.

SFIDK.PS.029.B2.02

SITRANS F US SONOFLO

3.

3.10 INFOCAL 5 Operation and reading

The INFOCAL 5 is supplied with only one control button

Technical data

.

In the normal state of operation the display will show the cumulative volume flow. The display will always be configured in accordance with the customer’s application and selected settings and consequently there will be less or more display options under the individual display menus.

Serial number/customer number

Other error

Peak flow

Main menu Sub-menu Reset symbol

•

Pressing the button briefly: the display switches to the next display menu and the indicator arrow shifts to the next position.

•

Pressing the button for a longer period of more than 2 sec.: the display switches to the submenu for reading secondary parameters. The arrow has 2 bars indicating that you are in a submenu.

•

Repeated brief pressing of the sub-menus.

If the

button: the display switches between the possible display

button is not pressed for 1 minute the display returns to the first main menu.

SFIDK.PS.029.B2.02

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SITRANS F US SONOFLO

3.

Technical data

3.11 INFOCAL 5 Display views

Note: In views of values that include the date, the display will “swap” between value and date

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SITRANS F US SONOFLO

4.

4.

To ensure optimum performance it is essential that the following instructions are followed.

Installation

4.1 Location

Installation

The SONO sensor can be installed both inside or outside, even in exposed conditions. The sensor is suitable for temperatures as stated in the data table chapter 3.2. “Specification” and the data plate on the sensor. The SONOCELL sensor body is IP 68 as standard and the INFOCAL 5 display unit is IP 54 as standard.

4.2 Air/gas bubbles

Avoid air collecting in the sensor as air/gas bubbles will affect measurement. When air is present, installation of an air separator upstream of the meter is recommended.

4.3 Direction of flow

The double arrow marked on the sensor "+" and "−". + indicates the flow direction.

4.4 Full pipes

The sensor must always be completely full of liquid.

The following installations should be avoided: • installation at the highest point in the system • installation in vertical pipes with free outlet

With partially full pipes or pipes with free outlet, the flowmeter should be located in a U-tube.

SFIDK.PS.029.B2.02

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SITRANS F US SONOFLO

4.

Installation

4.5 Installation in vertical pipes

Recommended direction of flow: upwards. This will minimize the effect of gas/air bubbles on the measurement.

4.6 Installation in horizontal pipes

The sensor must only be mounted as shown in the figure. Note the position of the terminal box.

4.7

It is preferable to mount the sensor in a vertically inclined line to minimize wear.

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Measuring liquids containing abrasive or other particles

SFIDK.PS.029.B2.02

SITRANS F US SONOFLO

4.

4.8

To obtain optimum flowmeter accuracy and ensure the best measuring performance, it is important to have a fully developed flow profile, i.e. straight inlet before the meter and no partly open valves or pumps in the meter inlet.

Accuracy

Installation

SONOCELL has an error < ± 1 % under reference conditions as stated above. See table

Flowmeter SONOCELL accuracy V ≥ 0.5 m/s E: ±1% of actual flow V < 0.5 m/s

E: ±0.5% v[m/s] of actual flow

Flow rate: • Cut off: 1.5% of Qnom. • Qmax. = 2 x Qnom. • Qnom. = 3 m/sec. Repeatability: Better than 0.25% of actual flow in the range from 0.5-6 m/sec. For more information see chapter 9 “Ordering”

SFIDK.PS.029.B2.02

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SITRANS F US SONOFLO

5.

5. Electrical connections

Remove the calculator top.

Electrical connections

Battery module The lifetime of the battery is highly dependent on thermal influences and consequently the period of functioning of the calculator can only be guaranteed if the temperature limits set out in the section “Installation options” are not exceeded.

1.

Push the battery into place in the bottom section and press the power supply cable into the cutout in the top of the bottom section so that it is not crushed when refitting the top of the calculator.

2.

Fit the plug to the connection pin.

3.

Refit the top of the calculator.

230 V a.c. and 24 V d.c. module

16

1.

Remove the battery.

2.

Push the power supply unit into place in the bottom section.

3.

Press the power supply cable into the cutout in the top of the bottom section so that it is not crushed when refitting the top of the calculator.

4.

Mount the plug on the connection pin.

5.

Connect the 230 V a.c. lines to terminals 27 and 28.

6.

Refit the top of the calculator.

SFIDK.PS.029.B2.02

SITRANS F US SONOFLO

5.

5.1 Wiring

The flowmeter sensor must be connected to the following terminals of INFOCAL 5, see fig. • • •

Electrical connections

9 brown or red (+) 10 white (signal) 11 green or blue (−)

Output module (Pulse output for accumulated volume/alarm signals and data output).

1.

Data; terminal 62 (Data), 63 (Request), 64 (GND). The INFOCAL 5 requires a special adapter cable for communication with a PC due to signal modification to RS 232 level.

SFIDK.PS.029.B2.02

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SITRANS F US SONOFLO

5.

5.2 Optical data acquisition via the front panel

An optical, infra-red transmitter/receiver is located in the bottom right corner of the front panel, in accordance with the EN 61107 standard. The data format complies with IEC 870 in start mode and can be subsequently changed to a format specified by the manufacturer. A standard optical head with a permanent magnet is used to read data and configure tariff limits.

Electrical connections

2

RXD

Receive Data

3

TXD

Transmit Data

4

DTR

Data Terminal Ready

5

SG

Signal Ground

Siemens Flow Instruments data acquisition head can be connected to both Siemens Flow Instruments hand-held terminal and a standard IBM-compatible computer with Windows. For further information on the hand-held terminal or PC-software, please contact Siemens Flow Instruments.

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SITRANS F US SONOFLO

6.

6.

6.1 SITRANS F US SONOFLO ultrasonic flowmeter

The flowmeter operates correctly when the actual reading in the INFOCAL 5 shows value and the error relay is de-energised as shown under electrical connection. If there is no flow indication, check the wiring to make sure that the pulse output is in use. If the current output is not in use, there should be a short circuit, otherwise please contact Siemens Flow Instruments .

6.2 Function test

Before leaving the unit check the following:

Commissioning

Commissioning

Flowmeter 1. That the flowmeter is fitted correctly in the direction of the water flow. INFOCAL 5 1. That no error function is indicated by the

6.3 Error information

symbol.

2.

Press the button briefly to check that all major functions display feasible values, e.g. cumulative water quantity.

3.

Press the button repeatedly to return the arrow indicator to the top “INFO” and check that all display segments are visible.

If an

error code is displayed this is due to one of the following possible errors:

F3 F5

Internal fault Overflow exceeds Qs Resetting errors Error states can be reset either: 1. Using a hand-held terminal (see instructions for use of hand-held terminal). 2.

Without using a hand-held terminal.

Without using hand-held terminal 1. Lift the top of the calculator off the bottom section and wait until the digits in the display disappear (this may take up to 30 seconds). 2.

Hold in the button and keep it pushed, whilst putting the top of the calculator back on the bottom section. The character for reset mode is now shown and the display will show:

3.

Brief press: jumps through the various reset options.

4.

Long press: resets the error.

5.

After reset the error number and

SFIDK.PS.029.B2.02

will disappear from the display.

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SITRANS F US SONOFLO

7.

Sealing

7.

Sealing & 8. Trouble shooting

Pockets

INFOCAL 5

7.1 User sealings of the SITRANS F US SONOFLO ultrasonic flowmeter, type SONOCELL

After installation the "user" sealings have to be made by the local authorities. If due to some reason the user sealings must be broken (e.g. for trouble shooting), the user sealings must be made again by the local authorities. 8.

Trouble shooting

Experience shows that function failure seldom lies in the flowmeter. In most cases, function failure can be traced to: • Air in the liquid • Incorrect installation of measuring pipe • Incorrect cabling

8.1 Trouble shooting INFOCAL 5

Symptom Display not functioning (blank display) No accumulation of m3 or Ml or MUSG Faulty accumulation of m3 or Ml or MUSG No display of flow in m3/h or USG/h

Possible reason No power supply

Proposal for correction Check power supply

No volume pulses

Check flowmeter connection Check flowmeter direction Send meter for repair Invert flowmeter Check wiring of pulse/power cable and power supply

Error in flowmeter Flowmeter inverted Mismatch of pulse/power cables

If no possible reason can be found, please contact Siemens Flow Instruments.

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SITRANS F US SONOFLO

9.

Ordering

9.1 Sensor type SONOCELL

9.

Size DN 80 100 125 150 200

225 250

300

350

400

9.2 Accessories for SONOCELL

Ordering

Flange type (RF) EN 1092-1 AS 4087 Fig B7 EN 1092-1 AS 4087 Fig B7 EN 1092-1 EN 1092-1 AS 4087 Fig B7 EN 1092-1 EN 1092-1 AS 4087 Fig B7 AS 4087 Fig B7 EN 1092-1 EN 1092-1 AS 4087 Fig B7 EN 1092-1 EN 1092-1 AS 4087 Fig B7 EN 1092-1 EN 1092-1 AS 4087 Fig B7 EN 1092-1 EN 1092-1 AS 4087 Fig B7

PN

Q min.

Q nom.

Q max.

16 Class 16 Class 16 16 Class 10 16 Class Class 10 16 Class 10 16 Class 10 16 Class 10 16 Class

m 3/h 5.5 5.5 10 10 15 22 22 38 38 38 45 55 55 55 85 85 85 100 100 100 140 140 140

m 3 /h 55 55 100 100 150 220 220 380 380 380 450 550 550 550 850 850 850 1000 1000 1000 1400 1400 1400

m 3/h 100 100 170 170 240 360 360 650 650 650 750 950 950 950 1400 1400 1400 1700 1700 1700 2200 2200 2200

14 14

14

14 14

14

14

14

14

Brackett for INFOCAL 5 wall mounting (12 pcs) Infra-red optical head for data acquisition INFOLOG complete with cable and SW for SONOCELL Flash and disc for INFOLOG 3.6 V D-cell for INFOCAL 5 230 V a.c. supply module for INFOCAL 5 24 V a.c. supply module for INFOCAL 5 3.0 V battery CR2032 for INFOCAL 5 (back-up) (10 pcs.)

SFIDK.PS.029.B2.02

Pulse out 0.1 0.001 0.1 0.001 0.1 0.1 0.001 1 1 0.001 0.001 1 1 0.001 1 1 0.001 1 1 0.001 1 1 0.001

Pulse out unit m3 ML m3 ML m3 m3 ML m3 m3 ML ML m3 m3 ML m3 m3 ML m3 m3 ML m3 m3 ML

Code No.

FDK:085L3350 FDK:085L3352 FDK:085L3353 FDK:085L3355 FDK:085L3386 FDK:085L3356 FDK:085L3358 FDK:085L3359 FDK:085L3360 FDK:085L3362 FDK:085L3389 FDK:085L3363 FDK:085L3364 FDK:085L3366 FDK:085L3367 FDK:085L3368 FDK:085L3370 FDK:085L3371 FDK:085L3372 FDK:085L3374 FDK:085L3375 FDK:085L3376 FDK:085L3378

Code No. FDK:087H0117 FDK:087H0108 FDK:085L1960 FDK:085L1961 FDK:087H0113 FDK:087H0114 FDK:087H0114 FDK:087H0116

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10.

10. Accessories

• • • • •

Accessories

10.1 INFOLOG hand-held terminal type PSION

Description

INFOCAL 5 readings via serial interface Parameter setup Back-up of readings Update possibilities via PC software/internet Up to 1500 readings

The INFOLOG system consists of the INFOLOG unit, a flash memory card with software, a zero modem data transfer cable and 3 diskettes with both data transfer programme and software for updates. INFOLOG can read out actual values, account readings or monthly readings of the INFOCAL 5 with comma separated digits and units. In order to avoid any mistakes of use, the INFOLOG can be programmed to only carry out readings defined by the owner of the unit or the authorities. INFOLOG is able to work as a service unit offering the following possibilities: • Read/reset error codes • Read/change customer number • Billing date (Account date) • Date/time of INFOCAL 5 INFOCAL 5 readings can be read via the optical eye or remote by means of a data module in the INFOCAL 5. The INFOLOG data transfer software is able to store data as a standard ASCII comma separated file to be used in billing programs or exported into e.g. an Excel spreadsheet for further data processing. INFOLOG is easy to operate – all commands are executed by means of F1, F2, F3 and F4.

Technical data

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Supply Back-up Protocol Display Capacity Weight Dimensions Humidity Temperature

SFIDK.PS.029.B2.02

2 pcs L6 1.5 V AA batteries (included) 1 pc of Lithium CR 1620 battery (included) IEC 1107 / RS 232 Alphanumeric display with background illumination 1500 readings 325 g 180 x 90 x 35 mm 90% non-condensing −20 °C...+60 °C

SITRANS F US SONOFLO

10. Accessories

10.2 Optical read-out head

Description

•

Designed for use with INFOLOG hand-held terminal or PC for re-programming

•

Complies with IEC 1107/EN 61107

The optical read-out head is used together with INFOLOG to read-out data from the INFOCAL 5. Data transmitting uses infra-red light in the two way communication. Due to low power consumption whenever communication takes place, the position of the optical head on the INFOCAL 5 must be accurate and with the cable turning downwards against the cable inlet on the INFOCAL 5. Note The read-out head contains a strong magnet in order to keep position on the INFOCAL 5. Keep the read-out head away from any diskettes or computers as it may damage data.

Technical data

Baud rate Ambient temperature Storage temperature Enclosure Cable length Dimension Weight Magnet material Plug

SFIDK.PS.029.B2.02

300/600 bau/sec. −10°C…+55°C −20°C…+70°C IP 53 1.5 meter Diameter 32 x 25 mm 0.1 kg Ferrite 9 pole D-sub.

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We have checked the contents of this manual for agreement with the hardware and software described. Since deviations cannot be precluded entirely, we cannot guarantee full agreement. However, the data in this manual are reviewed regularly and any necessary corrections included in subsequent editions. Suggestions for improvement are always welcomed.

The reproduction, transmission or use of this document or its contents is not permitted without express written authority. Offenders will be liable for damages. All rights, including rights created by patent grant or registration of a utility model or design, are reserved.

Technical data subject to change without prior notice.

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