E C t y p e - e x a m i n a t i o n C e r t i f i c a t e

E C t y p e - e x a m i n a t i o n C e r t i f i c a t e Page 1 of 1 Issued by Manufacturer Measuring instrument NMi Certin B.V., designated and notified by the Netherlands to perform tasks with respect to conformity modules mentioned in article 9 of Directive 2004/22/EC, after having established that the Measuring instrument meets the applicable requirements of Directive 2004/22/EC, to: Krohne Altometer Kerkeplaat 12 3313 LC Dordrecht The Netherlands A model of a water meter. Type : OPTIFLUX x300c; OPTIFLUX x000f + IFC300y * Valid until 30 October 2016 Environment classes : M1 / E2 Temperature range liquid : +0,1 C / +50 C Temperature range ambient : -25 C / +55 C Measuring range : See 1.2 of the description Further properties are described in the annexes: Description T10003 revision 13; The Documentation folder T10003-4. Remarks This revision replaces the earlier versions, except for its documentation folder. *) With x being 1, 2, 4, 5 or 6 and with y being F or W Issuing Authority NMi Certin B.V., Notified Body number 0122 5 September 2014 C. Oosterman Head Certification Board NMi Certin B.V. Hugo de Grootplein 1 3314 EG Dordrecht The Netherlands T +31 78 6332332 certin@nmi.nl www.nmi.nl This document is issued under the provision that no liability is accepted and that the applicant shall indemnify third-party liability. The designation of NMi Certin BV.as Notified Body can be verified at http:// ec.europa.eu/enterprise/newapproach/nando/ Parties concerned can lodge objection against this decision, within six weeks after the date of submission, to the general manager of NMi (see www.nmi.nl). Reproduction of the complete document only is permitted.

Page 1 of 6 1 General information on the water meter All properties of this water meter, whether mentioned or not, shall not be in conflict with the legislation. 1.1 Essential Parts 1.1.1 Measurement Sensor - Cylindrical pipe The cylindrical pipe is internally covered with an insulating liner. Through the liner the 2 electrodes are in contact with the liquid. Outside the pipe the 2 magnetic coils are mounted. Also see the Documentation Folder for details about the liner and the process connection of the meter. 1.1.2 Signal Converter 1.1.2.1 Essential parts of the Signal Converter - Back plane Used for all internal connections inside the Signal Converter. - Sensor board Driving the magnetic coils inside the measurement sensor, and checks the current required for the coils. Measures the induced voltage and processes the induced voltage to flow speed, flow rate, etc. Also validates the voltage sensing circuitry. Communicates with the other modules through the internal data-bus (GDC-bus). - Display module with optical keys Displays all measurement values. The values presented and the format is programmable. The settings are secured with the "Weights and Measure" (W&M) jumper. Read the 4 optical keys. These keys can be used for: paging through the 3 measurement pages, setting and changing of parameter via a menu system. GDC master The GDC master controls all data traffic over the GDC-bus. If the master fails, measurements are not possible. All data communication over the GDC-bus is protected through CRC16 checksums. GDC-bus port Used for the Weights and Measures jumper. This locks all weights and measures parameters against changing. - Power supply Available are: 100-230 VAC, 50/60 Hz 12-24 VDC (grounding mandatory) 24 V AC/DC (grounding mandatory) - Output boards The output board(s) installed determine the possible outputs available. Possible are: Basic IO Module (IFC300 type CG300xx100) This board has the following outputs: Current Output including digital Hart protocol, Status output or Control input, Status output and single channel pulse output.

Page 2 of 6 EXI IO Module (IFC300 type CG300xxYZ0) This module has a basic layout. Depending on the required functionality, certain components are placed on the board. Possible are: Y = 2: Current output (active) with Hart protocol and pulse output (passive) Y = 3: Current output (passive) with Hart protocol and pulse output (passive) Z = 2: Current output (passive) and pulse output (passive)/control input (passive) Modular IO (IFC300 type CG300xx4YZ) This is a modular IO board, providing: Current output (active) with Hart protocol and a pulse output (active). 2 places for modules (indicated with Y and Z) for extra outputs: Y = 8: No module placed Y = A: Current output (active) Y = C: Pulse output (active) Z = 8: No module placed Z = A: Current output (active) Z = C: Pulse output (active) RS485 Modbus (IFC300 type CG300xxGYZ) The flow converter with RS485 interface is able to communicate with an external device using the Modbus protocol. Possible are: 2 places for modules (indicated with Y and Z) for extra outputs: Y = 8: No module placed Y = A: Current output (active) Y = B: Current output (passive) Y = C: Pulse output (active) Y = E: Pulse output (passive) Z = 8: No module placed Z = A: Current output (active) Z = B: Current output (passive) Z = C: Pulse output (active) Z = E: Pulse output (passive) Remarks: The Hart protocol is superimposed on the DC current signal and enables the water meter to communicate with other equipment. If pulses are used for the transmission of the measured volume to other equipment, the use of two pulse channels (also called double pulses) is mandatory. Both pulse channels must be shifted in phase. 1.1.2.2 Essential shapes of the Signal Converter - Housing The housing of the Signal Converter consists of: Metallic housing (compact and remote version). Optionally the housing is explosion proof. Plastic housing for wall mounting (only possible for the remote version).

Page 3 of 6 1.2 Essential Characteristics - Measurement sensor Characteristics stated on page 1 of EC type-examination certificate no. T10003. Further characteristics are given in the following table: Meter size DN25 DN32 DN40 DN50 Minimum flow rate Q1 (m 3 /h) 0,040 0,0625 0,0625 0,10 Transitional flow rate Q2 (m 3 /h) 0,064 0,10 0,10 0,16 Permanent flow rate Q3 (m 3 /h) 16 25 25 40 Overload flow rate Q4 (m 3 /h) 20 31,3 31,3 50 Nominal diameter (mm) 25 32 40 50 Indicating range (m 3 ) (minimum value) 99.999 0,0001 Meter size DN65 DN80 DN100 DN125 Minimum flow rate Q1 (m 3 /h) 0,1587 0,254 0,3968 0,6349 Transitional flow rate Q2 (m 3 /h) 0,25 0,40 0,6 1,0 Permanent flow rate Q3 (m 3 /h) 100 160 250 400 Overload flow rate Q4 (m 3 /h) 125 200 312,5 500 Nominal diameter (mm) 65 80 100 125 Indicating range (m 3 ) (minimum value) 999.999 0,0001 0,001 Meter size DN150 DN200 DN250 DN300 Minimum flow rate Q1 (m 3 /h) 0,6349 1,0 1,6 2,5 Transitional flow rate Q2 (m 3 /h) 1,0 1,6 2,6 4,0 Permanent flow rate Q3 (m 3 /h) 400 1000 1600 2500 Overload flow rate Q4 (m 3 /h) 500 1250 2000 3125 Nominal diameter (mm) 150 200 250 300 Indicating range (m 3 ) (minimum value) 999.999 9.999.999 0,001

Page 4 of 6 Meter size DN350 DN400 DN450 DN500 Minimum flow rate Q1 (m 3 /h) 5,0 8,0 8,0 12,6 Transitional flow rate Q2 (m 3 /h) 8,0 12,8 12,8 20,2 Permanent flow rate Q3 (m 3 /h) 2500 4000 4000 6300 Overload flow rate Q4 (m 3 /h) 3125 5000 5000 7875 Nominal diameter (mm) 350 400 450 500 Indicating range (m 3 ) (minimum value) 9.999.999 0,01 Meter size DN600 DN700 DN800 DN900 Minimum flow rate Q1 (m 3 /h) 39,375 125 125 200 Transitional flow rate Q2 (m 3 /h) 63 200 200 320 Permanent flow rate Q3 (m 3 /h) 6300 10000 10000 16000 Overload flow rate Q4 (m 3 /h) 7875 12500 12500 20000 Nominal diameter (mm) 600 700 800 900 Indicating range (m 3 ) (minimum value) 9.999.999 99.999.999 0,1 Meter size DN1000 DN1200 DN1400 DN1600 Minimum flow rate Q1 (m 3 /h) 200 200 312,5 312,5 Transitional flow rate Q2 (m 3 /h) 320 320 500 500 Permanent flow rate Q3 (m 3 /h) 16000 16000 25000 25000 Overload flow rate Q4 (m 3 /h) 20000 20000 31250 31250 Nominal diameter (mm) 1000 1200 1400 1600 Indicating range (m 3 ) (minimum value) 99.999.999 0,1 1

Page 5 of 6 The following characteristics are applicable for all sizes: Maximum admissible pressure (bar) 16 Min/max admissible temperature ( C) +0,1 / +50 Orientation Power supply Type Umax Umin Frequency All positions AC DC AC/DC 230 V 24 V 24V 100 V 12 V 24V 50 60 Hz - AC: 50-60 Hz All water meters can be used bi-directional. Electronic revision number The electronic revision number is used to lay down the software version and the hardware of the instrument. If either changes, the number is updated. Approved electronic revision numbers: 3.2.4_; 3.2.6_; 3.2.7_; 3.3.0_; 3.3.1_; 3.3.2_; 3.3.3_; and 3.3.5_. The electronic revision number is stored under menu items B3.6 and C5.1.6. See the manual in how to access the parameters. Software specification: The first approved version of the water meter number. The approved software version is identified as: Main software: 2.2.1. Menu items B3.3 and C5.1.5 User interface: 3.1.0. Menu item B3.4 and C5.2.5 See the manual in how to access the parameters. - The signal converter is either directly mounted on the measurement sensor (compact version) or is mounted separately from the measurement sensor (remote version) - The measurement sensor and the signal converter form a matched set. The exact physical properties of the measurement sensor are pre programmed into the signal converter. - Working principle The magnetic field, generated through the 2 magnetic coils, induces a voltage across magnetic field). This induced voltage is measured with the 2 electrodes and is directly proportional to the flow speed. By taking into account the pipe dimensions the flow rate can be calculated, displayed and outputted. By integrating over time the total measured volume can be calculated and displayed. The validity of the program and the parameters is continuously checked. If these checks fail an alarm is generated. 1.3 Essential Shapes 1.3.1 Markings - The markings have to fulfil the requirements stated in the legislation. - The data plate is fixed to the water meter and secured against removal by a seal or will be destroyed when removed.

Page 6 of 6 - For the remote version: The serial number of the signal converter is mentioned on the measurement sensor and/or the serial number of the measurement sensor is mentioned on the signal converter. 1.3.2 EMI protection measures - Grounding of the shielding of the I/O cable when the Modbus interface is used. 1.4 Conditional Shapes - Cylindrical pipe The cylindrical pipe is constructed so that the combination of material and wall thickness is such that the influence due to changing liquid pressure is negligible 2 Seals The following seals are applied: - The cover of the display of the signal converter against opening. -bus of the display of the signal converter. This jumper prohibits the changing of the Weights and Measures parameters. 3 Conditions for Conformity Assessment - If the water meter is used bi-directional, both flow directions must be included in the verification.