G4S G4A1KY RESIDENTIAL CONVERSION KIT LOW PRESSURE CONVERSION KIT MEDIUM PRESSURE CONVERSION KIT HIGH PRESSURE CONVERSION KIT ULTRASONIC GAS METER

Gas Meters

content G4S G4A1KY RESIDENTIAL CONVERSION KIT LOW PRESSURE CONVERSION KIT MEDIUM PRESSURE CONVERSION KIT HIGH PRESSURE CONVERSION KIT ULTRASONIC GAS METER

G4S G4S Residential Diaphragm Type Gas Meter 1 B F Model A B C D E F G4S 110 196 69 169 225 G 1 1/4 Features Size Inlet Direction Accuracy Class Protection Class Minimum Flow Rate Maximum Flow Rate Cycle Volume Maximum Working Pressure Pressure Loss Working/Storage Temperature Smallest Reading Resolution Maximum Registration Capacity Pulse Output Weight Surface Paint Display Cover Material Service Life Parameters G4 Left 1,5 ( EN 1359) IP54 0,040 m 3 /h 6 m 3 /h 1,2 dm 3 0,5 bar < 2 mbar -25 C +55 C 0,2 dm 3 99999,999 m 3 0,01 m 3 /imp 2,1 kg Plastic Polyester Powder Coating Polycarbonate > 10 years

G4A1KY Prepayment Electronic Gas Meter EMV Compatible 2 A G E B D C Model A B C D E G G4A1KY 110 180 165 185 263 B.S. 746 1 11 inches Features Standart Accuracy Qmin Accuracy Qmax Capacity Meter Body Weight Ambient Working Properties Humudity Storage Temperature Working Temperature Protection Class Maximum Working Pressure Pressure Loss Battery Shut-down System Display Parameters EN 1359 and other international standards + - 3% (Qmin-0,1 Qmax ) (Qmin 0,040 m 3 /h; Qmax 6 m 3 /h) + - 1,5% (0,1 Qmax-Qmax) 1,2 liter Steel 2,9 kg Max. 95% RH (40 C) -30 C / +80 C -20 C / +50 C IP54 0,5 bar < 2 mbar Lithium, 10 years life-time Ex-proof EN500200 Custom design LCD (Liquid crystal display)

GAS METER CONVERSION KITS 3 With today s changing conditions, conventional mechanical gas meters do not comply the requirements of authorities. Authorities fix this shortcomings of mechanical meters with electronic conversion kit. New system saves time and money to the authorities and subscribers. In the electronic conversion kit used systems, mechanical meter continue to function as consumption metering. Conversion kit is a complementary unit to mechanical meter and installed series to the mechanical meter for controlling gas flow electronically. SYSTEM INFRASTRUCTURE In the system, gas authority install electronic conversion kit to the gas network as series connection to the mechanical meter. Connection between conversion kit and mechanical meter is established by a data cable. Conversion kit receives consumption information from the pulse signal output of mechanical meter. In the system all subscribers have one smart card defined with their control kit. Subscribers can not use their smart card with other control kits, these works only with their matched control kit. Conversion kit, converts mechanical metering system info to prepayment. Subscriber purchase credit from credit sales points. Purchased credit is transfered to the conversion kit via smart card. After loading of credit from smart card to conversion kit, there is no need to keep the card inside the unit. Subscriber will not use the smart card till next billing cycle. Conversion Kit Application Advantages 1. Absolute consumption information collection and efficient follow-up of the consumed gas amount 2. Elimination of billing process which will lead to saving from personnel and stationary costs 3. Solution of payment and collection problem between authorities and subscribers 4. Consumption, payment, information collection and control operations are automatically performed in the system.

RESIDENTIAL CONVERSION KIT Prepayment Electronic Conversion Kit Smart Card B G A 4 C D F Model A B C D F G G4 92 99 90 115 G 1 1/4 G 1 Features Signal (Pulse) Reading Performance Minimum Flow (Qmin) Maximum Flow (Qmax) Meter Body Material Meter Cover Material Weight Ambient Working Properties Working Temperature Storage Temperature Humudity Protection Class Maximum Working Pressure Pressure Loss Battery Shut-down System Display Parameters + - 0,15% (BS EN 1359 C.4.3) 0,04 m 3 /h 6,00 m 3 /h Steel ABS 2,9 kg -20 C / +50 C -30 C / +80 C Max. 95% RH (52 C) IP53 (IEC 60529) 0,5 bar 1 mbar Lithium, 10 years life-time Ex-proof (EN500200) Custom design LCD (Liquid crystal display)

LOW PRESSURE Prepayment Electronic Conversion Kit Smart Card 5 F D E A C B D E C A F B U10 - U40 Model A B C D E U 10-25-40 302 168 202 84 63 U 10 402 168 202 84 63 U65 - U250 Model A B C D E U 65-100 330 205 300 103 115 U 160-250 490 390 310 150 130 F G 2 G1 1/4 F 148 168 Model Qmax m 3 /h Qmin m 3 /h U10 G 6 10 0.06 U16 G 10 16 0.10 U25 G 16 25 0.16 U40 G 25 25 0.25 U65 G 40 65 0.40 U100 G 65 100 0.65 U160 G 100 160 1.00 U250 G 160 250 1.60 Features Meter Range Pressure Range Pulse Reading Performance Pulse Input Type Body Front Cover Material Ambient Working Properties Working Temperature Storage Temperature Humudity Protection Class Battery Shut-down System Display Parameters G6 - G160 < 0,5 bar 0.15% (BS EN 1359 C.4.3) CMOS ABS ABS -20 C / +50 C -30 C / +80 C Max. 95% RH (52 C) IP53 (IEC 60529) Lithium, 10 years life-time Ex-proof EN50020 Custom design LCD (Liquid crystal display)

MEDIUM PRESSURE Prepayment Electronic Conversion Kit Smart Card A 6 C B Tip Qmax m 3 /h Qmin m 3 /h U65 G 40 65 0.40 U100 G 65 100 0.65 U160 G 100 160 1.00 U250 G 160 250 1.60 U400 G 250 400 2.50 U650 G 400 650 4.00 U1000 G 650 1000 6.50 U1600 G 1000 1600 10.00 Model A B C U 65-100 490 135 220 U 160-250 490 150 250 U 400-650 490 162 285 U 1000-4000 530 200 315 Features Meter Usage Range Pressure Range Pulse Reading Performance Pulse Input Type Body Front Cover Material Ambient Working Properties Working Temperature Storage Temperature Humudity Protection Class Battery Shut-down System Display Parameters G40 - G1000 0,5-1,0 bar + - 0,15% (BS EN 1359 C.4.3) CMOS, Open Drain Cast iron ABS -20 C / +50 C -30 C / +80 C Max. 95% RH (52 C) IP53 (IEC 60529) Lithium, 10 years life-time Ex-proof EN50020 Custom design LCD (Liquid crystal display)

HIGH PRESSURE Prepayment Electronic Conversion Kit Smart Card 7 B A C D Model A B C D U 65-100, 160-250 330 186 191 180x8 PCS U 400-650 436 266 240 240x8 PCS U 1000-4000 503 325 270 295x8 PCS Model Qmax m 3 /h Qmin m 3 /h U65 G 40 65 0.40 U100 G 65 100 0.65 U160 G 100 160 1.00 U250 G 160 250 1.60 U400 G 250 400 2.50 U650 G 400 650 4.00 U1000 G 650 1000 6.50 U1600 G 1000 1600 10.00 U2500 G 1600 1000 6.50 U4000 G 2500 1600 10.00 Features Parameters Meter Usage Range G40 - G2500 Pressure Range 1-10 bar Pulse Reading Performance + - 0,15% (BS EN 1359 C.4.3) Pulse Input Type CMOS, Open Drain Body Cast iron Front Cover Material ABS Plastic Ambient Working Properties Working Temperature -20 C / +50 C -30 C / +80 C Max. 95% RH (52 C) Storage Temperature Humudity Protection Class Battery Shut-down System Display IP53 (IEC 60529) Lithium, 10 years life-time Ex-proof EN50020 Custom design LCD (Liquid crystal display)

ULTRASONIC GAS METER Human ear can detect sound which has below 20 cycles per second frequency range, it is referred to as infrasound. Ultrasound (ultrasonic) waves have a frequency range that is greater than the upper limit of human hearing, that means, it is higher than 20 khz. History of ultrasound technology started with measuring distance under water using sound waves, it is calling SONAR (Sound Navigation an Ranging.) Today, ultrasound technology is mostly using in biomedical, SONAR, RADAR, cleaning, sonochemistry and also metering sectors. GENERATING ULTRASOUND WAVES Transducers help us to generate ultrasound waves. A transducer is a device, that converts one type of energy or physical attribute to another for various purposes including measurement or information transfer. In metering, transducers convert electrical energy into ultrasound waves by using piezoelectrical crystal. Typical ultrasonic transducer switches back and forth many times a second between acting as an actoator to produce ultrasonic waves, and acting as a sensor to detect ultrasonic waves. 8 An ultrasonic flow meter operating principle depends on measuring velocity of liquid or gas via transducers. The flowmeter operates by alternatively transmitting and receiving ultrasonic signal pulses between the two transducers. The signal travels faster when moving with the flow stream rather than against the flow stream. The difference between the two transit times is used to calculate the flow rate. APPLICATION OF ULTRASOUND IN METERING Ultrasonic meters have been around for many years in primarily water measurement. Now we can see ultrasonic technology for metering natural gas. Ultrasonic gas meters come within many advantages. Unlikely conventional mechancal gas meters (diaphragm gas meters) they have no moving parts. That means mechanical factors do not effect measurement, so there is no mechanical faults. Also this point increases lifetime and decreases upkeep expenses. Ultrasonic gas meters measure very small difference in time that it takes an ultrasonic pulse to travel with and against gas stream. That s measurement is more accurate than classical conventional gas meters. Measurement is slightly affected by environmental parameters like temperature, ultrasonic gas meters operate more stable than mechanical meters. So in metering this new technology is very economical solution than previous technologies.

FEATURES 9 Class 1,5 Accuracy Anti-tamper Alarm Detection Reverse Flow Detection Flow Data Logging (Hourly For 60 Days) Temperature Measurement (Optional) Internal Shut-off Valve (Optional) IP54 Protection ULTRASONIC GAS METER Elektromed G4E1US ultrasonic gas meter is an electronic gas metering device for domestic use. The meter designed according to electronic operating principle, so it does not include any moving part except shut-off valve. Shut-off valve enables controlling the gas consumption status, switches on/off position. Ultrasonic meters measure the velocity of gas of gas inside the measurement path. The digital ultrasonic gas meter has ultrasound technology. Thsi technology needs transducers to generate ultrasound waves. There are two transducers placed inside the measurement path. Ultrasound waves transreceive in each transducers. Gas flow is determined from the difference between the times of flight. The velocity of the gas flow is calculated by using electronics. Electronics calculate the volume of the gas by multiplying the velocity of the gas by the cross-sectional area of the flow path. A digital display is operative to indicate the volume of gas used, and an electricel power supply is used for driving the apparatus. The times of flight are measured by an electronic clock. Finally, a data interface facilitates the feeding of data to or from the meter. The ultrasonic gas meter has highly accurate temperature correction system and extensive diagnostic capability. The meter s volume and mass is smaller than the classical mechanical diaphragm meters. Therefore its compact size reduces installation, maintenance and labor cost. It also has higher safety functions and reliability by real time and keeps measurement accuracy for long time and high volumes. It is very quiet due to no moving mechanical parts. ADVANTAGES OF ULTRASONIC GAS METER AGAINST DIAPHRAGM GAS METERS 1- Real-time Measurement and High-Security System: Ultrasonic gas meters have real-time clock that s why pricing could be changed in any different time zone. Some additional security features are included in Elektromed Ultrasonic Gas Meters like Anti-Gas Escape, Long Time Monotone Consumption, Earthquake Sensor. 2- Accurate Measurement: Transducers perform more accurate measurement than a mechanical measurement unit even in cold weather conditions. 3- Durability: Ultrasonic gas meters do not have any moving part (except prepayment ultrasonic gas meters). So that mechanical aging. Ultrasonic gas meters keep their calibration values very long time. 5- AMR Compatibility: The new generation ultrasonic gas meters could be integrated with AMR. 6- Measuring Gas Temperature: Diaphragm meters can not measure gas temperature. Hereat measurements do not accurate at high or low gas temperatures. Ultrasonic gas meters measure gas temperature and calculate the correct consumed gas amount. 7- Small Sizes: An ultrasonic gas meter is nearly half size of a diaphragm gas meter. The design is very compact and aesthetic. 8- Silent Working: Ultrasonic gas meters are working silently. Because they have no any machanial moving part.

SPECIFICATIONS General Standard Meter Type Meter Model Connection MAP Ambient Temperature Storage Temperature Contamination Filter/Flow Conditioning Measurement Flow Rates Errors (@ 20 C, 21 mbar) EN 14236:2007 Single Path Ultrasonic G4E1US Top in/out 110 mm pitch DN20 or DN25 500 mbar -10 C to +40 C -20 C to +60 C Clean, dry natural gas insensitive to liquid and particulate (glycol, iron dust, pipe sealant) None Qmax : 6 m 3 /h Qt : 0,6 m 3 /h Qmin : 0,04 m 3 /h + - + - 1,5% at between Qmax-Qt 3,0% at between Qt-Qmin 10 Physical Display Case Dimensions Weight 8 mm LCD 8 Digit capacity registration 1 Digit alarm registration (units metric) Galvanzied steel with electrostatics powder paint 220x160x147xmm 2.0 kg Power Voltage Battery Type Battery Life Battery 2,0-3,6 V DC Single D cell lithium Typically 10 years under normal conditions Replaceable in the field Communications RS485 RF MODBUS (Optional) WMBUS (Future Option)

TECHNICAL DRAWING & CHARACTERISTICS 11 1,8 Capacity Curve 1,4 Pressure Drop (mbar) 1,2 1 0,8 0,6 0,4 0,2 0 0 1000 2000 3000 4000 5000 6000 7000 Capacity (I/h) 6 4 Error Curve Callibrated Errors Upper Limit Lower Limit 2 Error % 0-2 -4-6 10 100 1000 10000 Q (I/h)

Organize Sanayi Bolgesi Uygurlar Cd. No:4 06935 Sincan / ANKARA / TURKEY T: (+90 312) 267 13 67 (pbx) F: (+90 312) 267 13 66