Fuji Electric Portaflow-C FSC-4 Ultrasonic Flow Meter Manual

Instruction Manual

PORTABLE TYPE ULTRASONIC FLOWMETER

TYPE: FLOW TRANSMITTER FSC-4 DETECTOR FSS-1, FSD-1

INF-TN4FSC-E PREFACE

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INF-TN4FSC-E i CONTENTS

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iv INF-TN4FSC-E WARNING SYMBOLS AND THEIR MEANINGS

Be sure to observe the following precautions. They offer important information on safety. 2SHUDWLQJWKLVGHYLFHLQDPDQQHUQRWVSHFL¿HGPD\GDPDJHLWVSURWHFWLYHFRQVWUXFWLRQ Ɣ 7KHGHJUHHRILQMXULHVRUGDPDJHVUHVXOWLQJIURPLPSURSHUKDQGOLQJRIWKLVGHYLFHLVLQGLFDWHG by different symbols.

Improper handling of this device may cause dangerous CAUTION VLWXDWLRQVWKDWUHVXOWLQSHUVRQDOLQMXU\RUSURSHUW\GDPDJH

Ɣ 7KHIROORZLQJV\PEROVGHVFULEHLWHPVWREHREVHUYHG

The symbol indicates “prohibition”. Do not modify this device.

The symbol indicates “mandatory” Be sure to pull out the plug. action to be taken.

The symbol provokes “cautions”. Be careful. It may result in fire.

INF-TN4FSC-E v SAFETY PRECAUTIONS

Be sure to read this “Safety Precautions” carefully beforehand for the correct and safe use of this device. WARNING

Do not touch the switch with a wet hand. Do not break or pull the power cord.

Do not touch the switch Do not put heavy items with a wet hand. on the power cord. Otherwise it may result in Do not modify or pull the electric shock. power cord. Prohibition Otherwise it may break Prohibition and result in electric shock and fire.

Do not disassemble. Do not use electric parts soaked in water.

Do not disassemble this Replace electric parts or wires device. soaked in water due to floods Otherwise it may result in an or some other reasons with accident. new ones. Otherwise it may result in Disassemble Prohibition electric shock or fire. is prohibited.

Pull out the plug immediately in case of an emergency. In case of abnormal odor, smoke Do not repair. or fire is perceived, pull the power plug immediately. Ask an authorized Do not use the flammable serviceperson or your gases or volatile agents dealer for repair. such as paint thinner near Otherwise it may the device. result in electric Otherwise it may result shock or fire. in explosion or fire. Unplug the power cord. Install the power cord in a manner that it can be immediately unplugged when necessary.

Ground the device when using the power adapter.

Check that the device is properly grounded when using the power adapter. Ground the device with the grounding conductor of the power cable. The grounding conductor needs to be connected to earth to avoid an electric shock.

vi INF-TN4FSC-E CAUTION

Keep warning labels clean. Inspect the power plug periodically.

Clean or replace the warning Inspect the power plug once labels so that they can always be every 6 months. Wipe the dust read correctly. off the plug and insert it securely. Otherwise it may result in an Otherwise it may result in electric accident. shock or fire.

Ask an authorized waste disposal Match power capacity specialist for disposal. with the device ratings.

Do not dispose the device Be sure to connect the device to without proper authorization. the power soruce of proper Otherwise it may cause voltage and current rating. environmental pollution or result Otherwise it may result in fire. Fire hazard in an accident.

Use the power adapter, power cord, and Do not splash water. built-in battery that are dedicated for this device.

Do not wash or splash water on Use the power adapter, power cord, lithium ion battery the electrical parts inside the dedicated for this device. device. Otherwise it may break and Otherwise it may result in electric cause failure. Prohibition Prohibition shock.

Use the device in Be careful when carrying the device. favorable environment. Do not use the device in an When carrying the device, environment subjected to dust exercise care to avoid physical or corrosive gases. Keep the device away from shock or vibration. direct sunlight, wind and rain. Otherwise it may cause failure. Otherwise it may cause failure. Flow transmitter $PELHQWWHPSHUDWXUH –10 to +55°C (Without printer) For connecting the cable, –10 to +45°C (Witt printer) turn the power off. 0 to +40°C (during buttery charge) $PELHQWKXPLGLW\RH or less For connecting cable to terminal $OWLWXGHXSWRP ,QVWDOODWLRQFDWHJRU\,, SRZHUDGDSWHU of the large size detector I (main unit) (Type: FSSE), turn the power off. 3ROOXWLRQGHJUHH Prohibition Detector: $PELHQWWHPSHUDWXUH±WR& $PELHQWKXPLGLW\ /DUJHPLGGOHVL]HGHWHFWRURH or less 2WKHUV5+RUOHVV

INF-TN4FSC-E vii CAUTION

Cause of machine malfunction. Cause of machine malfunction.

Use in a place which is remote Do not use in a place which is from electrical devices (motor, near cell phones, wireless transformer, etc.) which generate devices, etc., which may cause the machine blunder. electromagnetic induction noise, Prohibition Prohibition electrostatic noise, etc.

Fire or damage may result.

Except the main unit (printer, power adapters, etc.), it is not protectes for dust or waterproof. Avoid using the product in a place where it will be exposed to water or humidity.

viii INF-TN4FSC-E 1. OVERVIEW

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INF-TN4FSC-E 1 2. CHECK OF DELIVERED ITEMS

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Without printer (FSC 1 )

Conversion unit Carrying case

With printer (FSC 2 )

Strap

AC power supply Signal cable adapter (5m×2 pcs)

Power connector conversion cord

CD-ROM Instruction manual Power cord (INF-TN4FSC-E) Loader Instruction manual (INF-TN5A3267-E)

Analog input/ Roll paper output cord (1.5m) (When “2” is selected for the 5th dight.)

SD memory card USB cable (1m) (512MB) (When “1” is selected for the 9th dight.)

Instruction Manual

PORTABLE TYPE ULTRASONIC FLOWMETER

TYPE: FLOW TRANSMITTER FSC-4 DETECTOR FSS-1, FSD-1 Hand strap Instruction manual Stand (when "E" is selected (Separate order items) for the 11th digit)

INF-TN4FSC-E

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4th digit of code symbol 0RXQWLQJEHOW!WKGLJLWRIFRGHV\PERO)66 Ƒ FSSC: Rail ……………………………1 set A: Stainless steel belt …………………2 pieces Sensor unit ……………………2 pieces B: Velcro band (3m)……………………1 piece Rail-end as standard …………2 pieces C: SUS belt fasten with screw ………4 pieces FSSD: Flame …………………………1 set D: Wire rope (5m x 2pieces, Sensor unit ……………………2 pieces Mounting spring x 2pieces) ………2sets FSSE: Sensor unit ……………………2 pieces E: Wire rope (20m x 2pieces, FSSH: Rail ……………………………1 piece Mounting spring x 2pieces) ………2sets Sensor unit ……………………2 pieces $FRXVWLFFRXSOHU!WKGLJLWRIFRGHV\PERO)66 Ƒ B: Silicone-free grease ………………1 piece C: Silicone grease ……………………1 piece D: Silicone grease for high temperature ………………………1 piece * Silicone rubber: Attached to FSSE For terminal area molds.

Detector Mounting belt Acoustic coupler FSSC Stainless steel belt Silicone-free grease

FSSD Velcro band Silicone rubber

FSSE

Silicone grease for high t Belt with SUS screw clamp emperature

Signal cable conversion cord

Wire rope FSSH Silicone grease

Mounting spring

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4 INF-TN4FSC-E 3. CHECK MODEL AND SPECIFICATION

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12345678 91011 FSC 40- Description S Standard 1 Basic system 2 Basic system + Printer 0 None 1 Provided (detector to measure flow velocity profile is separately required.) A AC power + power cord (125V AC) for Japanese and North American use B AC power + power cord (250V AC) for European and Korean use C AC power + power cord (250V AC) for Chinese use 4 Modification No. 0 None 1 Provided (512MB) Y None (Factory-set language: English) J Provided/Japanese (Factory-set language: Japanese) E Provided/English (Factory-set language: English) C Provided/Chinese (Factory-set language: Chinese) (Note1) Instruction manual contained in CD is the standard attached article. (Note2) You can change the language by key operation.

INF-TN4FSC-E 5

12345678 910 12345678 910 FSSC1 1 Description FSSD1 1 Description (4th digits) (4th digits) C ø50 to ø1200mm D ø13 to ø100mm (5th digits) (5th digits) 1 Provided (Extendable rail type) 1 Provided (6th digits) *2 (6th digits) Y None Y None A Stainless belt (1.5m×2) A Stainless belt (1.5m × 2) B Plastic cloth belt (3.0m×1) B Plastic cloth belt (3.0m×1) C SS belt fasten with screws (1.0m×4) C SS belt fasten with screws (1.0m × 4) D :LUH¡PP (7th digit) (7th digit) Y None Y None A Silicon rubber (KE348) A Silicon rubber (KE348) B Silicone-free grease (HIGH-Z) B Silicone-free grease (HIGH-Z) C Silicone grease (G40M) C Silicone grease (G40M) (9th digit) (9th digit) Y None Y None (10th digit) B Provided (with signal cable 10m) Y None (10th digit) A Provided Y None A Provided *2) Please refer to the table 8 to select the mounting belt at 6th digits.

Type. Ser.No. Mfd. Made in Japan

12345678 910 12345678 910 FSSE1 1 Description FSSH1 1 Description (4th digits) (4th digits) E ø200 to ø6000mm H ø50 to ø400mm (-40 to 200°C) (5th digits) (5th digits) 1 Provided 1 Provided (6th digits) (6th digits) Y None Y None D :LUH¡PP A Stainless belt (1.5m × 2) E :LUH¡PP C SS belt fasten with screws (1.0m × 4) (7th digit) (7th digit) Y None Y None B Silicone-free grease (HIGH-Z) D High-temperature grease (KS62M) C Silicone grease (G40M) (9th digit) (9th digit) Y None Y None (10th digit) B Provided (with signal cable 10m) Y None (10th digit) A Provided Y None A Provided

Ultrasonic Flow Meter Type. Ser.No. Mfd. Fuji Electric Co., Ltd. Made in Japan

Type Ser.No. Mfd.

Made in Japan

6 INF-TN4FSC-E 12345678 F SD 0Y1 Description P 2 Small type (F40 to F200mm) P 1 Middle type (F100 to F400mm) P 0 Large type (F200 to F1000mm) 0 None Y General use 1 Modification No.

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INF-TN4FSC-E 7 4. NAME AND EXPLANATION OF EACH PART

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Hand strap

Printer Rubber Detector

Display window Signal cable Strap

Keyboard Stand

Keyboard 8VHGIRUWXUQLQJRQRIISRZHUVXSSO\RIWKHPDLQXQLWFRQWUROOLQJ WKHSULQWHULQSXWWLQJÀXLGVSHFL¿FDWLRQVDQGVHWWLQJWKHIXQFWLRQRI 8/75$621,&)/2:0(7(5 Display window'LVSOD\VPHDVXUHGYDOXH$OVRXVHGIRUGLVSOD\GXULQJSURJUDPPLQJDQG GDWDLQSXW %HFDXVHWKLVLVDODUJHVL]HJUDSKLF/&'LQGLFDWLRQVDUHHDV\WRUHDG (YHQDWDGDUNSODFHLQGLFDWLRQVFDQEHUHDGE\XVLQJWKHEDFNOLJKW Printer (option) &DSDEOHRISULQWLQJDOOLQIRUPDWLRQRIWKH8/75$621,&)/2:0(7(5 LQFOXGLQJSULQWRIGLVSOD\VFUHHQFDSWXUHDQGSULQWRXWRIPHDVXUHGYDOXH 8/75$621,&)/2:0(7(5LQFOXGHVDORJJHUIXQFWLRQ IRUVWRULQJ PHDVXUHGYDOXHVLQPHPRU\ $IWHUVWRULQJDIHZGD\ VGDWDLQPHPRU\E\ WKHORJJHUIXQFWLRQLWPD\EHSULQWHG 1RWH &KLQHVHODQJXDJHVHOHFWLRQZLOOSULQW-DSDQHVH Detector $WWDFKHGWRDSLSHDQGUHFHLYHVWUDQVPLWVXOWUDVRQLFZDYHV Signal cable 8VHGIRUWUDQVPLWWLQJDQGUHFHLYLQJVLJQDOVEHWZHHQWUDQVPLWWHUDQGGHWHF WRUVIRUÀRZPHDVXUHPHQW 5XEEHU 3URWHFWVWKHPDLQXQLWIURPGURSLPSDFWHWF 6WUDS DOORZV\RXWRVXVSHQGWKHÀRZWUDQVPLWWHUIURP\RXUVKRXOGHURUQHFN7R DWWDFKWKHVWUDSIDVWHQWKHERWKHQGVRIWKHVWUDSRQXSSHUKROHVRQHDFK VLGHRIWKHWUDQVPLWWHUZLWKWKHVFUHZV +DQGVWUDS OHWV\RXKROGWKHWUDQVPLWWHUPRUHFRPIRUWDEOH7RDWWDFKWKHKDQGVWUDS (option) IDVWHQWKHERWKHQGVRIWKHKDQGVWUDSRQWKHOHIWVLGHKROHV 6WDQG DOORZVWKHWUDQVPLWWHUWREHNHSWWLOWHG7RDWWDFKWKHVWDQGLQVHUWWKHERWK (option) HQGVRIWKHVWDQGLQWRWKHXSSHUKROHVRQHDFKVLGHRIWKHWUDQVPLWWHU

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8 INF-TN4FSC-E AI/AO (4 to 20mA DC analog I/O connector) 12V DC UP STREAM (power connector) (detector connector on upstream side)

Put the caps on the power supply port and/or the DOWN STREAM AI/AO port when they are not used. (detector connector on downstream side) Right side

Cap

SD memory card Note USB Note) SD logo is a registered trademark. Bottom

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INF-TN4FSC-E 9 ([SODQDWLRQRINH\V )LJVKRZVWKHOD\RXWRINH\VDQG7DEOHH[SODLQVHDFKNH\

Fig. 4-1 Layout of keys

Table 4-1 Explanation of keys

Key indication Description or lamp ENT The keyed-in data, selected item, etc. will be set by pressing this key. ESC Cancels any setting. Moves the cursor upward, increments set value, etc. (repeats if held down) ź Moves the cursor downward, decrements set value, etc. (repeats if held down) Moves the cursor leftward, change scale, etc. (repeats if held down) Moves the cursor rightward, change scale, etc. (repeats if held down) ON/OFF Turns on/off power supply. Print of the display screen or save the data to SD memory card. PRINT (outputs a hard copy). (LIGHT) Turns on/off the backlight of display screen. FAST CHARGE Turns ON in charge. Turns OFF in fully charged condition. DC IN Turns ON with power cable connected. MENU Displays MENU screen.

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SD memory card slot

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12 INF-TN4FSC-E 'DWDUHFRUGLQJWR6'PHPRU\FDUG (1) Types of recorded data 5HFRUGHGGDWDLVRIWKUHHGLIIHUHQWW\SHVLQGLFDWHGEHORZ 0HDVXUHGGDWD2QHORJJHU¿OHLVFRPSRVHGRIDFRQ¿JXUDWLRQ¿OHDQGDGDWD¿OH &RQ¿JXUDWLRQ¿OH5HFRUGVORJJHUVWDUWXSWLPHDQGUHOHYDQWORJJHUGDWD ¿OHV 'DWD¿OH5HFRUGVORJJLQJGDWDLQDVSHFL¿FSHULRGSURGXFHGE\ORJJHUDQG TXLFNORJJHU 7KHGDWD¿OHLVVWRUHGDVGLYLGHGE\OLQHVIRUSHUPLWWLQJ KLJKVSHHGDFFHVVDQGGXHWRUHVWULFWLRQVLQWKHPD[LPXPQXPEHU RIOLQHVRI&69GLVSOD\RI0LFURVRIW([FHO )ORZYHORFLW\SOR¿OH5HFRUGVÀRZYHORFLW\SOR¿OHGDWDIRUDQKRXU 6FUHHQFRS\5HFRUGVVFUHHQGLVSOD\FRS\GDWD 6HH³ '(),1,7,212)35,17.(<´ )LOHFRQ¿JXUDWLRQ 5HFRUGHGGDWDLVVWRUHGDV¿OHVRQDQ6'PHPRU\FDUG 7KH¿OHFRQ¿JXUDWLRQLVVXFKWKDWDIROGHURIVLWHQDPHLVORFDWHGMXVWEHQHDWKWKHURRWIROGHUDQG WKHIROORZLQJGDWDPDQLSXODWHGE\WKHVXEMHFWVLWHQDPHLVVWRUHGEHQHDWKVDLGIROGHU $IROGHURIVLWHQDPHLVFUHDWHGDWWKHWLPHRIUHJLVWUDWLRQRIDVLWHQDPHGHVFULEHGLQ³ 6,7(0(025<´ 7KHUHFRUGHGGDWDLVVWRUHGLQWKHIROGHURIWKHVLWHQDPHVHOHFWHGE\VLWHVHOHFWLRQGHVFULEHGLQ ³6,7(0(025<´ 0HDVXUHGGDWD«-XVWEHQHDWKWKHIROGHURIVLWHQDPH &DVHRIORJJHU &RQ¿JXUDWLRQGDWD¿OHQDPHRIFUHDWHGORJJHUORJJLQJQDPHBGDWHBKRXULQL 'DWD¿OHQDPHRIFUHDWHGORJJHUORJJLQJQDPHBGDWHBKRXUFVY &DVHRIORJJHU &RQ¿JXUDWLRQGDWD¿OHQDPHRIFUHDWHGORJJHU48,&.BGDWHBKRXULQL 'DWD¿OHQDPHRIFUHDWHGORJJHU48,&.BGDWHBKRXUFVY $GDWD¿OHFDQEHHGLWHGZLWK([FHO 6HH³0HDVXUHGGDWD¿OH´ORFDWHGWRZDUGWKHHQGRIWKHYROXPHIRUWKHUHFRUGLQJ IRUPDW )ORZYHORFLW\GLVWULEXWLRQ«%HQHDWK9(/IROGHUMXVWEHQHDWKIROGHURIVLWHQDPH &UHDWHGIORZYHORFLW\GLVWULEXWLRQGDWDILOHQDPH9HOBGDWHBKRXUFVY $GDWD¿OHFDQEHGLVSOD\HGXVLQJÀRZYHORFLW\GLVWULEXWLRQGHPRQVWUDWHIXQFWLRQRI3& ORDGHUVRIWZDUH 6HH³)ORZYHORFLW\GLVWULEXWLRQ¿OH´ORFDWHGWRZDUGWKHHQGRIWKHYROXPHIRUWKH UHFRUGLQJIRUPDW 6FUHHQFRS\«%HQHDWK',63IROGHUMXVWEHQHDWKIROGHURIVLWHQDPH &UHDWHGVFUHHQFRS\ILOHQDPH',63BGDWHBKRXUFVY 5HFRUGLQJIRUPDW:LQGRZV%LWPDS

INF-TN4FSC-E 13 Root

Site name VALVE_Open_20181103_163100.ini (Folder) (File) Log name Date Time

VALVE_Open_20181103_163100.csv (File) Logger Log name Date Time

(File) VALVE_Open_20181105_183100.csv Log name Date Time

(File) QUICK_20181104_163100.ini

Quick logger

(File) QUICK_20181103_163100.csv Date Time

Flow velocity distribution VEL (File) Vel_20181104_163100.csv Data Time

(File) Vel_20181105_163100.csv Date Time Hard copy DISP (File) DISP_20181104_163100.bmp Date Time

(File) DISP_20181105_163100.bmp Date Time

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1RWH $IWHUUHDFKLQJWKHPD[LPXPGDWD¿OHWKHORJJLQJZLOOVWRS

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INF-TN4FSC-E 15 5. POWER SUPPLY

3RZHUVXSSO\ 7KHUHDUHWZRPHWKRGVRISRZHUVXSSO\EXLOWLQEDWWHU\DQG$&SRZHUVXSSO\ +RZWRFKDUJHWKHEXLOWLQEDWWHU\ 0DWFKWKHZKLWHPDUNRQWKH$&DGDSWHUSOXJDQGWKHPDUNRQWKHVRFNHWRIWKHÀRZWUDQV- PLWWHUDQGSXVKWKHSOXJLQWRWKHVRFNHW 7RUHPRYHWKHDGDSWHUSXOOWKHVOHHYHVWUDLJKW

Cord side connector Flow transmitter side connector white mark Power connector conversion cord Power cord AC power supply adapter

,QVHUWWKHSRZHUFRUGSOXJWRWKH$&SRZHUVRFNHW ±9$&+] 7KHJUHHQSLORWOLJKWRI$&SRZHUDGDSWHUOLJKWVZKLOHWKHH[WHUQDOSRZHULVEHLQJVXS- SOLHG 7KHUHG³&+$5*(´LQGLFDWRUOLJKWVZKLOHWKHEDWWHU\LVEHLQJFKDUJHG 7KHJUHHQ³'&,1´LQGLFDWRUOLJKWVZKLOHWKHH[WHUQDOSRZHULVEHLQJVXSSOLHG 7KH³&+$5*(´LQGLFDWRUWXUQVRIIZKHQWKHEDWWHU\LVIXOO\FKDUJHG

AC power supply

Notes: 7KHWHPSHUDWXUHUDQJHIRUFKDUJLQJWKHEDWWHU\LVIURP&WR&&KDUJLQJXQGHUEH- \RQGWHPSHUDWXUHEH\RQGUDQJHPD\FDXVHRYHUKHDWOHDNDJHGHJUDGDWLRQDQGRUVKRUW- HQHGEDWWHU\OLIH $IWHU\RXGLVFRQQHFWWKH$&DGDSWHUIURPWKHSRZHUVRFNHWLWWDNHVDIHZVHFRQGVXQWLO WKHJUHHQLQGLFDWRURIWKH$&DGDSWHUJRHVRII

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

(3) Operating by AC power adapter for a prolonged time &RQQHFWWKH$&SRZHUVXSSO\DGDSWHUWRXVHWKHPDLQXQLWLQWKHVDPHZD\ZKHQFKDUJLQJ ,WLVQRUHTXLUHGWRUHPRYHWKHEXLOGLQEDWWHU\

CAUTION 8VHWKHH[FOXVLYHSRZHUDGDSWHURQO\'RQ¶WXVHRWKHUDGDSWHUVRULWPD\UHVXOWLQDQ DFFLGHQW 2WKHUHTXLSPHQWVVXFKDVSULQWHUSRZHUDGDSWHUVHWFH[FHSWWKHPDLQXQLWDUHQRWZD- WHUSURRI $YRLGXVLQJWKHSURGXFWLQDSODFHZKHUHLWZLOOEHH[SRVHGWRZDWHURUKXPLGLW\ &KHFNWKDWWKHGHYLFHLVSURSHUO\JURXQGHGZKHQXVLQJWKHSRZHUDGDSWHU *URXQGWKHGHYLFHZLWKWKHJURXQGLQJFRQGXFWRURIWKHSRZHUFDEOH7KHJURXQGLQJ FRQGXFWRUQHHGVWREHFRQQHFWHGWRHDUWKWRDYRLGDQHOHFWULFVKRFN

INF-TN4FSC-E 17 7XUQLQJRQWKHSRZHUDQGODQJXDJHSUHIHUHQFH 3UHVVWKH21VZLWFKRIWKHPDLQXQLWWRWXUQ21WKHSRZHU

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9HU 9HU

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Language to be set is displayed.

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To select the language

When the language is displayed (for about 8 sec.), press the ENT key, and the “Language Selection”screen appears. In the screen that is displayed, select Note: your desired language and press the ENT From the next step, the key. It returns to the “MEASUREMENT” language you selected can screen. be used.

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INF-TN4FSC-E 19 6. WIRING

'LDJUDP To connect signal cables for FSSC, FSSD, FSSH, FSDP2, FSDP1, FSDP0 BNC connector

Printer Detector (option)

Signal cable To connect signal cables for FSSE Conversion cord Detector input BNC connector Detector (the downstream side) Flow transmitter Detector input (the upstream side)

ON OFF ESC Analog input/output cable FEED AO analog output 4 to 20mA DC ENT

Print MENU AICH1 analog input 4 to 20mA DC or 1 to 5 V DC CHARGE DC IN AICH2 analog input 4 to 20mA DC PC SD Power connector AC100 to 240V Conversion cord SD memory Power cord card AC power adaptor

USB cable for use AC adaptor

To connect PC

6.2 Connection of dedicated cables 7KLVFDEOHLVXVHGIRUFRQQHFWLQJWKHGHWHFWRUWRWKHPDLQXQLW &RQQHFWGHGLFDWHGFDEOHVWRWKHXSVWUHDPDQGGRZQVWUHDPVLGHVRIWKHGHWHFWRU &RQQHFWRQHFDEOHFRQQHFWHGWRWKHXSVWUHDPVLGHRIWKHGHWHFWRUWRWKH³83675($0´ FRQQHFWRURIWKHPDLQXQLWDQGFRQQHFWWKHRWKHUFDEOHFRQQHFWHGWRWKHGRZQVWUHDPVLGH RIWKHGHWHFWRUWRWKH³'2:1675($0´FRQQHFWRU

UP STREAM DOWN STREAM

Detector

Upstream Downstream

Flow direction

20 INF-TN4FSC-E 6.3 Connection of analog input/output cable WRP$'& 7KLVFDEOHLVXVHGIRUFRQQHFWLRQRIUHFHLYLQJLQVWUXPHQWV LQGLFDWRUVUHFRUGHUVHWF DQGÀRZ WUDQVPLWWHUWRWKHPDLQXQLW$QDORJ,2FDEOHLVFRQQHFWHGDVVKRZQEHORZ7KHFDEOHHQGLV WUHDWHGZLWKDFOLS

Red (+) AI/AO Note) Plug the AO %ODFN í 4 to 20mA connector (output) into AI/AO.

AO AI ch1 AI ch2

AI Red －＋ (input) (+) Black Red Black í Indicator, (+) í recorder, controller, etc.

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Converter Analog input/output cable Red + Code color Clip color Mark Black (BK) Red (R) (+) AO Black A AO í White (W) %ODFN %. í Red Red (R) Red (R) (+) AI ch1 AI CH1 Black Green (G) %ODFN %. í Yellow (Y) Red (R) (+) Red AI ch2 Brown (BN) %ODFN %. í AI CH2 Black

6.4 Connection of USB cable :KHQ3&VRIWZDUHLVXVHGRSHQWKHFDSRIGRZQIDFHRIWKHPDLQXQLWDQG86%SRUWRI3& WUDQVPLWFRQQHFWLQJ³86%´SRUWZLWK86%FDEOH )RU3&VRIWZDUHUHIHUWR&KDSWHU

Maximum 3m Mini USB cable

INF-TN4FSC-E 21 7. INPUT OF PIPING SPECIFICATIONS

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&KHFNWKDWWKH³6,7(6(783´LVUHYHUVHGIURP ZKLWHWREOXH

ENT

3UHVVWKH ENT NH\DQGWKH³6,7(6(783´VFUHHQ LVGLVSOD\HG

Press the NH\DQGPRYHWKHFXUVRUWR³352- &(666(77,1*´

ENT

22 INF-TN4FSC-E 3UHVVLQJWKH ENT NH\UHWXUQVWRWKH³352&(66 6(77,1*´VFUHHQ

2XWOLQHRI3,3(3$5$0(7(5 3DUDPHWHUĺ3DJH1RIRUUHIHUHQFH

Sets lining material ĺ3

Sets outer diameter of pipe ĺ3

Sets pipe material ĺ3 Sets lining thickness ĺ3

Sets pipe thickness ĺ3

Sets type of sensor ĺ3

6HWVNLQGRIIOXLGĺ3

Sets transmission voltage ĺ3

Sets sensor mounting method ĺ3

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Mounting dimension

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ENT

3UHVVWKH ENT NH\WRGLVSOD\WKH6,7(0(025< VFUHHQ

3UHVVWKH ENT NH\DIWHUFKHFNLQJWKDWFXUVRULV SODFHGLQWKH02'(

ENT

:KHQWKHPRGHVHOHFWLRQVFUHHQDSSHDUVPRYH WKHFXUVRUWRWKH³5(*,675$7,21´DQGSUHVVWKH ENT NH\

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INF-TN4FSC-E 25 0RYHWKHFXUVRUWRWKHXQUHJLVWHUHG¿HOGDQGSUHVV the ENT NH\

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[Reference] Description of character entry screen Select a character and press the ENT NH\&KDUDFWHUVZLOOEHGLVSOD\HGRQHE\RQHLQWKHHQWU\¿HOG 6HOHFW³%6´DQGSUHVVWKH ENT NH\WRGHOHWHFKDUDFWHUVRQHE\RQH ,QFDVHRIVWRSLQJHQWU\LQWKHPLGGOHVHOHFW³&$1´DQGSUHVVWKH ENT NH\WRUHWXUQWRWKHRULJLQDO 6,7(0(025

Character entry field

Character display

Key for deleting a character Key for registering characters in the entry field in the entry field Cancel key for character entry.

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:KHQPRYLQJWKHFXUVRULQWKHFKDUDFWHUHQWU\¿HOG

Press the ESC NH\VRWKDWWKHFXUVRU³ _ ´ZLOOFKDQJHWR ³Ű´

7KHFXUVRUFDQEHPRYHGE\WKH and the NH\

)RUHQWHULQJFKDUDFWHUVWRWKHSODFHWKHFXUVRULV

PRYHGSUHVVWKH ESC NH\ 7KHFXUVRUPRYHVWRWKHFKDUDFWHUHQWU\¿HOG

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INF-TN4FSC-E 27 2XWHUGLDPHWHURISLSLQJ XQLWPP 7KH³287(5',$0(7(5´LVUHYHUVHGIURP ZKLWHWREOXHRQWKH³352&(666(77,1*´ screen Press the ENT NH\WKHVFUHHQRI³287(5',$0- (7(5´IRUVHOHFWLQJWKHLQSXWPHWKRGRIRXWHU GLDPHWHUPHDVXUHPHQWDQG³&,5&80)(5(1&(´ VFUHHQZLOODSSHDU Press the ENT NH\DIWHUWKHVHOHFWLRQWRHQWHUWKH RXWHUGLPHQVLRQ 6HHSDJHVWR3LSLQJ'DWD

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Outer diameter of piping Perimeter of piping

ENT

Outer diameter Perimeter

>,QSXWUDQJH@ 2XWHUGLDPHWHU aPP 3HULPHWHU aPP

ENT

Example) When the outer diameter of piping is 318.5 mm:

ENT ENT

28 INF-TN4FSC-E 3LSLQJPDWHULDO Press the NH\RQWKH³3,3(0$7(5,$/´LV UHYHUVHGIURPZKLWHWREOXH Press the ENT NH\DQGWKH³3,3(0$7(5,$/´ VFUHHQZLOODSSHDU

6HOHFWWKHPDWHULDOE\WKH or NH\ $IWHUHQWU\SUHVVWKH ENT NH\

When “OTHERS” is selected:

(QWHUWKHVRXQGYHORFLW\ UDQJHWRPV ENT 6HHSDJH7DEOH

ENT

Example) When the piping material is cast iron:

ENT

INF-TN4FSC-E 29 :DOOWKLFNQHVV XQLWPP UDQJHWRPP Press the NH\WKH³:$//7+,&.1(66´LV UHYHUVHGIURPZKLWHWREOXH Press the ENT NH\:DOOWKLFNQHVVFDQEHHQWHUHG 6HHSDJHVWR3LSLQJ'DWD 8VHWKH or NH\WRPRYHWKHGLJLWWRWKHOHIW DQGULJKW 8VLQJWKH or NH\HQWHUWKHQXPHUDO$IWHU HQWU\SUHVVWKH ENT NH\

Lining and wall thickness of piping ENT ,IWKHZDOOWKLFNQHVVLVQRWNQRZQPHDVXUH LWE\WKHZDOOWKLFNQHVVJDXJHDQGHQWHUWKH YDOXH B A

B : Lining A : Wall thickness thickness

ENT

Example) When the wall thickness is 1.25 mm:

ENT

30 INF-TN4FSC-E /LQLQJPDWHULDO Press the NH\³/,1,1*0$7(5,$/´LVUH- YHUVHGIURPZKLWHWREOXH Press the ENT NH\WKH³/,1,1*0$7(5,$/´ VFUHHQZLOODSSHDU

6HOHFWWKHPDWHULDOXVLQJWKH or NH\$IWHU VHOHFWLRQSUHVVWKH ENT NH\

When “OTHERS” is selected:

(QWHUWKHVRXQGYHORFLW\ UDQJHWRPV ENT 6HHSDJH7DEOH

ENT

Example) When the lining material is mortar:

ENT

INF-TN4FSC-E 31 /LQLQJWKLFNQHVV XQLWPP UDQJHWRPP :KHQWKHOLQLQJPDWHULDOLVVHWWRLWHPVRWKHUWKDQ ³1RQH´LQ/LQLQJPDWHULDO Press the NH\WKH³/,1,1*7+,&.1(66´LV UHYHUVHGIURPZKLWHWREOXH Press the ENT NH\OLQLQJWKLFNQHVVQXPHULFHQWU\ FDQEHSHUIRUPHG 7KHFXUVRUFDQVKLIWWKHQXPHULFGLJLWE\WKH or NH\7KHQXPHULFFDQEHHQWHUHGE\WKH or NH\ $IWHUHQWU\SUHVVWKH ENT NH\

ENT

Example) When the lining thickness is 1.25 mm:

ENT

32 INF-TN4FSC-E .LQGRIÀXLG -XPSWRSDJHZLWK or NH\ 6HOHFWNLQGRIÀXLG )RUÀXLGKDYLQJQRHQWU\HQWHUVRXQGYHORFLW\ 5DQJHWRPV Press the or NH\WKH³.,1'2))/8,'´LV UHYHUVHGIURPZKLWHWREOXH Press the ENT NH\WRGLVSOD\WKH³.,1'2))/8- ,'´VFUHHQ

6HOHFWWKHNLQGRIÀXLGE\WKH or NH\ $IWHUVHOHFWLRQSUHVVWKH ENT NH\ ENT

When “OTHERS” is selected:

(QWHUVRXQGYHORFLW\6HHSDJH7DEOH DQG

ENT

INF-TN4FSC-E 33 7.9 Viscosity

7KHUHLVQRQHHGWRFKDQJH³(PV´ZKHQPHDVXULQJZDWHU 5HWXUQWKHVFUHHQE\SUHVVLQJWKH NH\

Remarks '\QDPLFYLVFRVLW\FRHI¿FLHQWLVVHWWRZDWHU & :KHQPHDVXULQJDFFXUDWHO\RUPHDVXULQJÀXLGRWKHU WKDQZDWHUHQWHUDVQHHGHG 6HHSDJH7DEOH 5DQJHîíWRîíP/s)

Press the NH\WKH³9,6&26,7<´LVUHYHUVHG IURPZKLWHWREOXH Press the ENT NH\\RXFDQHQWHUWKHG\QDPLFYLV- FRVLW\FRHI¿FLHQW 0RYHWKHGLJLWE\SUHVVLQJWKH or NH\DQG HQWHUQXPHULFYDOXHVE\XVLQJWKH or NH\ $IWHUHQWU\SUHVVWKH ENT NH\

ENT

34 INF-TN4FSC-E 6HOHFWLRQRIVHQVRUPRXQWLQJPHWKRG 0RXQWLQJPHWKRGVDYDLODEOHIRUWKHVHQVRUDUH V method Z method 9PHWKRGDQG=PHWKRGDVLOOXVWUDWHG 7RVHOHFWWKHPRXQWLQJPHWKRG Press the NH\WKH³6(162502817´LV (Except. UHYHUVHGIURPZKLWHWREOXH Small sensor FSSD1) Press the ENT NH\7KH³6(162502817´ VFUHHQZLOODSSHDU

6HOHFWHLWKHU9RU=PHWKRGE\WKH or NH\

Remarks 6HOHFWWKH9PHWKRGJHQHUDOO\8VHWKH=PHWKRGLQ WKHIROORZLQJFDVHV $PSOHVSDFHLVQRWSURYLGHG +LJKWXUELGLW\ ENT :HDNUHFHLYLQJZDYHIRUP 7KLFNVFDOHLVGHSRVLWHGRQWKHSLSHLQWHUQDOVXUIDFH

ENT

INF-TN4FSC-E 35 7.11 Kind of sensor Press the NH\³6(16257<3(´LVUHYHUVHG IURPZKLWHWREOXH Press the ENT NH\WRGLVSOD\WKHVHQVRUW\SH 6HOHFWDQ\VHQVRUIURPWKHW\SHFRGHRIVHQVRUWR EHXVHG Select the sensor by the or NH\

ENT

Example) When kind of sensor is FSSD:

ENT

36 INF-TN4FSC-E 7UDQVPLVVLRQYROWDJH XVHGZKHQDQLQGLFDWRULVRU OHVVGXULQJPHDVXUHPHQW Press the NH\WKH³75$1692/7$*(´LV UHYHUVHGIURPZKLWHWREOXH Press the ENT NH\WKHVFUHHQLVUHDG\WRDOORZWKH VHOHFWLRQRIWKHWUDQVPLVVLRQYROWDJHOHYHO 8VHWKH or NH\WRVHOHFWWKHOHYHO 6HOHFW³9SS´RU³9SS´JHQHUDOO\

,IWKHLQGLFDWRUFDQQRWEHVHWWR0$;ZLWK WKHOHYHODW³9SS´XOWUDVRQLFZDYH PD\EHDWWHQXDWHGGXHWRFRQWDPLQDWLRQRU VFDOHVGHSRVLWHGRQWKHSLSLQJH[WHUQDODQG ENT LQWHUQDOVXUIDFHV&KDQJHPHDVXUHPHQW ORFDWLRQ

Example) When transmission voltage is set to “160Vpp”:

ENT

7KHLQGLFDWRUZLOOEHXSGDWHGRQWKHPHD VXUHPHQWVFUHHQRQO\

,IOHVVWKDQLQGLFDWRUV LQWHQVLW\RIUHFHLYLQJ ZDYHIRUP DUHGLVSOD\HGRQWKHPHDVXUHPHQW Indicator VFUHHQUDLVHWKHWUDQVPLVVLRQYROWDJH

INF-TN4FSC-E 37 &RPSOHWLRQRI352&(666(77,1* $IWHUWKHVHWWLQJVDUHFRPSOHWHGSUHVVWKH NH\ ³'(&,6,21´LVUHYHUVHGIURPZKLWHWREOXH 3UHVVLQJWKH ENT NH\WRFRPSOHWHVHWWLQJVDQGWKHQ UHWXUQVWRWKH³6,7(6(783´VFUHHQ $IWHUPRXQWLQJWKHVHQVRUSHUIRUP]HURSRLQW FDOLEUDWLRQ

ENT

MENU MENU

1RWH :KHQWKHLQQHUPRXQWLQJGLDPHWHULVPPWKHVHQVRUPRXQWLQJPHWKRGLVPPRUOHVVGH- SHQGLQJRQWKHSLSHPDWHULDOV [Unit: mm] 1HFHVVDU\SLSHWKLFNQHVVIRUÀXLGZDWHU CARBON STELL 2.15 FRP 3.21 STAINLESS STEEL 1.87 DUCTILE IRON 2.15 PVC 3.69 PEEK 3.69 COPPER 3.82 PVDF 3.69 CAST IRON 2.98 ACRYLIC 2.90 ALUMINUM 1.99 PP 3.69

:KHQWKHVHQVRUPRXQWLQJOHQJWKLVPPRUOHVVHUURURIWKHPHDVXUHPHQWLVDSSUR[LPDWHO\ WR

38 INF-TN4FSC-E 8. MOUNTING OF DETECTOR

6HOHFWLRQRIPRXQWLQJORFDWLRQ 'HWHFWRUPRXQWLQJORFDWLRQLHWKHFRQGLWLRQVRIWKHSLSHVXEMHFWHGWRÀRZUDWHPHDVXUHPHQW H[HUWDJUHDWLQÀXHQFHRQPHDVXUHPHQWDFFXUDF\6RVHOHFWDORFDWLRQPHHWLQJWKHFRQGLWLRQV OLVWHGEHORZ

7KHUHLVDVWUDLJKWSLSHSRUWLRQRI'RUPRUHRQWKHXSVWUHDPVLGHDQGWKDWRI'RUPRUHRQ WKHGRZQVWUHDPVLGH 1RIDFWRUVWRGLVWXUEWKHÀRZ VXFKDVSXPSDQGYDOYH ZLWKLQDERXW'RQWKHXSVWUHDPVLGH

&ODVVLILFDWLRQ )RUXSVWUHDPVLGH )RUGRZQVWUHDPVLGH

/' EHQG

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0RUHWKDQ '

' /' /'

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/' /'

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/' /'

9DOYHV

)ORZFRQWUROYDOYHH[LVWVRQXSVWUHDPVLGH )ORZFRQWUROYDOYHH[LVWVRQGRZQVWUHDPVLGH

6WRSYDOYH &KHFNYDOYH /' 3XPS P

([WUDFWHGIURP-DSDQ(OHFWULFDQG0DFKLQHU\,QGXVWU\6RFLHW\ -(0,6

INF-TN4FSC-E 39 3LSHLVDOZD\V¿OOHGZLWKÀXLG1HLWKHUDLUEXEEOHVQRUIRUHLJQPDWHULDOVDUHFRQWDLQHGLQWKH ÀXLG 7KHUHLVDQDPSOHPDLQWHQDQFHVSDFHDURXQGWKHSLSHWRZKLFKWKHGHWHFWRULVWREHPRXQWHG VHH¿JXUHEHORZ 1RWH 6HFXUHDQDGHTXDWHVSDFHIRUDOORZLQJDSHUVRQWRVWDQGDQGZRUNRQERWKVLGHVRID SLSH 1RWH 'LQGLFDWHVWKHLQVLGHGLDPHWHURIDSLSH 200 or more Note 2000 or more 200 or more

600 600 D + 1200 or more or more D or more D: Pipe diameter [mm]

Space required for mounting detector

7KHSLSLQJPXVWFRPSOHWHO\EH¿OOHGZLWKÀXLGZKHQLWÀRZV Pipe may not be filled with liquid. Air-collecting Pipe may not be filled with liquid. Good

Pump Good

)RUDKRUL]RQWDOSLSHPRXQWWKHGHWHFWRUZLWKLQRIWKHKRUL]RQWDOSODQH )RUDYHUWLFDOSLSHWKHGHWHFWRUFDQEHPRXQWHGDWDQ\SRVLWLRQRQWKHRXWHUFLUFXPIHUHQFH

Air bubbles Pipe 45°

Horizontal plane

45° Deposits of sludge

40 INF-TN4FSC-E $YRLGPRXQWLQJWKHGHWHFWRUQHDUDGHIRUPDWLRQÀDQJHRUZHOGHGSDUWRQWKHSLSH

Welded part Flange or welded Welded part

INF-TN4FSC-E 41 8.2 Selection of detector

6HOHFWLRQRIPRXQWLQJPHWKRGV 7KHUHDUHPHWKRGVIRUPRXQWLQJWKHGHWHFWRU9PHWKRGDQG=PHWKRG)RUWKHPRXQWLQJ VSDFHVHHWKHIROORZLQJVNHWFK

L L Detector Detector D D

V method Z method

Length of frame of each sensor Length of frame of each sensor

L Frame L

V method Z method L: Mounting dimension The dimension values of the Mounting method sensor attachment displayed on the SITE SETTING screen of the transmitter. (PSOR\WKH=PHWKRGLQWKHIROORZLQJFDVHV 0RXQWLQJVSDFHQHHGEHVDYHG PRXQWLQJVSDFHRIWKH=PHWKRGLVDERXWRQHKDOIRIWKH9 PHWKRG V 7XUELGÀXLGVXFKDVVHZDJHLVWREHPHDVXUHG 3LSHKDVPRUWDUOLQLQJ $WKLFN¿OPRIVFDOHPD\KDYHEHHQIRUPHGRQWKHLQQHUVXUIDFHRISLSHEHFDXVHLWLVROG ,QVX¿FLHQWUHFHLYHGVLJQDOVWUHQJWKZLWKPRXQWLQJGHWHFWRUVLQ9PHWKRGZKLOHXVLQJPD[L- PXPWUDQVPLVVLRQYROWDJH

42 INF-TN4FSC-E ,PDJH¿JXUHRIPRXQWLQJGLPHQVLRQ

Type FSSC, FSSD, FSSH FSSE Mounting method V method V method Mounting Mounting dimensions dimensions Mounting dimensions

Type FSSC, FSSD, FSSH FSSE Mounting method Z method Z method Mounting dimensions

Mounting Mounting dimensions dimensions

(3) Detector selection standards 7KH=PHWKRGIRUODUJHVL]HVHQVRULVUHFRPPHQGHGIRURXWHUGLDPHWHUPPRUPRUH )66(VKRXOGEHXVHGDVPXFKDVSRVVLEOHIRUSLSHVVXFKDVROGSLSHVFDVWLURQSLSHVDQGPRUWDU OLQLQJSLSHVWKURXJKZKLFKLWLVGLI¿FXOWIRUXOWUDVRQLFVLJQDOVWRSDVV

Fluid Inner diameter of piping ø (mm) Type temperature [°C] 13 25 50 100 200250 300 400 1000 3000 6000

50 P, M 600 V 50 Px 300 FSSC -40 to 120 200P, M 1200 Z 200Px 600

V 200Px, P, M 3000 FSSE -40 to 80 Z 200 Px, P, M 6000

FSSD V 13 Px, P, M 300 -40 to 100 Z 150 P, M 300

V 50 Px, P, M 250 FSSH -40 to 200 Z 150Px, P, M 400

Px : PP, PVDF Classification of P : Plastic (PVC, etc.) piping materials M : Msetallic piping (steel pipe, copper pipe, aluminum, etc.)

INF-TN4FSC-E 43 3URFHVVLQJRIPRXQWLQJVXUIDFH (OLPLQDWHSLWWLQJFRUURVLRQXQHYHQQHVVHWFZLWKSDLQWWKLQQHUDQGVDQGSDSHUIURPWKHSLSH SRUWLRQZKHUHWKHGHWHFWRULVWREHPRXQWHG 1RWH ,QFDVHMXWHLVZRXQGRQDSLSHLWVKRXOGEHSHHOHGRIIEHIRUHWKHDERYHWUHDWPHQW :KHQFDVWLURQSLSHLVXVHGJULQGWKHVHQVRUPRXQWLQJVXUIDFHE\XVLQJDVDQGHUIRU VPRRWKQHVV

Detector Width

Small outer 320 mm or more diameter FSSD1 Jute is wound Medium size Pipe (standard) sensor 540 mm or more FSSC, FSSD3 Large size sensor Mounting dimension FSSE (L) + 200 mm or more Width High temperature 530 mm or more FSSH

44 INF-TN4FSC-E +RZWRPRXQW)66&WRSLSH +RZWRPRXQWDGHWHFWRU 9PHWKRG CAUTION :KHQDGMXVWLQJWKHOHQJWKRIWKHUDLOPDNHVXUHWRZRUNRQWKHWDEOH ,QMXU\RUGDPDJHRIWKHSURGXFWVPD\EHFDXVHGE\IDOOLQJ 3OHDVHSD\DWWHQWLRQQRWWRORRVHVFUHZV

&RQ¿UPWKH,WHP PRXQWLQJGLPHQVLRQRIWKHVHQVRU ZKHWKHURUQRW\RXKDYHWRH[WHQGWKH UDLO 0RXQWLQJSLWFKdPPāāāāāā0RXQWLQJSLWFKLVDGMXVWDEOHZLWKRXWH[WHQGLQJWKHUDLO 0RXQWLQJSLWFK!PPāāāāāā)LUVWUDLOLVUHTXLUHWREHH[WHQGHG +RZWRH[WHQGWKHUDLO /RRVHQWKHWZR¿[LQJVFUHZV 0 RQWKHHQGRIH[WHQVLRQUDLO EOXH WXUQLQJVFUHZWZR WLPHV 1RWH'RQRWWXUQWKHVFUHZ 0/ PP H[FHVVLYHO\2WKHUZLVHORRVHVFUHZPD\FRPHRII DQGEHFRPHORVW

6OLGHWKHJXLGHUDLO VLOYHU )L[WKHUDLOOHQJWKZLWK¿[LQJVFUHZZKLFKLVDGMXVWDEOHLQHYHU\ PP

:KHQH[WHQGLQJWKHUDLOPPRUPRUHVOLGHWKHRSSRVLWHVLGHRIWKHUDLODVZHOO 0D[PPH[WHQGDEOH

Rail end

1RWH,QFDVHWKHUDLOLVH[WHQGHGPPRUPRUHPLGGOHRIWKHUDLOZLOOEHFRPHXQVWDEOH7KXV PDNHVXUHWRPRXQWWKHVXSSOLHGUDLOHQGDQG¿[WKHIRXUSDUWRIWKHUDLOZLWK¿[LQJEHOWV WRXVH

INF-TN4FSC-E 45 )RUHDV\XVHDQGPDLQWHQDQFH (YHQLIH[WHQGLQJUDLOLVQRWUHTXLUHGH[WHQGWKHUDLOPP ( LQFK DWOHDVWLIPRXQWLQJGLPHQVLRQLV PPRUPRUHZKLFKHQDEOHWRUHPRYHWKHVHQVRUXQLWLQWKHPLGGOHRIWKHUDLOZLWKRXWUHPRYLQJWKHUDLO IURPWKHSLSH $GGLWLRQDOO\7KHUHLVDPHULWWKDWLWPDNHVUHJXODUPDLQWHQDQFHHDV\RQO\LIJUHDVHLVXVHGDVDFRXVWLF FRXSOHU 3OHDVHFRQGXFWLWLQWKHVDPHZD\ZKHQUHPRYLQJWKHVHQVRUZLWKZDWHUSURRIWUHDWPHQWIURPWKHUDLO

100mm (3.937 inch)

/RRVHQWKHORFNQXWDQGDGMXVWWKHPRXQWLQJGLPHQVLRQRIWKHVHQVRUXQLW

Mounting dimension

$SSO\WKHDFRXVWLFFRXSOHURQWKHWUDQVPLVVLRQVXUIDFHRIWKHVHQVRUXQLW )RUHDV\DSSO\LQJ7XUQWKHHOHPHQWKROGHUDQGUHPRYHWKHVHQVRUXQLWEHIRUHDSSO\LQJ 5HWXUQWKHVHQVRUXQLWZKHUHLWZDVDIWHUDSSO\LQJ

Before applying When applying After applying

46 INF-TN4FSC-E )L[WKHUDLOZLWKWKHPRXQWLQJEHOWRQWKHSLSHWREHPHDVXUHGDQGWXUQWKHHOHPHQWKROGHUWR DWWDFKWKHWUDQVPLVVLRQVXUIDFHRIWKHVHQVRUXQLWRQWKHSLSHFRUUHFWO\ 1RWH3OHDVHSD\DWWHQWLRQWRWKHFRQWDFWLQJSDUWDVQRWWRDWWDFKWKHUDLORQWKHSLSHH[FHVVLYHO\ VLQFHH[FHVVLYHSUHVVXUHFDXVHVWKHUDLOHQGWRFRPHRIIWKHSLSHGHSHQGLQJRQVL]HDQG W\SHRIEHOWRUFDXVHVWKHUHVLQSLSHWRGHIRUPDQGFDXVHVPHDVXUHPHQWHUURUWRRFFXU 3OHDVHUHIHUWRWKHLWHP³0HWKRGRIPRXQWLQJEHOW´ZKLFKYDU\GHSHQGLQJRQWKH EHOWW\SH

Mounting on the pipe Example: Excessive turning element holder causes the rail end to come off the pipe.

Example: Excessive turning element holder cause the resin pipe to deform

Deformation of the pipe

&RQQHFWWKHVLJQDOFDEOH1RWH 3OHDVHPDNHVXUHWKDWSRZHURIWUDQVPLWWHULVWXUQHG2))ZKHQ FRQQHFWLQJ &RQQHFWLRQH[DPSOHGLVFULPLQDWHWKHFDEOHFRORUEHWZHHQWKHXSSHUVWUHDP³5HG´DQGGRZQ- VWUHDP³%ODFN´DQGFRQQHFWWKHPWRWUDQVPLWWHUZLWKPDWFKLQJFRORUFDEOH )RUW\SHRIZDWHUSURRIWUHDWPHQWVLJQDOFDEOHLVDOUHDG\FRQQHFWHGDVIDFWRU\GHIDXOW

:LWKRXWZDWHUSRRIWUHDWPHQW :LWKZDWHUSURRIWUHDWPHQW

INF-TN4FSC-E 47 ,IWKHUHLVQRWPXFKVSDFHWRPRXQWVLQFHSLSHVL]HLVVPDOODQGVKRUWOHQJWKRQHRIJXLGHUDLO FDQEHUHPRYHGDQGXVHWKHUDLODVDKDOIVL]HDVVKRZQEHORZ +RZHYHULWLVDYDLODEOHWRXVHRQO\LIGLPHQVLRQRIPRXQWLQJSLWFKLVPPRUOHVV

Mounting

Rail end

Pipe

+RZWRPRXQWDGHWHFWRU =PHWKRG

&RQ¿UPWKHPRXQWLQJGLPHQVLRQLQ,WHP 0DUNWKHPRXQWLQJSRVLWLRQRQWKHSLSH 3OHDVHUHIHUWR,WHPa³+RZWRGHWHUPLQHWKHPRXQWLQJSRVLWLRQ´ 3UHSDUDWLRQRIWKHUDLO 6HWXSWKHUDLOIRU=PHWKRG /RRVHQWKHVFUHZVZKLFK¿[WKHH[WHQVLRQUDLO EOXH DQGUHPRYHWKHJXLGHUDLO 6FUHZWKHHDFKVXSSOLHGUDLOHQGZLWKVFUHZV SLHFHV

Loosen the screw

Rail end

$SSO\WKHDFRXVWLFFRXSOHURQWKHVHQVRUXQLWDVVDPHDV,WHP

48 INF-TN4FSC-E )L[WKHUDLORIVHQVRUXQLWZLWKPRXQWLQJEHOWRQWKHPDUNHGOLQHDQGWXUQWKHHOHPHQWKROGHUWR DWWDFKWKHVXUIDFHRIWKHVHQVRUXQLWWRWKHSLSH 1RWH1RWHWKDWH[FHVVLYHSUHVVXUHPD\FDXVHWKHUDLOHQGWRFRPHRIIWKHSLSH 0RXQWLQJPHWKRGYDU\GHSHQGLQJRQWKHW\SHRIEHOW3OHDVHUHIHUWRWKH,WHPIRUGH- WDLOV

&RQQHFWWKHVLJQDOFDEOH 1RWH3OHDVHPDNHVXUHWKDWSRZHURIWUDQVPLWWHULVWXUQHG2))ZKHQFRQQHFWLQJ &RQQHFWLRQH[DPSOHGLVFULPLQDWHWKHFDEOHFRORUEHWZHHQWKHXSSHUVWUHDP³5HG´DQG GRZQVWUHDP³%ODFN´DQGFRQQHFWWKHPWRWUDQVPLWWHUZLWKPDWFKLQJFRORUFDEOH

)RUW\SHRIZDWHUSURRIWUHDWPHQWVLJQDOFDEOHLVDOUHDG\FRQQHFWHGDVIDFWRU\GHIDXOW ,QFDVH\RXEHQGWKHEDVHRIWKHVLJQDOFDEOHZLWKZDWHUSURRIOHQJWKRIPLQLPXPUDGLXVWR EHQGLVPP

Minimum radius to bend 㻢100mm

INF-TN4FSC-E 49 0HWKRGRIPRXQWLQJEHOW CAUTION 3OHDVHXVHWKHJORYHVDQGWKHSOLHUVZKHQFRQGXFWLQJZRUNRQVWDLQOHVVVWHHOEHOW 2WKHUZLVH\RXPD\KXUW\RXUVHOI

)ROORZLQJVDUHGHVFULSWLRQKRZWRXVHWKHEHOWVHOHFWHGDWWKGLJLWRIFRGHRIV\PEROV ,WLVGHVFULEHGEDVHGRQ)66&W\SHDQGLWLVDOVRUHIHUHQFHIRURWKHUW\SHV

6WDLQOHVVVWHHOEHOW WKGLJLW$ 3XWWKHEHOWWKURXJKWKHKROHRIWKH 3XWWKHEHOWWKURXJKWKHODWFK UDLOHQGDQGZUDSLWDURXQGWKHSLSH

5HWXUQWKHEHOWDWWKHHQGRIWKH 3XWWKHODWFKEDFNRQ ODWFK

/RFNWKHODWFK 3OHDVHPDNHVXUHWKHWHQVLRQRIWKH EHOWWRSXWWKHODWFKEDFNRQ :KHQWHQVLRQLVQRWWLJKWHQRXJKJR EDFNWRWKHSURFHGXUH DQGPDNH DQDGMXVWPHQW $IWHUORFNLQJWKHODWFKPDNHVXUH WRFXWWKHH[WUDOHQJWKRIWKHEHOWRU ZUDSLWDURXQGWKHSLSH

50 INF-TN4FSC-E 3ODVWLFFORWKEHOW WKGLJLW% :UDSWKHEHOWZLWKURXJKVLGHIDFLQJ 3XWLWWKURXJKWKHEXFNOH XSDURXQGSLSH

)L[WKHEHOWZLWKSXOOLQJEDFN

%HOWZLWK686VFUHZFODPS WKGLJLW& 3XWWKHEHOWWKURXJKWKHKROHRIWKH 3XWWKHEHOWWKURXJKWKH¿[LQJ UDLOHQGDQGZUDSLWDURXQGWKHSLSH FODPS

3XOOWKHEHOWOD\GRZQWKHVFUHZ 0DNHVXUHWKHWHQVLRQRIWKHEHOWDQG DQGZUDSLWWLJKWHQWKHVFUHZZLWK PDNHDQDGMXVWPHQW VFUHZGULYHUDURXQGWKHSLSH

INF-TN4FSC-E 51 :LUH WKGLJLW'( >)RUPRXQWLQJRI9PHWKRG@ 3XWWKHZLUHWKURXJKWKHKROHRIUDLO $GMXVWWKHZLUHOHQJWKWRWKHSLSH end and wrap it around the pipe and VL]H KRRNLWZLWKPRXQWLQJVSULQJWR¿[ 0RXQWLQJVSULQJOHQJWKLVDSSUR[ PP

>)RUPRXQWLQJRI=PHWKRG@ $GMXVWWKHZLUHOHQJWKWRWKHSLSH 3XWWKHZLUHWKURXJKWKHKROHRIUDLO VL]H end and wrap it around the pipe and KRRNLWZLWKPRXQWLQJVSULQJWR¿[ 0RXQWLQJVSULQJOHQJWKLVDSSUR[ PP

52 INF-TN4FSC-E +RZWRPRXQW)66'WRSLSH +RZWRPRXQWDGHWHFWRU 9PHWKRG

/RRVHQWKHORFNQXWDQGVOLGHWKHVHQVRUVRDVWR Lock nut Saddle PHHWWKHPRXQWLQJGLPHQVLRQDQGWKHQWLJKWHQ Element holdder WKHQXW BNC connector

Cursor

Mounting dimension (L) Scale Frame

$SSO\DFRDWRIVLOLFRQHJUHDVHWRWKHWUDQVPLW- WLQJVXUIDFHRIWKHVHQVRU6SUHDGWKHFRPSRXQG RYHUWKHHQWLUHDUHD

.HHSWKHVHQVRUUHWUDFWHGE\WXUQLQJWKHHOHPHQW Transmitting KROGHUFRXQWHUFORFNZLVH surface $IWHUFOHDQLQJWKHVXUIDFHRIWKHSLSHWKHVHQVRU VKRXOGEHPRXQWHG

CAUTION $SSO\DVPDOOTXDQWLW\ OLNHWRRWKSDVWH RI VLOLFRQJUHDVHWRWKHWUDQVPLWWHUXQLW Element holder

)L[WKHERWKHQGV VDGGOHV RIWKHVHQVRUWRWKH SLSHE\FORWKEHOWV 0RXQWLQJZLOOEHIDFLOLWDWHGE\ZLQGLQJWKH Cloth belt FORWKEHOWVRQWKHSLSHLQDGYDQFH &ORWKEHOWVDUHXVDEOHDW&RUORZHU,IEH- \RQG&VWDLQOHVVVWHHOEHOWVVKRXOGEHXVHG +LJKWHPSHUDWXUHVWDLQOHVVEHOW'UDZLQJ1R ==3½7.3&

0DNHVXUHWKHVHQVRULVPRXQWHGLQSDUDOOHOZLWK WKHSLSHD[LVDQGWKHPRXQWLQJGLPHQVLRQLV ULJKW7KHQWXUQWKHHOHPHQWKROGHUFORFNZLVH Cable XQWLOWKHVHQVRUFRPHVLQFORVHFRQWDFWZLWKWKH SLSH :KLOHFKHFNLQJWKDWWKHWUDQVPLWWLQJVXUIDFH Element KRUL]RQWDOO\FRPHVLQFRQWDFWZLWKWKHSLSH holder VXUIDFHWXUQWKHHOHPHQWKROGHUXQWLOLWEHFRPHV GLI¿FXOWWREHWXUQHG

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INF-TN4FSC-E 89 Mode Description

Displays logging conditions. Cursor Graduation interval

Data value at the position of cursor Data axis zoom bar (vertical axis). Time axis zoon bar (Horizontal axis).

Enlarging the graph Kind of data (Displays kind of data displayed on Movement of the graph) data axis, time axis and cursor display Prints the data within the display range in graph format.

/RJJLQJGDWDIRUXSWRIRXUVFUHHQVIURPWKHVWDUWRIORJJLQJLVGLVSOD\HG7KHPD[LPXPQXPEHURI GDWDLVGDWD GDWDSHUVFUHHQ ,I\RXFKHFNWKHGDWDDIWHUUHDGD6'PHPRU\FDUGGLUHFWO\RQWKH3& 7RFKDQJHNLQGRIGDWDWREHGLVSOD\HG 0RYHWKHFXUVRUWR³6285&(´DQGSUHVVWKH ENT NH\ WRHQWHUWKH6285&(VFUHHQ6HOHFWWKHNLQGRIGDWD E\SUHVVLQJWKH or NH\

1RWH 'LVSOD\RQO\W\SHVRIORJJHGGDWD

7RFKDQJHVFDOHRIWLPHD[LV KRUL]RQWDOD[LV DQG GDWDD[LV YHUWLFDOD[LV 0RYHWKHFXUVRUWR³=220´WRHQODUJHRUFRQWUDFW WKHWLPHD[LVE\WKH or NH\ (QODUJHRUFRQWUDFWWKHGDWDD[LVE\WKH or NH\

(QODUJHFRQWUDFW

90 INF-TN4FSC-E )RUPRYLQJWLPHD[LV Press or NH\PRYHWKHFXUVRUWR³6&52//´ DQGWKHQSUHVVWKH(17NH\6&52//ZLOOEHUHDG- LHG )RUPRYLQJWLPHD[LVSOHDVHXVH or NH\

Scroll bar

7RGLVSOD\GDWDYDOXHVRIFXUVRU 0RYHWKHFXUVRUWR³&85625´E\SUHVVLQJ or Time NH\ 0RYHWKHFXUVRUE\SUHVVLQJWKH or NH\WRGLV- SOD\WKHGDWDYDOXHRIWKHWLPH Cursor

Data

7RSULQWJUDSK 0RYHWKHFXUVRUWR³35,17´DQGSULQWDJUDSKE\ SUHVVLQJWKH ENT NH\

File No. of logger data Name of logger data Starting time/date

Ending time/date

The number of logger data Kind of data (source) Unit of printing data

INF-TN4FSC-E 91 :KHQSULQWLQJORJJHGGDWDLQWH[W

[Operation] 3UHVVWKH or NH\RQWKH/2**(5VFUHHQ VHOHFW³/2**(5'$7$´DQGSUHVVWKH ENT NH\ :KHQWKH³/2**(5'$7$´VFUHHQDSSHDUVSUHVV the ENT NH\

7KH02'(VFUHHQDSSHDUV 6HOHFW³35,17´DQGSUHVVWKH ENT NH\

3UHVVWKH or NH\WRVHOHFWWKHQDPHRIORJJHU GDWD 1R DQGSUHVVWKH ENT NH\WRGLVSOD\WKHSULQW- RXWVFUHHQ

6HWWKHSULQWLQJFRQGLWLRQV 7KHQPRYHWKHFXUVRUWR³35,17´DQGSUHVVWKH ENT NH\

92 INF-TN4FSC-E >([DPSOH@ GDWDDUHVDYHGLQWKH³$´ORJJHUGDWDHYHU\VHFRQGVEHWZHHQDQG R¶FORFN 7KHORJJHUGDWDIURPWKHWK DW WRWKHVW DW DUH SULQWHGRXWHYHU\VHFRQGV

1. Select “START DATA POSI.” and press ENT . Change to 7 by the or Name and condition of keys. selected logger data 2. Select “STOP DATA POSI.” and press ENT . Change to 361 by the or Total of logged data keys.

Printing conditions of 3. Select “CYCLE” and press logger data above ENT . Change to 00:10:00 by the or keys.

4. Select “PRINT” and press ENT , and printing is started. 6LQFHWKHGDWDWKDWFDQEHSULQWHGRXWSXWLVXSWRGDWDVHW³67$57'$7$326,´DQG ³6723'$7$326,´VRWKDWLWEHFRPHVGDWDRUOHVV

INF-TN4FSC-E 93 6HWWLQJRIV\VWHP 6<67(06(783VFUHHQ 7KLVV\VWHPDOORZV\RXWRDFFRPSOLVKWKH%$6,&6(783 V\VWHPVHWXSVXFKDVVHWXSRIFORFN DQGPHDVXUHPHQWXQLW WKH$1$/2*,1387287387 DQDORJLQSXWVHWWLQJDQGLQSXWRXWSXW FDOLEUDWLRQ DQGWKH(1(5*<02'( VHWWLQJRIPRGHRSHUDWLRQDQGWHPSHUDWXUH

%$6,&6(783ZKHQVHWWLQJWKHV\VWHP 6HOHFW³%$6,&6(783´RQWKH6<67(0VFUHHQ Press the ENT NH\WRGLVSOD\WKH%$6,&6(783 VFUHHQ

³&/2&.´ZKHQVHWWLQJWKHFORFN VHWWKHSUHVHQWWLPH

3UHVVWKH or NH\RQWKH%$6,&6(783VFUHHQ DQGVHOHFW³&/2&.´ Press the ENT NH\DQGWKHFXUVRUPRYHVWR³'$7( ',63/$<´ Press the ENT NH\WRGLVSOD\WKH'DWH',63/$< VFUHHQ Select the display of date by the or NH\DQG press the ENT NH\ YYYY : Year MM : Month DD : Day

94 INF-TN4FSC-E 0RYHWKHFXUVRUWR6(7'$7(7,0(E\WKH or NH\DQGSUHVVWKH ENT NH\VRWKDWWLPHDQGGDWH FDQEHVHW 0RYHWKHGLJLWE\WKH or NH\DQGHQWHUQXPHULF values by the or NH\ $IWHUHQWU\SUHVVWKH ENT NH\ 7KHVHWXSWLPHLVVHWDWWKLVSRLQW Setup contents \HDUPRQWKGD\KRXUPLQXWH

CAUTION :KHQXVLQJWKHWRWDORUWKHGDWDORJJHURUWKHWLPHUIXQFWLRQRIWKHSULQWHUWLPHVHWWLQJFDQQRWEH RSHUDWHG6WRSWKHWLPHUIXQFWLRQDQGWKHQVHWLWDJDLQ

INF-TN4FSC-E 95 6<67(081,7ZKHQVHWWLQJWKHPHDVXUHPHQWDQGVHWWLQJXQLWV\VWHP >VHOHFWLRQRIPHWHUV\VWHPDQGLQFKV\VWHP@

[Operation] 6HOHFW³6<67(081,7´E\WKH or NH\RQWKH %$6,&6(783VFUHHQ Press the ENT NH\DQGWKH6<67(081,7VFUHHQLV GLVSOD\HG

6HOHFW³0(75,&´RU³(1*/,6+´E\WKH or NH\DQGSUHVVWKH ENT NH\ 1RWH)RUXVLQJRI,QFKSOHDVHVHOHFW³(1*/,6+´

96 INF-TN4FSC-E ³/&'32:(52))´ZKHQVHWWLQJWLPHIRUH[WLQJXLVKLQJ/&' >7RWXUQRII/&'DXWRPDWLFDOO\@ 6HWWKH/&'RIIWLPH WKHVHWWLQJUDQJHLVIURPWRPLQ ,INH\RSHUDWLRQLVQRWSHUIRUPHGWKHEDFNOLJKWRIWKH/&' VFUHHQ JRHVRIIDXWRPDWLFDOO\DQG WKHQWKHSRZHURI/&'ZLOOEH2)),INH\RSHUDWLRQLVSHUIRUPHGZKLOHWKHEDFNOLJKWLVNHSW RIILWFRPHVRQ ,IPLQLVVHOHFWHGIRU2))WLPHWKHOLJKWLVNHSW21

LCD POWER OFF LCD POWER OFF 2 2 LCD ON LCD OFF LCD Power OFF

Key operation

[Operation] 3UHVVWKH or NH\RQWKH%$6,&6(783VFUHHQ DQGVHOHFW³/&'32:(52))´ Press the ENT NH\DQG\RXDUHUHDG\WRVHWWKH/&' RIIWLPH 0RYHWKHGLJLWE\WKH or NH\DQGHQWHUQXPHULF YDOXHVE\SUHVVLQJWKH or NH\ $IWHUHQWU\SUHVVWKH ENT NH\

CAUTION ,I\RXVHWWKH³/&'32:(52))´WR]HURPLQXWH DYRLGOHDYLQJWKHGLVSOD\LQDVDPHVFUHHQIRUDORQJ WLPHEHFDXVHLWFDXVHVVFUHHQDIWHUJORZ

INF-TN4FSC-E 97 ³'(),1,7,212)35,17.(<´ZKHQVHWWLQJWKH35,17NH\ >7RVHOHFWSULQWHUDQG6'PHPRU\@

35,17(52XWSXWWKHVFUHHQFRS\GDWDWRWKH35,17(5 6'0(025<6DYHWKHVFUHHQFRS\GDWDWRWKH 6'0(025<

[Operation] 3UHVVWKH or NH\RQWKH%$6,&6(783VFUHHQ DQGVHOHFW³'(),1,7,212)35,17.(<´ Press the ENT NH\WRRSHQWKH'(),1,7,212) 35,17.(

6HOHFW³35,17(5´RU³6'0(025<´E\WKH or NH\DQGSUHVVWKH ENT NH\

CAUTION :KHQWKH6'0(025

98 INF-TN4FSC-E 0($685(0(7+2'ZKHQFKDQJLQJPHDVXUHPHQWPHWKRG 1250$/LVWKHVWDQGDUGPHDVXUHPHQWPHWKRG $17,',6785%$1&(02'(UHVLVWVDQH[WHUQDOGLVWXUEDQFH ,IWKH02'(LVQRWDYDLODEOHFKDQJHLWWRWKH$17,',6785%$1&(02'( 7KHPHDVXUHPHQWV\VWHPLVDXWRPDWLFDOO\VHOHFWHGDFFRUGLQJWRWKHNLQGRIVHQVRURUVHWWLQJ RIRXWHUGLDPHWHU,IWKH$17,',6785%$1&(02'(LVDXWRPDWLFDOO\VHOHFWHGIURPWKH EHJLQQLQJWKHUHLVQRQHHGWRVZLWFKWKHPHWKRG)RUWKH02'(WKDWKDVEHHQDXWRPDWLFDOO\ VHOHFWHGFKDQJHWRWKH$17,',6785%$1&(02'(LVSRVVLEOH

[Operation] 3UHVVWKH or NH\RQWKH%$6,&6(783VFUHHQ DQGVHOHFW³0($685(0(7+2'´ Press the ENT NH\DQGWKHVFUHHQDSSHDUVSURPSWLQJ \RXWRVHOHFWPHDVXUHPHQWPHWKRG

6HOHFW³1250$/´RU³$17,',6785%$1&( 02'(´E\WKH or NH\DQGSUHVVWKH ENT NH\

CAUTION 7KHPHDVXUHPHQWPHWKRGLVLQLWLDOL]HGDFFRUGLQJWRWKHNLQGRIVHQVRURURXWHUGLDPHWHUVHW- WLQJDWWKHSRZHU21RUMXVWZKHQWKH352&(666(77,1*VFUHHQLVGLVSOD\HGRQWKH6,7( 6(77,1*$IWHUFKDQJLQJIURP1250$/WR$17,',6785%$1&(02'(VHWWKHPHD- VXUHPHQWPHWKRGDJDLQZKHQWKHSRZHULVWXUQHG2))RUWKH352&(666(77,1*VFUHHQLV GLVSOD\HG

CAUTION :KHQWKHPHDVXUHPHQWPHWKRGKDVEHHQFKDQJHGIURP1250$/WR$17,',6785%$1&( 02'(PHDVXUHPHQWYDOXHVDUHVXEMHFWHGWRFKDQJH

INF-TN4FSC-E 99 0(025<,1,7,$/,=(7KHVHWWLQJSDUDPHWHUVDUHLQLWLDOL]HG [Operation] 3UHVVWKH or NH\RQWKH%$6,&6(783VFUHHQ DQGVHOHFW³0(025<,1,7,$/,=(´ Press the ENT NH\DQG\RXDUHUHDG\WRLQLWLDOL]HWKH GDWD

6HOHFW³5(%227´E\SUHVVLQJWKH or NH\DQG press the ENT NH\ CAUTION 127( 7KHIROORZLQJGDWDZLOOEHUHWDLQHG 7KHVLWHWKDWKDVEHHQQRWVHOHFWHG VLWHPHPRU\ &ORFN $QDORJRXWSXWLQSXWFDOLEUDWLRQYDOXH 7KHFRQWHQWVRI6'PHPRU\FDUG

6HOHFW³(;(&87(´E\SUHVVLQJWKH or NH\DQG press the ENT NH\

CAUTION :KHQWKHSDUDPHWHULVLQLWLDOL]HGGLVSOD\ ODQJXDJHLVVHWWR(QJOLVK )RUFKDQJLQJGLVSOD\ODQJXDJHUHIHUWR³ 7XUQLQJRQSRZHUDQGODQJXDJHSUHIHUHQFH´

100 INF-TN4FSC-E /&'&2175$67,I\RXZDQWWRDGMXVWWKHGLVSOD\FRQWUDVW [Operation] 3UHVVWKH or NH\RQWKH%$6,&6(783VFUHHQ WRVHOHFW³/&'&2175$67´DQGSUHVVWKH ENT NH\

6HWWKH/&'FRQWUDVWLQWKHUDQJHEHWZHHQDQG

Setpoint Contrast /RZ _ _ Ľ +LJK

3UHVVWKH ENT NH\

INF-TN4FSC-E 101 ³$1$/2*,1387287387´ZKHQSHUIRUPLQJDQDORJLQSXWRXWSXW and calibration 7KLVIXQFWLRQDOORZV\RXWRVHWWKHDQDORJLQSXWRXWSXWDQGSHUIRUPLQSXWRXWSXWFDOLEUDWLRQ

(Note) The connector should Red be connected to AI/AO. (+) Black AO í 4 to 20mA (Output)

AO AI ch1 AI ch2

AI －＋ (Input) Indicator, Red Black recorder, (+) í regulator, etc. Analog input/output cord (page 20)

$QDORJRXWSXWWRP$'&SRLQW³/RDGUHVLVWDQFHXQGHU´ $QDORJLQSXW WRP$'&SRLQW³,QSXWUHVLVWDQFH´ WRP$'&SRLQW³,QSXWUHVLVWDQFH´RU 1 to 5V DC 1 point

6HOHFW³$1$/2*,1387287387´RQWKH³6<6- 7(06(783´VFUHHQ Press the ENT NH\WRGLVSOD\WKH$1$/2*,1387 287387VFUHHQ

102 INF-TN4FSC-E ³6(77,1*´ZKHQXVLQJDQDORJLQSXWRXWSXW

[Operation]

3UHVVWKH ENT NH\RQWKH³6(77,1*´VFUHHQDQG PRYHWKHFXUVRUWR³$1$/2*,1387287387´ Press the ENT NH\DQGWKHVFUHHQDSSHDUVSURPSWLQJ \RXWRGHFLGHZKHWKHUDQDORJLQSXWRXWSXWLVXVHGRU QRW

6HOHFW³86('´RU³12786('´E\WKH or NH\ and press the ENT NH\

INF-TN4FSC-E 103 ³6(77,1*´ZKHQVHWWLQJWKHNLQGRIDQDORJLQSXW 'H¿QLWLRQRI$QDORJLQSXW 12786('6HOHFWWKLVZKHQLWLVQRWXVHG &XUUHQWLQSXW $33/,&$7,21 &RQQHFWWKHH[WHUQDOÀRZWUDQVPLWWHURIWRP$'& &XUUHQWLQSXW 6833/<7(03 )RUXVLQJWKH(QHUJ\PRGHFRQQHFWWKHIHHGWHPSHUDWXUHWR P$'& :KHQ\RXVHWWKHGH¿QLWLRQRIDQDORJLQSXWWR³&855(17 7(03',)) ´³&855(17 6833/<7(03 ´EHFRPHV LQYDOLG 9ROWDJHLQSXW&RQQHFWWKHH[WHUQDOÀRZWUDQVPLVVLRQRIWR9'& 'H¿QLWLRQRI$QDORJLQSXW 12786('VHOHFWWKLVZKHQ\RXGRQRWXVH &XUUHQWLQSXW $33/,&$7,21 &RQQHFWWKHH[WHUQDOÀRZWUDQVPLWWHURIWRP$'& &XUUHQWLQSXW 5(78517(03 )RUXVLQJWKH(QHUJ\PRGHFRQQHFWWKHUHWXUQWHPSHUDWXUH WRP$'& &XUUHQWLQSXW 7(03',)) )RUXVLQJWKH(QHUJ\PRGHFRQQHFWWKH6833/<7(03DQGWKH 5(78517(03RIWRP$'&

[Operation]

3UHVVWKH ENT NH\RQWKH6(77,1*VFUHHQDQGWKH FXUVRUPRYHVWR³$1$/2*,1387287387´ 6HOHFW³,1387&+'(),1,7,21´RU³,1387&+ '(),1,7,21´E\WKH or NH\DQGSUHVVWKH ENT NH\

7KHVFUHHQWRVHOHFWDQDORJLQSXWGH¿QLWLRQLVGLVSOD\HG 6HOHFWWKHNLQGRILQSXWDQGSUHVVWKH ENT NH\

CAUTION 5HIHUWR³6HWWLQJRIUDQJH´IRUVHWWLQJRI LQSXWUDQJH

INPUT CH1 DEFINITION INPUT CH2 DEFINITION

104 INF-TN4FSC-E ³,QSXW&+&+$QDORJ,QSXW&$/,%5$7,21´ ZKHQDGMXVWLQJ]HURDQGVSDQIRULQSXWVLJQDOV >3OHDVHSUHSDUHDFXUUHQWJHQHUDWRU@

Calibration procedure VHWWKH³$1$/2*,1387287387´WRWKH³86('´ VHWWKHGH¿QLWLRQRI³6(77,1*´LQSXW&+WR³&855(17´ [Operation] 0RYHWKHFXUVRUWRWKH³,1387´RQWKH6(77,1* VFUHHQE\SUHVVLQJWKH or NH\DQGGLVSOD\WKH ,1387VFUHHQ Press the ENT NH\DQGWKHFXUVRUPRYHVWR³&+ ,1387&$/,%5$7,21´RU³&+,1387&$/,- %5$7,21´ 6HOHFW³&+,1387&$/,%5$7,21´E\WKH or NH\DQGSUHVVWKH ENT NH\ 6HOHFWWKHNLQGRILQSXW\RXVHWRQWKH³6(77,1*´ screen by the or NH\DQGSUHVVWKH ENT NH\ 7KHFXUVRUPRYHVWR³$'-867´3UHVVWKH ENT NH\ DQG\RXDUHUHDG\WRP$FDOLEODWLRQ

,QSXWP$IURPH[WHUQDO7KHQSUHVVWKH ENT NH\WR DGMXVW]HUR )ROORZWKHSURFHGXUHVGHVFULEHGLQQH[WSDJHRILQSXW FDOLEUDWLRQ $IWHULQSXWFDOLEUDWLRQ P$ LVFRPSOHWHGFDOLEUD- WLRQ P$ ZLOOEHUHDG\

,QSXWP$IURPH[WHUQDO7KHQSUHVVWKH ENT NH\WR DGMXVWVSDQ )ROORZWKHSURFHGXUHVGHVFULEHGLQQH[WSDJHRILQSXW FDOLEUDWLRQ

INF-TN4FSC-E 105 Current Input Caribration procedure

ENT ENT

Input 4mA from external. Under calibration of 4mA

ENT

Input 20mA from external. Under calibration of 20mA End of calibration After calibration, the “End of Calibration” message appears under the calibration button.

CAUTION $QDORJLQSXWKDVDOUHDG\EHHQFDOLEUDWHGRQWKHIDFWRU\VHWWLQJ :KHQ\RXLQWHUUXSWWKHFDOLEUDWLRQLQWKHPLGGOHWKHFDOLEUDWLRQYDOXHZLOOEH ORVW ,I\RXLQWHUUXSWWKHFDOLEUDWLRQVWDUWIURPWKHEHJLQQLQJDJDLQ &DOLEUDWHGDQDORJLQRXWUHTXLUHGIRU$,PHDVXUHPHQW

106 INF-TN4FSC-E ³,QSXW&+9ROWDJH,QSXW&$/,%5$7,21´ ZKHQDGMXVWLQJ]HURDQGVSDQIRULQSXWVLJQDOV >8VLQJDYROWDJHJHQHUDWRU@

Calibration procedure VHWWKH³$1$/2*,1387287387´WRWKH³86(´ VHWWKHGH¿QLWLRQRI³6(77,1*´LQSXW&+WR³92/7$*(,1387´

[Operation] 0RYHWKHFXUVRUWRWKH³,1387´RQWKH6(77,1* VFUHHQE\SUHVVLQJWKH or NH\DQGGLVSOD\WKH ,1387VFUHHQ Press the ENT NH\DQGWKHFXUVRUPRYHVWR³&+ ,1387&$/,%5$7,21´ 6HOHFW³&+,1387&$/,%5$7,21´E\WKH or NH\DQGSUHVVWKH ENT NH\ 6HOHFWWKHNLQGRILQSXW\RXVHWRQWKH³6(77,1*´ screen by the or NH\DQGSUHVVWKH ENT NH\ 7KHFXUVRUPRYHVWR³$'-867´3UHVVWKH ENT NH\ DQG\RXDUHUHDG\WR9FDOLEUDWLRQ

,QSXW9IURPH[WHUQDOVRXUFH7KHQSUHVVWKH ENT NH\WRDGMXVW]HUR )ROORZWKHSURFHGXUHVGHVFULEHGLQQH[WSDJHRILQSXW FDOLEUDWLRQ $IWHULQSXWFDOLEUDWLRQRI9LVFRPSOHWHG9FDOL- EUDWLRQZLOOEHUHDG\

,QSXW9IURPH[WHUQDOVRXUFH7KHQSUHVVWKH ENT NH\WRDGMXVWVSDQ )ROORZWKHSURFHGXUHVGHVFULEHGLQQH[WSDJHRILQSXW FDOLEUDWLRQ

INF-TN4FSC-E 107 9ROWDJH,QSXW&DOLEUDWLRQSURFHGXUH

ENT ENT

Input 1V from external. Under calibration of 1V

ENT

Input 5V from external. Under calibration of 5V End of calibration After calibration, the “End of Calibration” message appears under the calibration button.

108 INF-TN4FSC-E $2&$/,%5$7,21ZKHQDGMXVWLQJRXWSXWFLUFXLW SUHSDUHDQDPPHWHU Calibration procedure VHWWKH³$1$/2*,1387287387´WRWKH³86('´ [Operation] 0RYHWKHFXUVRUWRWKH³287387´RQWKH6(77,1*VFUHHQE\SUHVVLQJWKH or NH\ DQGGLVSOD\WKH287387VFUHHQ Press the ENT NH\DQGWKHFXUVRUPRYHVWRP$

6HOHFWHLWKHUP$RUP$E\WKH or DQGSUHVVWKH ENT NH\ $GMXVWWKHRXWSXWFLUFXLWVRWKDWRXWSXWVDUHDGMXVWHGWRHLWKHUP$ RXWSXWFDOLEUDWLRQ RUP$ RXWSXWFDOLEUDWLRQ E\SUHVVLQJWKH or NH\

3UHVVWKH ENT NH\WRVHWXS

Transition from 4 mA to 20 mA or vice versa.

Adjust output to 4 mA Adjust output to 20mA with an ammeter and and press ENT . ENT key ENT key press ENT .

“Output calibration” by “Output calibration” by pressing the or key. pressing the or key.

INF-TN4FSC-E 109 ³(1(5*<02'(´ZKHQPHDVXULQJFRQVXPHGKHDWTXDQWLW\ 7KLVIXQFWLRQFDOFXODWHVWKHKHDWTXDQWLW\UHFHLYHGDQGVHQWZLWKOLTXLG ZDWHU LQFRROLQJDQG KHDWLQJ

Flowmeter (Type: FSC)

Consumed heat quantity q = K · Q · (T1–T2) Converter K : heat quantity AI/AO conversion factor (For heating K = 4.123, Temperature For cooling = 4.186) sensor

T1: Fluid temperature (inlet) source Load Heat

Converter

Temperature Detector sensor (type : FSS)

T2: Temperature of the heating Q: Flow rate of the medium of the receiving side heating medium

6HOHFW³(1(5*<02'(´RQWKH6<67(06(783 VFUHHQ Press the ENT NH\WRGLVSOD\WKH(1(5*<02'( VFUHHQ

0DNHHDFKVHWWLQJRQWKH(1(5*<02'(VFUHHQ )RUGHWDLOVUHIHUWRWKHVHWWLQJFRQWHQWVLQWKHIRO- ORZLQJSDJH

110 INF-TN4FSC-E ³02'(´ 6HOHFWWKH³(1(5*<02'(´ :KHQ\RXVHOHFW³12786('´FDOR- ULHLVQRWPHDVXUHG

³23(5$7,21´ 6HWVWKHHQYLURQPHQWIRUWKHSLSHWREH PHDVXUHG6HOHFWIURPWKHPHQXIRU VHWWLQJ 1RWFRROLQJKHDWLQJRSHUDWLRQ ZKHQ \RXVHOHFW³27+(56´VHWWKHFRQYHU- VLRQFRHI¿FLHQWRIKHDWTXDQWLW\ 6HWWLQJUDQJHWR

³)/8;0($685(0(17´ 6HWVWKHSRVLWLRQWRPHDVXUHWKHÀRZ UDWHRIKHDWLQJPHGLXP

³6833/<7(03(5$785(´ 6HWVWKHIHHGLQJWHPSHUDWXUH :KHQ\RXVHOHFW³$1$/2*,1387 &+$11(/´FXUUHQWLQSXWRI&+ LVVHWWRUHWXUQLQJWHPSHUDWXUH 6HWWKH ,QSXW&+RIFODXVH GH¿QLWLRQWR³&855(17 6833/< 7(03 ´ :KHQ\RXVHWWKHGH¿QLWLRQRI,Q- SXW&+WRWKH³&855(17 7(03 ',)) ´WKH6833/<7(03ZLOOEH GLVDEOHG :KHQ\RXVHOHFW³7(03(5$785( 6(77,1*´WKHWHPSHUDWXUH\RX HQWHUHGLVVHWWRIHHGLQJWHPSHUDWXUH 6HWWLQJUDQJH±WR&

INF-TN4FSC-E 111 ³5(78517(03(5$785(´ 6HWVWKHUHWXUQLQJWHPSHUDWXUH :KHQ\RXVHOHFW³$1$/2*,1387 &+$11(/´FXUUHQWLQSXWRI&+ LVVHWWRWKHUHWXUQLQJWHPSHUDWXUH 6HWWKH ,QSXW&+RIFODXVH GH¿QLWLRQWR³&855(17 7(03 ',)) ´RU³&855(17 5(7851 7(03 ´ :KHQ\RXVHOHFW³7(03(5$785( 6(77,1*´WKHHQWHUHGWHPSHUDWXUHLV VHWWRUHWXUQLQJWHPSHUDWXUH 6HWWLQJUDQJH±WR&

1RWH 7RVHWWKHIHHGUHWXUQWHPSHUDWXUHWRWKH¿[HGWHPSHUDWXUH 703(5$785(6(77,1* PDNH VHWWLQJVIRUIHHGUHWXUQWHPSHUDWXUHRQWKH$1$/2*,1387&+$11(/DQG$1$/2*,1- 387&+$11(/VFUHHQ 1RWH :KHQWKHGLIIHUHQFHEHWZHHQWKHIHHGLQJWHPSHUDWXUHDQGWKHUHWXUQLQJWHPSHUDWXUHLVWR WKHUPDOÀRZLV]HUR

112 INF-TN4FSC-E 6HWWLQJRIUDQJH VHWWLQJVFUHHQIRULQSXWRXWSXWUDQJH 6HWWKHPHDVXULQJXQLWUDQJHRXWSXWPRGHDQGHUURUKDQGOLQJIRUDQDORJLQSXWRXWSXW

6HWWLQJWKHLQSXWUDQJH:KHQVHWWLQJWKHUDQJHIRUWKHLQSXWFXUUHQW or input voltage. 6HWWLQJUDQJHWR

Full scale 20mA or 5V Input conversion

Input conversion = Input (%) / 100 × (Full scale – Base scale) + Base scale Base scale 4mA or 1V 0 100% Input

3UHVVWKH or NH\RQWKH5$1*(VFUHHQWR VHOHFW³,13875$1*(´ Press the ENT NH\WRGLVSOD\WKH,13875$1*( VFUHHQ

6HOHFW³&+´RU³&+´E\WKH or NH\DQG press the ENT NH\

7KHFXUVRUPRYHVWR³%$6(6&$/(´ Press the ENT NH\DQG\RXDUHUHDG\WRVHWWKHEDVH VFDOH 0RYHWKHGLJLWE\WKH or NH\DQGHQWHUQXPHULF YDOXHVE\SUHVVLQJWKH or NH\ $IWHUHQWU\SUHVVWKH ENT NH\WRVHWWKHEDVHVFDOH

INF-TN4FSC-E 113 0RYHWKHFXUVRUWR³)8//6&$/(´E\WKH or NH\DQGVHWWKHIXOOVFDOHLQWKHVDPHPDQQHUDVWKH EDVHVFDOH

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Output limit high Analog output 200mA Output limit high 20mA

í í 4mA Flow rate Output limit low 100% 4mA Output limit low 0 100% Reverse Forward Flow rate

Single range: Output one way by 0 to 100% Bi-directional range: Also output back-flow by 0 to 100%. Output = Momentum flow rate ×100 When switching flow direction, Hysteresis / Full scale will be 10% in full scale.

6HOHFW³5$1*(´RQWKH2873875$1*(VFUHHQ and press the ENT NH\DQGWKHFXUVRUPRYHVWR ³.,1'´

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INF-TN4FSC-E 115 6HWWKHUDQJHW\SH VLQJOHUDQJHRUELGLUHFWLRQDO UDQJH 6HOHFW³5$1*(7<3(´E\SUHVVLQJWKH or NH\

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116 INF-TN4FSC-E ³(5525´VHWWLQJRIDQDORJRXWSXWDWHUURU %XUQRXW :KHQDQHUURURFFXUVVHWDFXUUHQWRXWSXWWRIRUFHDVHWYDOXH:KHQUHVROYLQJWKHFDXVHWKH FXUUHQWRXWSXWLVDXWRPDWLFDOO\UHVWRUHG ³(5525´PHDQVWKDWWKHHUURUFRGHVKRZV(RU( 6HOHFW³(5525´RQWKH2873875$1*(VFUHHQ and press the ENT NH\WKHFXUVRUPRYHVWR³287387 (5525´

6HWWKHDFWLRQWREHWDNHQDWWKHWLPHRIEXUQRXW Press the ENT NH\DQGWKH(5525VFUHHQDSSHDUV

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INF-TN4FSC-E 117 8VHRISULQWHUIXQFWLRQ 35,17(5VFUHHQ ,WDOORZV\RXWRSULQWPHDVXUHGYDOXHDVZHOODVKDUGFRS\RQDQRSWLRQDOSULQWHU2QWKLVSDJH VHWWLQJIRUSULQWLQJPHDVXUHGYDOXHVDQGVFUHHQKDUGFRS\FDQEHSHUIRUPHG )RUFRQQHFWLQJWKHSULQWHUUHIHUWRVHFWLRQ³+2:7286(35,17(5´

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Prints text data for selected unit in industrial value. Example of printout

Prints data for selected unit in graph. Example of printout

Prints selected list. Example of printout

Displays the status of printer and performs test printing. Example of printout

118 INF-TN4FSC-E ([DPSOHRISULQWLQJ

3ULQWLQJRIWH[W Printing of graph

Y axis Glancing piling interval

Print cycle

Measurement condition Selected type

+ Flow rate total – Flow rate total ([DPSOHRISULQWLQJOLVW

X axis

Test print

INF-TN4FSC-E 119 35,172)7(;7 8SWRLWHPVDYDLODEOHIRUSULQWLQJDUHOLVWHGEHORZ )ORZUDWH LWHPV )ORZYHORFLW\ 7RWDOL]HU LWHPV $QDORJLQSXW LWHPV 7KHUPDOÀRZUDWH LWHPV 2QO\GHVLUHGLWHPVRXWRILWHPVDUHDOORZHGWRSULQW2QHRUPRUHLWHPVDUHVHOHFWDEOHVLPXO- WDQHRXVO\

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CAUTION :KHQWKHSRZHUVXSSO\LVFXWZKLOHSULQWLQJ PDNHDVHWWLQJDJDLQ

INF-TN4FSC-E 121 /,6735,17287 ,WDOORZV\RXWRSULQWOLVWVRIVLWHVHWWLQJUDQJHDQGV\VWHP

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122 INF-TN4FSC-E 0DLQWHQDQFHIXQFWLRQ 0$,17(1$1&(VFUHHQ 7KLVIXQFWLRQDOORZV\RXWRFKHFNWKHFRQGLWLRQRIWKLVLQVWUXPHQW

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INF-TN4FSC-E 123 7RFKHFNIRUXOWUDVRQLFUHFHLYLQJVLJQDOZDYHIRUP

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INF-TN4FSC-E 125 ([SODQDWLRQRIPHDVXUHPHQWGDWD 6LJQDOSRZHU 'LVSOD\VWKHLQWHQVLW\RIUHFHLYHGVLJQDOV 7KHODUJHUWKHYDOXHWKHODUJHUWKHLQWHQVLW\RIUHFHLYHGVLJQDOV 1RUPDOPHDVXUHPHQWYDOXHVIDOOLQRUPRUH )RUWKHUHLVQRUHFHLYHGVLJQDO 8OWUDVRQLFZDYHVPD\QRWEHWUDQVPLWWHGEHFDXVHRILQVXI¿FLHQWZDWHUYROXPHRUUXVWRISLSLQJ 7ULJJHUOHYHO 'LVSOD\VWKHGHWHFWLRQOHYHORIUHFHLYHGZDYHIRUP 6LJQDOSHHN 'LVSOD\VWKHSHDNYDOXHRIUHFHLYHGZDYHIRUP 1RUPDOYDOXHVVWDEO\IDOOZLWKLQWKHUDQJHIURPWR ,IWKHYDOXHÀXFWXDWHVVLJQL¿FDQWO\REMHFWVWKDWFRQVWLWXWHEDUULHUVDJDLQVWXOWUDVRQLFZDYHWUDQV- PLVVLRQVXFKDVDLUEXEEOHVRUIRUHLJQPDWWHUPD\EHFRQWDLQHGLQWKHÀXLG 6WRSWKHÀRZDQGWKHPHDVXUHPHQWLVIRXQGWREHQRUPDO,IVRWKHUHLVDSRVVLELOLW\WKDWDLU EXEEOHVDUHFRQWDLQHG )OXLGVRXQGYHORFLW\ 'LVSOD\VWKHFDOFXODWHGYDOXHRIWKHÀXLGVRXQGYHORFLW\

126 INF-TN4FSC-E >5HPDUN@ &KHFNWRMXGJHZKHWKHUXOWUDVRQLFUHFHLYLQJVLJQDOZDYHIRUPLV QRUPDORUQRW 1RUPDOZDYHIRUP 7KHUHFHLYLQJZDYHIRUPIUHHRIQRLVHQRUPDOPHD- VXUHPHQWFDQEHSHUIRUPHG

Peak value of about 5528 to 6758 Noise level

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INF-TN4FSC-E 127 &KHFNIRUDQDORJLQSXWRXWSXW

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128 INF-TN4FSC-E $QDORJRXWSXW ,WDOORZV\RXWRVHWWKHFRQVWDQWFXUUHQWRXWSXWRIDQDORJ Flow rate output VLJQDO :KHQVHWWLQJWKHVLPXODWLQJRXWSXW WHVWPRGH HDFK Input data RXWSXWFDQEHFKHFNHG /&'GLVSOD\DQDORJRXWSXW :LWKWKHRXWSXWDWWKHDFWXDWHGWLPHDVDQLQLWLDOYDOXH WKHRXWSXWFKDQJHVXSWRWKHLQSXWYDOXH VLPXODWHGÀRZ UDWHWDUJHWYDOXH LQDVHOHFWHGWUDFNLQJWLPHDQGDWWKH Initial value LQSXWGDWDWKHDQDORJRXWSXWYDOXHEHFRPHVFRQVWDQW Tracking time Time

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INF-TN4FSC-E 129 6'PHPRU\FDUG ,WDOORZV\RXWRFKHFNIRUWKHIROORZLQJGDWDLQWKH6'PHPRU\ /RJJHUGDWD'LVSOD\RIORJJHUFRQGLWLRQVDQGWRWDOGDWD 3ULQWVFUHHQ'LVSOD\RIGDWDVFUHHQ )ORZSUR¿OH'LVSOD\RI¿OHQDPHRQO\

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130 INF-TN4FSC-E 7RFKHFNIRUORJJHUGDWD

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132 INF-TN4FSC-E /&'FKHFN 7KHGLVSOD\XQLWXVHVLQFKFRORUJUDSKLFGLVSOD\ îGRWV

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(1) Match the edge of gauge paper with the line at about 100mm from one end of the pipe portion 100mm treated for detector mounting, and wind the gauge paper so that the line marked on the paper is parallel with the pipe axis (fix with tape not to allow deviation). At this time, the edge of gauge paper should be aligned.

Align this surface.

(2) Extending the line marked on the gauge paper, Straight line A mark straight line A on the pipe.

(3) Mark a line along on edge of the gauge paper. A0 Assume the intersection of the line and the straight line A is A0.

V method Z method

Example) When L = 200mm A1 A0 B0, B1 B0, B1

A2 A0

B1 B0 Straight line B 200mm (4) Measure the circumference of the pipe from the point (4) Remove the gauge paper and A0, and mark a line (straight line B) between the point measure the mounting dimension B0 and B1 obtained at 1/2 of the circumference. from A0. Then, draw a line which crosses the straight line A (determine the position A2).

A0 and A2 become the mounting positions.

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Pipe center

Graduation Displays mean fluid velocity or flow rate. interval Status display in case of an error. See "10.8 Contents of errors in status display" in case of status display.

Pipe inside wall

Pipe inside wall Flow velocity Flow velocity distribution 2 distribution 1 Data of cursor position

Cursor

Quick logger Logs fluid velocity data for an hour. Start the logger upon start-up of display of flow velocity distribution by [Source]. See "16.5.3 Flow velocity distribution data file" located toward the end of the volume for the recording format.

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2SWLRQDOLWHPV Name 6SHFL¿FDWLRQV Arrangement No. 1 Battery Special type Li-ion battery ZZP*TK7N6384P1 (7.4V, 2500mAh)×2 2 Power Special type power adapter ZZP*TQ505735C4 adapter WR9$&+] 3 Power code Japan, North America:125V AC 2m ZZP*TK7N6621P1 Europe, Korea: 250V AC 2m ZZP*TK7N6608P1 China: 250V AC 2m ZZP*TK7N6609P1 4 Printer unit To be mounted on top of converter ZZP*TK4J2634C1 Thermal serial dot system (8 x 384 dot) 5 Printer roll Maker: Seiko Instruments Inc. ZZP*TK7N6381P1 paper Type: TP-211C-1 6SHFL¿FDWLRQV7KHUPDOUROOSDSHU Width: 58mm×I48mm, No core 6 Silicone Maker: Shin-Etsu Chemical Co., Ltd. grease Type: · For standard use G40M, 100g ZZP*45231N5 · Silicobe free 100g ZZP*TK7M0981P1 · For high temperature KS62M, 100g ZZP*TK7P1921C1 7 Signal cable Special type signal cable, 5m × 2 · Connector on both sides ZZP*TK7N7795C1 8 Extension Special type coaxial cable with BNC signal cable connector · 10m × 2 ZZP*TK468664C3 · 50m × 2 ZZP*TK468664C4 9 Analog input/output 6-core cable, 1.5m, with connector ZZP*TQ405191C1 cable 10 Mounting belt /wire · Plastic cloth belt ZZP*TK7G7979C1 · Stainless wire Nominal diameter ZZP*TK7G7980C1 f200 to f500mm ZZP*TK7G7980C2 f200 to f1000mm ZZP*TK7G7980C3 f200 to f2000mm ZZP*TK7G7980C4 f200 to f3000mm ZZP*TK7G7980C5 f200 to f6000mm · Stainless steel belt ZZP*TK7G7981C1 11 Guide rail for FSSH · Mounting bracket material: ZZP*TK4J5917C3 (In mounting by the Z Aluminum alloy+SUS304 method) 12 Guide rail for FSSD3 · Mounting bracket material: ZZP*TK4J5917C1 (In mounting by the Z Aluminum alloy+plastic method) 13 SD memory card Maker: Panasonic, Inc. ZZP*TK7N7680P1 Type: RP-SDFC51CD1 Capacity: 512MB 14 USB cable Maker: Sunwa Supply Inc. ZZP*TK7N6622P1 Type: KU-AMB510 6SHFL¿FDWLRQV0LQL86%FDEOH P 15 Signal cable conversion 0FODPSWHUPLQDOV%1&MXFN ZZP*TK4K6304C1 cord L=150mm 16 Hand strap To be attached on the left side of the ZZP*TQ505739C1 transmitter. Strap length: approx. 200 mm 17 Stand For the transmitter ZZP*TQ405196P1 Sloping angle: 45° Note: You cannot use both the hand strap and the stand at the same time.

152 INF-TN4FSC-E 12. ERROR AND REMEDY

,IDQHUURURFFXUVUHIHUWR7DEOHEHORZ 12.1 Error in LCD Display

Status Cause Remedy

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154 INF-TN4FSC-E State Cause 5HPHG\

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INF-TN4FSC-E 155 State Cause 5HPHG\ Measured value is not ]HURWKRXJKZDWHUÀRZ Water is subjected to convection in Ö 1RUPDO KDVVWRSSHG DSLSH =HURDGMXVWPHQWKDVEHHQSHU- Ö 3HUIRUP]HURDGMXVWPHQW IRUPHG DJDLQDIWHUPDNLQJVXUHZDWHU ÀRZKDVVWRSSHGFRPSOHWHO\

:KHQZDWHUÀRZVWRSVSLSHLVQRW Ö 7KHPHDVXUHGYDOXHMXVW ¿OOHGXSZLWKZDWHURUEHFRPHV when ultrasonic wave cannot HPSW\ EHSURSDJDWHGLVKHOG Ö1RUPDO

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INF-TN4FSC-E 157 13. EXTERNAL COMMUNICATION SPECIFICATION

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Item 6SHFL¿FDWLRQ Transmission scheme Half duplex 6\QFKURQL]DWLRQVFKHPH Asynchronous Transmission rate 500kBPS Parity Odd parity Start/stop bit 1 bit Data length 8 bits Station ¿[HG Number of connectable units 1 unit Transmission code Hexadecimal value (MODBUS RTU mode) Error detection CRC-16 Echo back None Flow control Xon/off

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158 INF-TN4FSC-E 14. HOW TO USE PRINTER

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INF-TN4FSC-E 159 ,QVWDOOWKHSULQWHUZLWKVFUHZV

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INF-TN4FSC-E 161 15. REPLACEMENT OF BUILT-IN BATTERY

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INF-TN4FSC-E 163 16. APPENDIX

16.1 Piping data (1) Stainless steel pipe for pipe arrangement (JIS G3459-2012)

Thickness Nominal Outer Schedule Schedule Schedule Schedule Schedule Schedule Schedule diameter diameter 5S 10S 20S 40 80 120 160 mm Thickness Thickness Thickness Thickness Thickness Thickness Thickness A B mm mm mm mm mm mm mm 10 1/8 17.3 1.2 1.65 2.0 2.3 3.2 – – 15 1/2 21.7 1.65 2.1 2.5 2.8 3.7 – 4.7 20 3/4 27.2 1.65 2.1 2.5 2.9 3.9 – 5.5 25 1 34.0 1.65 2.8 3.0 3.4 4.5 – 6.4 32 1 1/4 42.7 1.65 2.8 3.0 3.6 4.9 – 6.4 40 1 1/2 48.6 1.65 2.8 3.0 3.7 5.1 – 7.1 50 2 60.5 1.65 2.8 3.5 3.9 5.5 – 8.7 65 2 1/2 76.3 2.1 3.0 3.5 5.2 7.0 – 9.5 80 3 89.1 2.1 3.0 4.0 5.5 7.6 – 11.1 90 3 1/2 101.6 2.1 3.0 4.0 5.7 8.1 – 12.7 100 4 114.3 2.1 3.0 4.0 6.0 8.6 11.1 13.5 125 5 139.8 2.8 3.4 5.0 6.6 9.5 12.7 15.9 150 6 165.2 2.8 3.4 5.0 7.1 11.0 14.3 18.2 200 8 216.3 2.8 4.0 6.5 8.2 12.7 18.2 23.0 250 10 267.4 3.4 4.0 6.5 9.3 15.1 21.4 28.6 300 12 318.5 4.0 4.5 6.5 10.3 17.4 25.4 33.3 350 14 355.6 – – – 11.1 19.0 27.8 35.7 400 16 406.4 – – – 12.7 21.4 30.9 40.5 450 18 457.2 – – – 14.3 23.8 34.9 45.2 500 20 508.0 – – – 15.1 26.2 38.1 50.0 550 22 558.8 – – – 15.9 28.6 41.3 54.0 600 24 609.6 – – – 17.5 31.0 46.0 59.5 650 26 660.4 – – – 18.9 34.0 49.1 64.2

(2) Polyethylene pipe for city water (JIS K6762-2010) Nominal Outer 1st type (Soft pipe) 2nd type (Hard pipe) diameter diameter Thickness Weight Thickness Weight (mm) (mm) (mm) (kg/m) (mm) (kg/m) 13 21.5 3.5 0.184 2.5 0.143 20 27.0 4.0 0.269 3.0 0.217 25 34.0 5.0 0.423 3.5 0.322 30 42.0 5.6 0.595 4.0 0.458 40 48.0 6.5 0.788 4.5 0.590 50 60.0 8.0 1.216 5.0 0.829

*DOYDQL]HGVWHHOSLSHIRUFLW\ZDWHU6*3: -,6* How to call pipe Outer diameter Thickness (A) (B) (mm) (mm) 15 1/2 21.7 2.8 20 3/4 27.2 2.8 25 1 34.0 3.2 32 1 1/4 42.7 3.5 40 1 1/2 48.6 3.5 50 2 60.5 3.8 65 2 1/2 76.3 4.2 80 3 89.1 4.2 90 3 1/2 101.6 4.2 100 4 114.3 4.5 125 5 139.8 4.5 150 6 165.2 5.0 200 8 216.3 5.8 250 10 267.4 6.6 300 12 318.5 6.9 350 14 355.6 7.9 400 16 406.4 7.9 450 18 457.2 7.9 500 20 508.0 7.9

164 INF-TN4FSC-E (4) Polyethlene pipe for general use (JIS K6761-1998) (5) PVC pipe for water (JIS K6742-2007) VP: PVC pipe 1st type 2nd type Outer HIVP: anti-shock PVC pipe etc. Nominal (Soft pipe) (Hard pipe) diameter diameter Thickness Thickness Nominal Outer Pipe (mm) (mm) (mm) diameter diameter thickness 13 21.5 2.7 2.4 13 18.0 2.5 20 27.0 3.0 2.4 20 26.0 3.0 25 34.0 3.0 2.6 25 32.0 3.5 30 42.0 3.5 2.8 30 38.0 3.5 40 48.0 3.5 3.0 40 48.0 4.0 50 60.0 4.0 3.5 50 60.0 4.5 65 76.0 5.0 4.0 75 89.0 5.9 75 89.0 5.5 5.0 100 114.0 7.1 100 114 6.0 5.5 125 140.0 7.5 125 140 6.5 6.5 150 165.0 9.6 150 165 7.0 7.0 200 216 - 8.0 250 267 - 9.0 (7) Vertical type cast iron pipe (JIS G5521) 300 318 - 10.0 Pipe thickness Actual Nominal T outer diameter Normal Low diameter +LYLQ\OFKORULGHSLSH FRQGXLWVL]H D pressure pressure D1 pipe pipe Nominal Outer Pipe 75 9.0 - 93.0 diameter of diameter thickness pipe 100 9.0 - 118.0 150 9.5 9.0 169.0 ND32 32 1.6 200 10.0 9.4 220.0 ND40 40 1.9 250 10.8 9.8 271.6 ND50 50 2.4 300 11.4 10.2 322.8 ND63 63 3.0 350 12.0 10.6 374.0 ND75 75 3.6 400 12.8 11.0 425.6 ND90 90 4.3 450 13.4 11.5 476.8 ND110 110 4.7 500 14.0 12.0 528.0 ND125 125 4.8 600 15.4 13.0 630.8 ND140 140 5.4 700 16.5 13.8 733.0 ND160 160 6.2 800 18.0 14.8 836.0 900 19.5 15.5 939.0 1000 22.0 - 1041.0 1100 23.5 - 1144.0 (8) PVC pipe PVC-U (JIS K6741-2007) 1200 25.0 - 1246.0 1350 27.5 - 1400.0 VP VU 1500 30.0 - 1554.0 Type Outer Outer Thickness Thickness (9) Carbon steel pipe for pipe arrangement SGP Nominal diameter diameter (mm) (JIS G3452-2010) 13 18 2.2 – – How to call pipe Outer Thickness 16 22 2.7 – – diameter (A) (B) (mm) 20 26 2.7 – – (mm) 25 32 3.1 – – 15 1/2 21.7 2.8 30 38 3.1 – – 20 3/4 27.2 2.8 40 48 3.6 48 1.8 25 1 34.0 3.2 50 60 4.1 60 1.8 32 1 1/4 42.7 3.5 65 76 4.1 76 2.2 40 1 1/2 48.6 3.5 75 89 5.5 89 2.7 50 2 60.5 3.8 100 114 6.6 114 3.1 65 2 1/2 76.3 4.2 125 140 7.0 140 4.1 80 3 89.1 4.2 150 165 8.9 165 5.1 90 3 1/2 101.6 4.2 200 216 10.3 216 6.5 100 4 114.3 4.5 250 267 12.7 267 7.8 125 5 139.8 4.5 300 318 15.1 318 9.2 150 6 165.2 5.0 350 – – 370 10.5 175 7 190.7 5.3 400 – – 420 11.8 200 8 216.3 5.8 450 – – 470 13.2 225 9 241.8 6.2 500 – – 520 14.6 250 10 267.4 6.6 600 – – 630 17.8 300 12 318.5 6.9 700 – – 732 21.0 350 14 355.6 7.9 400 16 406.4 7.9 450 18 457.2 7.9 500 20 508.0 7.9

INF-TN4FSC-E 165 (10) Steel pipe coated for city water STW (JIS G3443-1:2007) Symbol for type STW 400 Nominal Outer STW 290 STW 370 Nominal thickness diameter diameter (A) (mm) A B Thickness Thickness Thickness Thickness (mm) (mm) (mm) (mm) 80 89.1 4.2 4.5 – – 100 114.3 4.5 4.9 – – 125 139.8 4.5 5.1 – – 150 165.2 5.0 5.5 – – 200 216.3 5.8 6.4 – – 250 267.4 6.6 6.4 – – 300 318.5 6.9 6.4 – – 350 355.6 – – 6.0 – 400 406.4 – – 6.0 – 450 457.2 – – 6.0 – 500 508.0 – – 6.0 – 600 609.6 – – 6.0 – 700 711.2 – – 7.0 6.0 800 812.8 – – 8.0 7.0 900 914.4 – – 8.0 7.0 1000 1016.0 – – 9.0 8.0 1100 1117.6 – – 10.0 8.0 1200 1219.2 – – 11.0 9.0 1350 1371.6 – – 12.0 10.0 1500 1524.0 – – 14.0 11.0 1600 1625.6 – – 15.0 12.0 1650 1676.4 – – 15.0 12.0 1800 1828.8 – – 16.0 13.0 1900 1930.4 – – 17.0 14.0 2000 2032.0 – – 18.0 15.0 2100 2133.6 – – 19.0 16.0 2200 2235.2 – – 20.0 16.0 2300 2336.8 – – 21.0 17.0 2400 2438.4 – – 22.0 18.0 2500 2540.0 – – 23.0 18.0 2600 2641.6 – – 24.0 19.0 2700 2743.2 – – 25.0 20.0 2800 2844.8 – – 26.0 21.0 2900 2946.4 – – 27.0 21.0 3000 3048.0 – – 29.0 22.0

(11) Centrifugal nodular graphite cast iron pipe for city water (12) Centrifugal nodular graphite cast iron pipe for city water (A type) (JWWA G-105 1971) (K type) (JWWA G-105 1971)

Actual Actual Nominal Nominal Pipe thickness outer Pipe thickness outer diameter diameter diameter diameter T 1st type 2nd type 3rd type D D1 D 1st type 2nd type 3rd type D1 pipe pipe pipe pipe pipe pipe 400 8.5 7.5 7.0 425.6 75 7.5 – 6.0 93.0 450 9.0 8.0 7.5 476.8 100 7.5 – 6.0 118.0 500 9.5 8.5 8.0 528.0 150 7.5 – 6.0 169.0 600 11.0 10.0 9.0 630.8 200 7.5 – 6.0 220.0 700 12.0 11.0 10.0 733.0 250 7.5 – 6.0 271.6 800 13.5 12.0 11.0 836.0 300 7.5 – 6.5 332.8 900 15.0 13.0 12.0 939.0 350 7.5 – 6.5 374.0 1000 16.5 14.5 13.0 1041.0 400 8.5 7.5 7.0 425.6 1100 18.0 15.5 14.0 1144.0 450 9.0 8.0 7.5 476.8 1200 19.5 17.0 15.0 1246.0 500 9.5 8.5 7.0 528.0 1350 21.5 18.5 16.5 1400.0 1500 23.5 20.5 18.0 1554.0

166 INF-TN4FSC-E (13) Arc welded large-diameter stainless steel pipe for pipe arrangement SUS (JIS G3468-2011) Nominal thickness Nominal diameter Outer Schedule Schedule Schedule Schedule diameter 5S 10S 20S 40S (mm) Thickness Thickness Thickness Thickness A B mm mm mm mm 150 6 165.2 2.8 3.4 5.0 7.1 200 8 216.3 2.8 4.0 6.5 8.2 250 10 267.4 3.4 4.0 6.5 9.3 300 12 318.5 4.0 4.5 6.5 10.3 350 14 355.6 4.0 5.0 8.0 11.1 400 16 406.4 4.5 5.0 8.0 12.7 450 18 457.2 4.5 5.0 8.0 14.3 500 20 508.0 5.0 5.5 9.5 15.1 550 22 558.8 5.0 5.5 9.5 15.9 600 24 609.6 5.5 6.5 9.5 17.5 650 26 660.4 5.5 8.0 12.7 – 700 28 711.2 5.5 8.0 12.7 – 750 30 762.0 6.5 8.0 12.7 – 800 32 812.8 – 8.0 12.7 – 850 34 863.6 – 8.0 12.7 – 900 36 914.4 – 8.0 12.7 – 1000 40 1016.0 – 9.5 14.3 –

(14) Ductile iron specials (JIS G5527-1998) (15) Dimensions of centrifugal sand mold cast iron pipe (JIS G5522) For reference, following items are discon Nominal diameter Pipe thickness tinued. (mm) (mm) Pipe thickness (T) Actual 75 8.5 Nominal High Normal Low outer 100 8.5 diameter pressure pressure pressure diameter 150 9.0 D 200 11.0 pipe pipe pipe D1 250 12.0 75 9.0 7.5 – 93.0 300 12.5 100 9.0 7.5 – 118.0 350 13.0 125 9.0 7.8 – 143.0 400 14.0 150 9.5 8.0 7.5 169.0 450 14.5 200 10.0 8.8 8.0 220.0 500 15.0 250 10.8 9.5 8.4 271.6 600 16.0 300 11.4 10.0 9.0 322.8 700 17.0 350 12.0 10.8 9.4 374.0 800 18.0 400 12.8 11.5 10.0 425.6 900 19.0 450 13.4 12.0 10.4 476.8 1000 20.0 500 14.0 12.8 11.0 528.0 1100 21.0 600 – 14.2 11.8 630.8 1200 22.0 700 – 15.5 12.8 733.0 1350 24.0 800 – 16.8 13.8 836.0 1500 26.0 900 – 18.2 14.8 939.0 1600 27.5 1650 28.0 1800 30.0 2000 32.0 (16) Dimensions of centrifugal sand mold cast iron pipe 2100 33.0 (JIS G5523 1977) For reference, following items are 2200 34.0 discontinued. 2400 36.0 Pipe thickness (T) Nominal High Normal Actual outer diameter pressure pressure diameter D1 (mm) pipe pipe 75 9.0 7.5 93.0 100 9.0 7.5 118.0 125 9.0 7.8 143.0 150 9.5 8.0 169.0 200 10.0 8.8 220.0 250 10.8 9.5 271.6 300 11.4 10.0 322.8

INF-TN4FSC-E 167 (19) Cast iron pipe for waste water(JIS G5525-1975) Mechanical type Insertion type 1st type pipe 2nd type pipe RJ pipe Nominal Straight/deformed diameter Straight pipe Deformed pipe Straight pipe Deformed pipe pipe Outer Pipe Outer Pipe Outer Pipe Outer Pipe Outer Pipe diameter thickness diameter thickness diameter thickness diameter thickness diameter thickness 50 58 4 60 5 －－58 4 －－ 75 83 4 85 5 83 4 83 4 89 4.5 100 108 4 110 5 108 4 108 4 114 4.5 125 134 4.5 136 5.5 134 4.5 134 4.5 140 4.5 150 159 4.5 161 5.5 －－－－－－ 200 211 5.5 213 6.5 －－－－－－

(18) Arc welded carbon steel pipe STPY 400 (JIS G3457:2012) (Unit mass: kg/m) Nominal Thickness diameter (mm) Outer 6.0 6.4 7.1 7.9 8.7 9.5 10.3 11.1 11.9 12.7 13.1 15.1 15.9 (A) (B) diameter (mm) 350 14 355.6 51.7 55.1 61.067.7 400 16 406.4 59.2 63.1 69.977.6 450 18 457.2 66.8 71.1 78.887.5 500 20 508.0 74.3 79.2 87.797.4 107 117 550 22 558.8 81.8 87.2 96.6 107 118 129 139 150 160 171 600 24 609.6 89.3 95.2 105 117 129 141 152 164 175 187 650 26 660.4 96.8 103 114 127 140 152 165 178 190 203 700 28 711.2 104 111 123 137 151 164 178 192 205 219 750 30 762.0 119 132 147 162 176 191 206 220 235 800 32 812.8 127 141 157 173 188 204 219 235 251 258 297 312 850 34 863.6 167 183 200 217 233 250 266 275 316 332 900 36 914.4 177 194 212 230 247 265 282 291 335 352 1000 40 1016.0 196 216 236 255 275 295 314 324 373 392 1100 44 1117.6 260 281 303 324 346 357411 432 1200 48 1219.2 283 307 331 354 378 390448 472 1350 54 1371.6 399 426 439505 532 1500 60 1524.0 444 473 488562 591 1600 64 1625.6 521 600 631 1800 72 1828.8 587 675 711 2000 80 2032.0 751 791

(19) Stainless steel sanitary pipe SUS (JIS G3447:2009) Outer Internal Thickness diameter diameter (mm) (mm) (mm) 25.4 1.2 23.0 31.8 1.2 29.4 38.1 1.2 35.7 50.8 1.5 47.8 63.5 2.0 59.5 76.3 2.0 72.3 89.1 2.0 85.1 101.6 2.0 97.6 114.3 3.0 108.3 139.8 3.0 133.8 165.2 3.0 159.2

168 INF-TN4FSC-E (20) PVDF-HP (21) Heat-resistant hard vinyl chloride pipe PVC-C (JIS K6776:2007) SDR33 SDR21 SDR17 Outer S16 PN10 S10 PN16 S8 PN20 Nominal Thickness Weight Outer diameter Thickness Thickness Thickness diameter (mm) (kg/m) diameter (mm) (mm) (mm) (mm) (mm) 13 18.0 2.5 0.180 16 1.5 1.5 16 22.0 3.0 0.265 20 1.9 1.9 20 26.0 3.0 0.321 25 1.9 1.9 25 32.0 3.5 0.464 32 2.4 2.4 30 38.0 3.5 0.561 40 2.4 2.4 40 48.0 4.0 0.818 50 3.0 3.0 50 60.0 4.5 1.161 63 2.5 3.0 75 2.5 3.6 90 2.8 4.3 110 3.4 5.3 125 3.9 6.0 140 4.3 6.7 160 4.9 7.7 180 5.5 8.6 200 6.2 9.6 225 6.9 10.8 250 7.7 11.9 280 8.6 13.4 315 9.7 15.0 355 10.8 400 12.2 450 13.7

(22) Polyethylene pipe for city water service (Japan Polyethylene Pipes Association for Water Service standard PTC K 03:2006)

Outer diameter Thickness Inner diameter Weight Nominal diameter (mm) (mm) (mm) (kg/m) 50 63.0 5.8 50.7 1.074 75 90.0 8.2 72.6 2.174 100 125.0 11.4 100.8 4.196 150 180.0 16.4 145.3 8.671 200 250.0 22.7 201.9 16.688

INF-TN4FSC-E 169 9HORFLW\RIVRXQGVXEMHFWWRFKDQJHWHPSHUDWXUHLQ (24) Velocity of sound and density of various water (0 to 100°C) liquids

T°C Vm/s T°C Vm/s T°C Vm/s T°C Vm/s Name of liquid T°C ȡg/cm3 Vm/s 0 1402.74 Acetone 20 0.7905 1190 1 1407.71 26 1499.64 51 1543.93 76 1555.40 Aniline 20 1.0216 1659 2 1412.57 27 1502.20 52 1544.95 77 1555.31 Alcohol 20 0.7893 1168 3 1417.32 28 1504.68 53 1545.92 78 1555.18 Ether 20 0.7135 1006 4 1421.96 29 1507.10 54 1546.83 79 1555.02 Ethylene glycol 20 1.1131 1666 5 1426.50 30 1509.44 55 1547.70 80 1554.81 n-octane 20 0.7021 1192 6 1430.92 31 1511.71 56 1548.51 81 1554.57 o-xylene 20 0.871 1360 7 1435.24 32 1513.91 57 1549.28 82 1554.30 Chloroform 20 1.4870 1001 8 1439.46 33 1516.05 58 1550.00 83 1553.98 Chlorobenzene 20 1.1042 1289 9 1443.58 34 1518.12 59 1550.68 84 1553.63 Glycerin 20 1.2613 1923 10 1447.59 35 1520.12 60 1551.30 85 1553.25 Acetic acid 20 1.0495 1159 11 1451.51 36 1522.06. 61 1551.88 86 1552.82 Methyl acetate 20 0.928 1181 12 1455.34 37 1523.93 62 1552.42 87 1552.37 Ethyl acetate 20 0.900 1164 13 1459.07 38 1525.74 63 1552.91 88 1551.88 Cyclohexane 20 0.779 1284 14 1462.70 39 1527.49 64 1553.35 89 1551.35 Dithionic acid 20 1.033 1389 15 1466.25 40 1529.18 65 1553.76 90 1550.79 Heavy water 20 1.1053 1388 16 1469.70 41 1530.80 66 1554.11 91 1550.20 Carbon tetrachloride 20 1.5942 938 17 1473.07 42 1532.37 67 1554.43 92 1549.58 Mercury 20 13.5955 1451 18 1476.35 43 1533.88 68 1554.70 93 1548.92 Nitrobenzene 20 1.207 1473 19 1479.55 44 1535.33 69 1554.93 94 1548.23 Carbon disulfide 20 1.2634 1158 Chloroform 20 2.8904 931 20 1482.66 45 1536.72 70 1555.12 95 1547.50 n-propyl alcohol 20 0.8045 1225 21 1485.69 46 1538.06 71 1555.27 96 1546.75 n-pentane 20 0.6260 1032 22 1488.63 47 1539.34 72 1555.37 97 1545.96 n-hexane 20 0.654 1083 23 1491.50 48 1540.57 73 1555.44 98 1545.14 24 1494.29 49 1541.74 74 1555.47 99 1544.29 Light oil 25 0.81 1324 25 1497.00 50 1542.87 75 1555.45 100 1543.41 Transformer oil 32.5 0.859 1425 Spindle oil 32 0.905 1342 Note) T: temperature, V: velocity of sound Petroleum 34 0.825 1295 Gasoline 34 0.803 1250 Water 13.5 1. 1460 Sea water (salinity: 3.5%) 16 1. 1510

Note) T: temperature, ȡ: density, V: velocity of sound

(25) Velocity of sound per piping material '\QDPLFYLVFRVLW\FRHI¿FLHQWRIYDULRXVOLTXLGV

Material Vm/s Name of liquid T°C ȡg/cm3 Vm/s Ȟ(×10ím2/s) Steel 3000 Acetone 20 0.7905 1190 0.407 Ductile cast iron 3000 Aniline 20 1.0216 1659 1.762 Cast iron 2604 Ether 20 0.7135 1006 0.336 Stainless steel 3141 Ethylene glycol 20 1.1131 1666 21.112 Copper 2260 Chloroform 20 1.4870 1001 0.383 Lead 2170 Glycerin 20 1.2613 1923 1188.5 Aluminum 3080 Acetic acid 20 1.0495 1159 1.162 Brass 2050 Methyl acetate 20 0.928 1181 0.411 Vinylchloride 2307 Ethyl acetate 20 0.900 1164 0.499 Acrylics 2644 Heavy water 20 1.1053 1388 1.129 FRP 2505 Carbon tetrachloride 20 1.5942 938 0.608 6-6 Nylon 2680 Mercury 20 13.5955 1451 0.114 Nitrobenzene 20 1.207 1473 1.665 Mortar 3000 Carbon disulfide 20 1.2634 1158 0.290 Tar epoxy 2505 n-pentane 20 0.6260 1032 0.366 Polyethylene 1900 n-hexane 20 0.654 1083 0.489 Teflon 1240 Rubber 1510 Spindle oil 32 0.905 1324 15.7 Pyrex glass 3280 Gasoline 34 0.803 1250 0.4 to 0.5 Water 13.5 1. 1460 1.004(20°C) Note) V: velocity of sound Note) T: temperature, ȡ: density, V: velocity of sound Ȟ: kinematic viscosity

170 INF-TN4FSC-E &RPPDQGWUHH Start screen Language selection Japanese English German French Spanish Chinese

Measurement screen (numeric value) Quick logger 1st line Measurement kind Unit of flow rate Changing decimal position Total reset Total start/ stop 2nd line Same as above 3rd line Same as above Status display

Measurement screen (graph) Quick logger Measurement kind Scale Status display Site Setup Site memory Selection Registration Delete Process setting Outer Diameter Pipe material Pipe thickness Lining Material Lining Thickness Kind Of Fluid Viscosity Sensor mount Sensor type Transmission voltage

Zero adjustment Unit of output Flow unit Total unit Temperature Thermal flow unit Total unit (THERMAL) Output control Damping Calibration zero Calibration span Cut off Totalize Mode Setting Data logger Logger data Mode Graph disp. Printing Select Logger data Logging Name Kind Mode Continuous SET time

INF-TN4FSC-E 171 Range Input range CH1 Base scale Full scale CH2 Base scale Full scale Output range Range Kind RANGE TYPE Full scale Output limit low Output limit high Error

System setup Basic Settup Clock System unit LCD power off Definition of PRINT key Measurement method Memory initialize LCD contrast Analog input/output Setting Analog input/output Input CH1 difinition Input CH2 difinition Input calibration Input CH1 Input CH2 Output calibration Energy mode MODE Operation Flux measurement Feeding temperature Returning temperature

Maintenance Transit time Received Signal Measurement data Check Analog input Analog output SD memory card Check Logger data Print screen Flow profile LCD check Software Version Update

Printer Print of text Print of graph List print-out Status display

Flow velocity distribution Flow velocity distribution Measurement data Detailed Setting

172 INF-TN4FSC-E 6SHFL¿FDWLRQV Measuring objects Flow transmitter (Type: FSC) Measurement fl uid: Power supply: Built-in battery or AC power adapter Uniform liquid in which ultrasonic Built-in battery: Exclusive lithium button battery waves can propagate. (5000m Ah) Turbidity of fl uid: 10000 mg/L or less Continuous operation time, approx. 12 State of fl uid: Well-developed turbulent or laminar hours (without printer, back light OFF, fl ow in a fi lled pipe. output current not used and at normal Fluid temperature: −40 to +200°C ambient temperature (20°C)) Measuring range: 0···±0.3 to ±32m/s Recharging time, approx. 3 hours (power adapter used) Piping conditions Recharging temperature range: 0 to +40°C Applicable piping material: Power consumption: Min. 3W and Max. Select from carbon steel, stainless 16W steel, cast iron, PVC, FRP, copper, The consumption varies depending on aluminum, acrylic or material of known the use conditions. sound velocity. Power adapter: Exclusive power adapter 100V to 240V Pipe size: Flow rate measurement +10%/−15% AC (50/60Hz), 70VA or ø13 to ø6000mm less. Flow velocity profi le measurement LCD: Color graphic display (TFT LCD monitor) ø40 to ø1000mm 240 × 320 (with back light) Lining material: Select from no lining, tar epoxy, mortar, Measurement value (instantaneous fl ow rubber, Tefl on, pyrex glass or material rate, integrated fl ow rate) and various of known sound velocity. settings are displayed. Note) No gap allowed between the lin- Excellent visibility even outdoors in ing and the pipe. direct sunlight. Straight pipe length: LED display: Status display when using AC power 10D or more upstream and 5D or more adapter. downstream (D: internal pipe diameter) DC IN (green): Power supply status Refer to Japan Electric Measuring In- CHARGE (red): Battery charging under- struments Manufactures’ Association’s way standard JEMIS-032 for details. Operation keypad: 11 buttons Performance specifi cations (ON, OFF, ENT, ESC, MENU, U, V, Y, Accuracy rating: Z, LIGHT, PRINT) Pipe inner Flow velocity Accuracy Power failure backup: diameter range Measurement value is backed up by ø13 to ø50mm 2 to 32m/s ±1.5% to 2.5% of rate nonvolatile memory. 0 to 2m/s ±0.03m/s Clock backup with lithium battery (ef- ø50 to ø300mm 2 to 32m/s ±1.0% to 1.5% of rate fective term, 10 years or more) 0 to 2m/s ±0.02 to 0.03m/s Response time: 1 second ø300 to ø6000mm 1 to 32m/s ±1.0% to 1.5% of rate Analog output signals: 0 to 1m/s ±0.01 to 0.02m/s 4 to 20mA DC, one point (load resis- Note1) Reference conditions are based on JEMIS-032. tance, 600 or less) Note2) Refer to the 4 pages for the accuracy according to kind of Instantaneous velocity, instantaneous detector. fl ow rate or heat quantity (calorie) after scaling. Analog input signal: 4 to 20mA DC, one point (input resistance, 200 or less) Total 4 to 20mA DC, one point (in- 2 points put resistance, 200 or less) or 1 to 5V DC, one point Used to input temperature for heat quantity measurement, etc.

INF-TN4FSC-E 173 SD memory card: Used for data logger function and Functions recording screen data. Available up to 8GB (Option256MB) Display language: Selectable from Japanese, English, Compliant media German, French, Spanish or Chinese sSD memory card: speed class 2, 4, 6 (switchable by key operation). sSDHC memory card: speed class 4, 6 Clock display function: Format Time (year, month, day, hour, minute) s&!4-"TO'" display (confi gurable) s&!4'" '" Monthly error: about 1 minutes at nor- Otherwise, reading and saving are mal temperature (20°C). impossible. Instantaneous value display function: File format Instantaneous velocity, instantaneous s$ATELOGGER#36FILE fl ow rate display (The fl ow in reverse s3CREENDATE"ITMAPFILE direction is displayed with minus “−.”) The SDXC memory card is not support- Numeric value: 10 digits (decimal point ed. equals 1 digit) Serial communication: Unit: Metric/English system selectable USB port (device* compatible): Metric system Mini B receptacle, USB 2.0 Velocity: m/s Connectable number of Mini B recep- Flow rate: L/s, L/min, L/h, L/d, kL/d, tacles: ML/d, m3/s, m3/min, m3/h, 1 unit m3/d, km3/d, Mm3/d, BBL/s, Transmission distance: 3m max. BBL/min, BBL/h, BBL/d, Transmission speed: 500kbps kBBL/d, MBBL/d Data: English system Instantaneous velocity, instanta- Velocity: ft/s neous flow rate, total value, heat Flow rate: gal/s, gal/min, gal/h, gal/d, quantity (calorie) value, error infor- kgal/d, Mgal/d, ft3/s, ft3/min, mation, logger data, etc. ft3/h, ft3/d, kft3/d, Mft3/d, * Device: Connected plug from PC BBL/s, BBL/min, BBL/h, Printer (option): To be mounted on top of transmitter BBL/d, kBBL/d, MBBL/d unit Total value display function: Thermal line dot printing Display of forward or reverse total Note) When the Chinese display is selected, (reverse is displayed as minus) printing is made in kanji characters. Numeric value: 10 digits (decimal point Ambient temperature: is corresponding to 1 digit) −10 to +55°C (Without printer) Unit: Metric/English system selectable −10 to +45°C (With printer) Metric system Ambient humidity: 90%RH or less Flow rate total: mL, L, m3, km3, Mm3, Type of enclosure: IP64 (Without printer) mBBL, BBL, kBBL Enclosure case: Plastic case English system Outer dimensions: H210 × W120 × D65mm (Without printer) Flow rate total: gal, kgal, ft3, kft3, Mft3, H320 × W120 × D65mm (With printer) mBBL, BBL, kBBL, ACRE-ft Weight: 1.0kg (Without printer) Consumed heat quantity (calorie) display function: 1.2kg (With printer) Display of consumed heating medium Metric system Heat fl ow: MJ/h, GJ/h Total heat quantity: MJ, GJ English system Heat fl ow: MJ/h, GJ/h, BTU/h, kBTU/h, MBTU/h, kW, MW Total heat quantity: MJ, GJ, BTU, kBTU, MBTU, kWh, MWh J : Joule BTU : British thermal unit W : Watt

174 INF-TN4FSC-E Computation function of consumed heat quantity (calorie): Flow velocity proﬁ le measurement (option): This function calculates the heat Flow velocity proﬁ le may be observed quantity received and sent with liquid in real time using the exclusive detec- (water) in cooling and heating. tor (option). (Refer to page 5 for details.)

Consumed heat quantity Detector (Type: FSS) Converter q = K · Q · (T1–T2) K : heat quantity (calorie) conversion factor Type of detector: (For heating K = 4.123, Temperature Classiﬁ cation Type Internal pipe Fluid Frequency For cooling = 4.186) sensor diameter (mm) temperature (MHz) Middle diameter FSSC ø50 to ø1200 (*1) -40 to 120°C 1 T1: Fluid temperature Small diameter FSSD ø13 to ø300 -40 to 100°C 2 (inlet) Large diameter FSSE ø200 to ø6000 -40 to 80°C 0.5 exchanger High temperature FSSH ø50 to ø400 -40 to 200°C 2 source Heat Heat *1) For pipes with a diameter of 300 mm or larger, we recommend to use FSSE Converter and mount it by Z method.

Detector Temperature Mounting method: Mounting on outside of pipe (type : FSS) sensor Sensor mounting method: V or Z method T2: Fluid temperature (outlet) Q: Flow rate of the fluid Signal cable: Exclusive coaxial cable, 5m (Included with FSC) Temperature display function: Fluid temperature be displayed by cur- Connection method: rent input from temperature transmit- Transmitter side: Exclusive connector ter. Detector side (FSSE): Screw terminal Metric system Others: BNC connector Temperature unit: °C or K Ambient temperature: English system –20 to +60°C Temperature unit: F or K Ambient humidity: Site data storage function: FSSE 100%RH or less Max. 32 locations (sites) data (pipe Other 90%RH or less size, material, fl uid type and etc) can be Type of enclosure: stored into built-in non-volantile memo- FSSC IP65 ry. (When waterproof BNC con- Damping: 0 to 100sec (every 0.1sec) confi gurable nector is provided) for analog output and velocity/flow rate FSSE IP67 display Others IP52 Low fl ow cut: Equivalent to 0 to 5m/s Water-proof treatment type IP68 Output setting function: (Submerged resistant struc- Current output scaling, output type, ture for 5 days) burnout setting and calibration Material of detector: Serial communication function: Classifi cation Type Sensor Rail material case Instantaneous velocity, instantaneous Small diameter FSSD Plastic Aluminum alloy + Plastic fl ow rate, total value, heat fl ow, error information, received waveform, analog Middle diameter FSSC Plastic Aluminum alloy + Plastic input, velocity profile data, logger data, Large diameter FSSE Plastic ——— etc. may be downloaded to personal High temperature FSSH SUS304 Aluminum alloy computer. Material of mounting belt/wire: Logger function: Instantaneous velocity, instantaneous Detector type Dimensions Material fl ow rate, total value, heat fl ow, error 6th digit information, received waveform, analog A 1.5mX2 SUS304 input, velocity profi le date can be saved B 3.0mX1 Plastic cloth belt in a SD memory card. C 1.0mX4 SUS304 Waveform display function: D Inner pipe diam.<ø1500mm SUS304 Bi-directional received waveforms may E Inner pipe diam.<ø6000mm SUS304 be displayed. Graph display function: Extension cable(option): Flow rate trend graph may be dis- Extended when the length of the de- played. tector signal cable is not suffi cient. Printing function (option): Length: 10m, 50m Hard copy output of a screen Periodic printing (type: text, graph) Logger date (type: text, graph)

INF-TN4FSC-E 175 EU Directive Compliance FLOW VELOCITY PROFILE DISPLAY FUNCTION EMC (2014/30/EU) EN 61326-1 (Table 2) (OPTION) EN 55011 (Group 1 Class A) Pulse Doppler method enables the analysis and display of EN 61000-3-2 (Class A) the fl ow velocity profi le in real time. The results can be used EN 61000-3-3 to decide the appropriate measurement location, for fl ow EN 61326-2-3 diagnosis, and laboratory test. RoHS (2011/65/EU) EN 50581 SPECIFICATIONS Measuring fl uid: Uniform liquid in which ultrasonic waves can propagate. Turbidity of fl uid: Axisymmetric fl ow in a fi lled pipe. Fluid temperature: −40 to +100°C (FSDP2) −40 to +80°C (FSDP1,FSDP0) Air bubble quantity: 0.02 to 15vol% (Velocity is 1m/s) Pipe size: Small type sensor : ø40 to ø200mm Middle type sensor :ø100 to ø400mm Large type sensor :ø200 to ø1000mm Measurement range: 0 to ±0.3 … ±Maximum Velocity (depending on the pipe diameter) Refer to chart, page 145. Note) This function is to observe fl ow velocity profi le, and it may be different from actual fl ow rate.

DETECTOR FOR FLOW VELOCITY PROFILE MEASUREMENT (TYPE: FSDP) Mounting method: on outside of existing pipe Ambient temperature: −20 to +80°C Ambient humidity: 100% RH or less Enclosure: IP67 (waterproof BNC connector required.) Material: Sensor housing: PBT Guide frame: Aluminum alloy Mounting belt: Plastic cloth or stainless

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Lower

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(1) Piping size :KHQWKHYDOXHVHWIRUSLSLQJVL]HLVGLIIHUHQWIURPWKHDFWXDOVL]HRISLSLQJDQGLIWKH GLIIHUHQFHIURPWKHLQVLGHGLDPHWHULVDERXWLQVL]HWKHHUURULVDERXWRIGHYLDWLRQ REWDLQHGE\ÀRZFRQYHUVLRQ 7KHIROORZLQJVKRZVDQH[DPSOHRIPPGHYLDWLRQLQLQVLGHGLDPHWHU [%] 6 Flow error +1mm 0 í í íPP í 100 300 500 mmI

Inside diameter

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5 Typical characteristics (Piping: SUS, 150A, FS: 1.3m/s) 3 Flow error 1 % of rate 0 í í í í í 10 30 50 70 Water temperature (°C) * Example of measurement :HDNUHFHLYHGZDYHGXHWRLPSURSHUPRXQWLQJFRQGLWLRQDQGSLSLQJFRQGLWLRQ 0HDVXUHPHQWPD\EHSRVVLEOH%XWLIUHFHLYHGZDYHLVZHDNLWPD\UHVXOWLQDODUJHHUURU GXHWRWKHHIIHFWRIH[WHUQDOQRLVH

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Table 16-1 Data types Maximum number Number of places Kind Name Sign of places of integer Unit of decimal section VELOCITY VELOCITY Yes 3 places 3 places m/s FLOW RATE FLOW RATE Yes 12 places 4 places Flow unit FLOW RATE (%) FLOW RATE (%) Yes 3 places 3 places % +TOTALIZER +TOTALIZER No 10 places 3 places Total unit í727$/,=(5 í727$/,=(5 No 10 places 3 places Total unit AI CHANNEL 1 AI CHANNEL 1 Yes 10 places 3 places — AI CHANNEL 2 AI CHANNEL 2 Yes 10 places 3 places — Temperature SUPPLY TEMP. SUPPLY TEMP. Yes 3 places 3 places unit Temperature RETURN TEMP. RETURN TEMP. Yes 3 places 3 places unit TEMP Temperature TEMP DEFFERENCE Yes 3 places 3 places DEFFERENCE unit 7KHUPDOÀRZ THERMAL FLOW THERMAL FLOW Yes 10 places 3 places unit THERMAL FLOW (%) THERMAL FLOW (%) Yes 3 places 3 places % +TOTAL +TOTAL Total unit No 10 places 3 places (THERMAL) (THERMAL) (Thermal) í727$/ í727$/ Total unit No 10 places 3 places (THERMAL) (THERMAL) (Thermal)

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&RQ¿JXUDWLRQGDWD¿OH $¿OHLVURXJKO\FRQ¿JXUHGRIWKUHHVHFWLRQV 6HFWLRQ>67$57@$¿OHLVJHQHUDWHGDWVWDUWDQGWKLVVHFWLRQLVFUHDWHGDWWKDWWLPH Item Contents PRODUCT Product name ("ULTRASONIC FLOWMETER ¿[HG VERSION )LOHIRUPDWYHUVLRQQXPEHU ¿[HG TIME Logger start date and hour CYCLE Logger acquisition period (sec)

6HFWLRQ>'$7$[@$GGHGDWWKHWLPHRIJHQHUDWLRQRIWDUJHWGDWD¿OH Item Contents FILE File name of logger data INDEXx Offset (bytes) to (date and hour) data in the logger data is added sequentially beginning from 1 as indicated below. (offset, total number of data in offset, date/hour of offset) TIME Logger data exit date and hour COUNT 7RWDOQXPEHURIGDWDLQWDUJHWGDWD¿OH STATUS Exit status NORMAL: Normal exit caused by termination of acquisition period STOP: Normal exit caused by stop operation during acquisition POWER OFF: Interruption caused by OFF button during acquisition BATTERY LOW: Interruption caused by battery capacity drop during acquisition FIFO EMPTY: No vacancy in measurement FIFO ABNORMAL: Stop caused by system error during acquisition SIZE %\WHVL]HRIWDUJHWGDWD¿OH SUM 7RWDOQXPEHURIGDWDXSWRWDUJHWGDWD¿OH

6HFWLRQ>(1'@$GGHGDWWKHWLPHRIWHUPLQDWLRQRIWKHORJJHU Item Contents PRODUCT Logger exit date and hour VERSION 7RWDOE\WHVL]HRIDOOGDWD¿OHV TIME 1XPEHURIDOOGDWD¿OHV CYCLE Total number of data

[START] PRODUCT=ULTRASONIC FLOWMETER VERSION=V1.0.0 TIME=2007/01/01 00:00:00 CYCLE=00:00:01 [DATA1] FILE=AAA_20071214_193032.csv INDEX1=490047,5000,2007/12/14 20:53:51 INDEX2=980047,10000,2007/12/14 22:17:11 INDEX3=1470047,15000,2007/12/14 23:40:31 INDEX4=1960047,20000,2007/12/15 01:03:51 INDEX5=2450047,25000,2007/12/15 02:27:11 INDEX6=2940047,30000,2007/12/15 03:50:31 INDEX7=3430047,35000,2007/12/15 05:13:51 INDEX8=3920047,40000,2007/12/15 06:37:11 INDEX9=4410047,45000,2007/12/15 08:00:31 INDEX10=4900047,50000,2007/12/15 09:23:51 INDEX11=5390047,55000,2007/12/15 10:47:11 INDEX12=5880047,60000,2007/12/15 12:10:31 INDEX13=6370047,65000,2007/12/15 13:33:51 TIME=2007/12/15 13:42:11 COUNT=65500 STATUS=NORMAL SIZE=6419145 SUM=65500 [END] TIME=2007/12/17 09:52:11 SIZE=6419145 FCOUNT=1 SUM=65500

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Table 16-2 &RQWHQWVRIGDWD¿OH Line Row Contents 1A Line 1 B and subsequent Names of logged types for the quantity, including RAS. ASCII characters show names. See "16.5.1 Types of measured data to be logged". Line 2 B and subsequent Units of logged types for the quantity. ASCII characters show units. Line 3 and A Date and hour subsequent Line 3 and B and subsequent Date/hour name measured data and RAS. subsequent 32-bit binary numbers indicates RAS. See "16.5.4 Regarding RAS".

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VELOCITY FLOW RATE

1.6 123.6

1.4 123.58

1.2 123.56

1 123.54

0.8 123.52

0.6 123.5

0.4 123.48

0.2 123.46

0 123.44 2009/9/30 2009/9/30 2009/9/30 2009/9/30 2009/9/30 2009/9/30 2009/9/30 10:33:36 11:02:24 11:31:12 12:00:00 12:28:48 12:57:36 13:26:24

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Table 16-3 &RQWHQWVRIÀRZYHORFLW\GLVWULEXWLRQ¿OH Line Row Contents A Describes "". B and subsequent Describes "Channel number". Channel number 126 to 1, 1 to 126 in case of connection of sensor U Line 2 C and subsequent 1 to 126, 126 to 1 in case of connection of sensor D 1 to 126, 126 to 1 to IT row in case of connection of sensor U/D IU Describes "". IV Describes "". B Describes "". Line 3 Describes 1 in start/end channels of channel number in line 2, and C and subsequent describes 0 in others. A Describes "". Line 4 C Describes acquisition date/hour in the "2007/10/29 10:19:44" format. A 'HVFULEHV 9HORFLW\3UR¿OH7KHPHDVXUHPHQWGDWD! C to IU Fluid velocity that corresponds to channel number in line 2. Line 5 and subsequent IU )ORZUDWHÀXLGYHORFLW\DWDFTXLVLWLRQGDWHKRXU 5$6LVLQGLFDWHGE\ELWELQDU\QXPEHUVZLWKDGGHGDW¿UVW IV See "16.5.4 Regarding RAS ". $ÀRZYHORFLW\GLVWULEXWLRQ¿OHFDQEHGLVSOD\HGXVLQJÀRZYHORFLW\GLVWULEXWLRQGHPRQVWUDWH IXQFWLRQRI3&ORDGHUVRIWZDUH

16.5.4 Regarding RAS ([SUHVVHVWKHVWDWXVRIWKHPHDVXUHPHQWVFUHHQE\ELWELQDU\QXPEHUV

Bit3127 23 19 15 11 7 3 0 "0" expresses normal. □□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□□ "1" expresses abnormal.

E1: Device error 1 (error in backup memory) E1: Device error 2 (error in measurement circuit)

E2: Window scanning E2: No received signal E2: Received signal error E2: Calculation error 1 (error in fluid acoustic velocity) E2: Calculation error 2 (receiving signal overflow)

E3: Measuring range error E3: Frequency calculation error E3: Success rate

E4: Range over

E6: Printer fail 6HH&RQWHQWVRIHUURUVLQVWDWXVGLVSOD\IRUHUURUFRQWHQWV

INF-TN4FSC-E 185 www.fujielectric.com

Instrumentation & Sensors Planning Dept. Gate City Ohsaki, East Tower, 11-2, Osaki 1-chome, Shinagawa-ku, Tokyo 141-0032, japan Phone: +81-3-5435-7021 Fax: +81-3-5435-7475 www.fujielectric.com/products/instruments/