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SANKO SWT-7200IV Instruction Manual

Coating thickness meter
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SANKO Coating Thickness Meter
SWT-7200Ⅳ
Instruction Manual
Caution
● Read the manual thoroughly and use the meter correctly.
● Keep the manual with care and refer to it when necessary.
SANKO ELECTRONIC LABORATORY CO., LTD.
Tokyo・Osaka・Sendai・Nagoya・Fukuoka・Kawasaki
August 2023

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  • Page 1 SANKO Coating Thickness Meter SWT-7200Ⅳ Instruction Manual Caution ● Read the manual thoroughly and use the meter correctly. ● Keep the manual with care and refer to it when necessary. SANKO ELECTRONIC LABORATORY CO., LTD. Tokyo・Osaka・Sendai・Nagoya・Fukuoka・Kawasaki August 2023...

  • Page 2: Table Of Contents

    Contents Pages Attention for safety ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 1 Notes ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 3 Get started ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 4 ・ Contents in a package ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 4 ・ Names of part ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 5 ・ Items displayed on LCD ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 7 ・ How to fit batteries ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 9...
  • Page 3 (2) Setting of Low limit value ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 37 (3) Deletion of set High/Low limit values ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 38 Measurements with High/Low limit values ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 39 (1) When measured value within a range of limit value ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 39 (2) When measured value over a High limit value ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 39...
  • Page 4 (3) Transfer of block data ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 78 (4) Transfer of section data ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 81 Note to improve measuring accuracy ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 84 Trouble shooting ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 85 Disclaimer ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 86 Specifications ◆ main unit ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 87 ◆ probe (option) ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 88 References (measurement principles) ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 91...

  • Page 5: Attention For Safety

    Attention for safety (to use safely and correctly) To prevent you and your properties from damaging please take some time to read thoroughly this “Attention for Safety” and use this main unit correctly. And keep these instructions attentive to read when necessary. Warning ●...
  • Page 6 Attention for safety (to use safely and correctly) Warning ! ● Never fail to remove batteries from the main unit when not in use for a long time. Leakages occurred from deterioration of batteries may cause erroneous reactions or damages. Must !...

  • Page 7: Notes

    Attention for safety (to use safely and correctly) Attention ● Do not use Benzene or Thinner for cleaning and spray pesticides on the meter, otherwise it may cause cracks or malfunctions. Prohibition ● Do not store the meter in places getting high in temperatures such as in a car in strong sunlight or near heaters, otherwise it will be hazardous to the meter and may cause malfunctions.

  • Page 8: Get Started

    Get started ◆ Contents in a package Please make sure if the following items sre included. ・ Main unit SWT-7200Ⅳ ・ Dry batteries LR6 (2 pieces) ・ SWT/SAMAC series CD ◆ SWT-7200Ⅳ Instruction Manual (this manual) ◆ USB driver ◆ Instllation of USB transfer driver ・...

  • Page 9: Names Of Part

    ◆ Names of part Probe connector Display Battery lid Keys Battery compartment Hand strap Tilt stand AC adaptor connector USB cable connector ● Probe connector Connect an optional-exclusive SWT probe to the probe connector. (1) To measure a film thickness of coated, plated, lining layer on substrates made of ferrous material please use a probe of 「SFe」...
  • Page 10 (5) 「CAL No.」 key It is a key to select a Calibration curves. (6) 「H/L」 key It is a key to set High/Low limit values. (7) 「STATISTICS」 key It is a key to process statistics of data stored in memory. (8)...

  • Page 11: Items Displayed On Lcd

    ◆ Items displayed on LCD ⑩ ① (Main) ② 「ZERO cal.」 or (AUTO), (Fe), ③ 「Cal. w. foil.」 (NFe) ④ Measured data ⑤ ⑥ Unit 「BAT」 [μm (mm) or mil] Transferring marks Calibration No. ⑦ High, low, setting values ⑧ Memory, selections, operational states ⑨...
  • Page 12 (Sub) When measuring and watching 「Calibration」, 「High/Low limit values」, 「Memory information ofmeasuring data」, it is possible to enlarge these items on display. ② ③ AUTO ⑤ Measured data Unit [μm (mm) or mil] ⑦ Calibration No. Memory, Operation states ⑨ High, low, setting values ⑧...

  • Page 13: How To Fit Batteries

    ◆ How to fit batteries ① Raise the tilt stand. ② Open the battery lid on the rear of the main unit. Press 「▽」 mark on the top of the lid and slide it down. ③ Insert batteries. Ensure correct battery polarity ○ , ○...

  • Page 14: How To Connect, Disconnect Probes

    ◆ How to connect, disconnect probes ◆ Connect an optional, exclusive SWT probe to the main unit Select one of the probes suited for your application. ◇ If the substrates made of ferrous material, please use a probe of 「SFe」 series or a Dual type probe 「SFN-325」.

  • Page 15: How To Hold Probes

    ◆ How to hold probes Cable Pinch and hold this part using fingers (thumb and forefinger) Black resinous ring Tip to press against a measurement object Quickly and calmly press perpendiculary against the object by grabing the probe as illustrated. It beeps and the reading screen shows the measuring result.

  • Page 16: How To Operate

    How to operate (1) How to switch power source Press key. This message lasts for about 3 seconds. START UP PHASE Caution Hold probe Hold the probe in air without operation when in the air. the reading is on display. Or it may indicate Don’t touch it 「ERROR」...

  • Page 17: 3) How To Select 「Cal. No. 」 (Calibration Curve)

    (3) How to select 「Cal. No. 」 (Calibration curve) After switching ON, it is capable of getting started on measurements and adjutments when the reading 「START UP PHASE …」 disapeared. ※ Generally, thickness meters make errors depending on material formation and shapes to be measured. To minimize measurement errors and obtain as accurate resutls, 【Zeroing】...

  • Page 18: 4) Zeroing

    Press CAL No. key. The buzzer beeps. (AUTO) - The flashing of the selected number stops 「Cal. No. 8」 is settled. μm Cal.No. 8 After settling 「Cal. No. X 」, it becomes possible to take measurements and adjustments. (4) Zeroing After switching ON, it is capable of getting started on measurements and adjutments when the reading 「START UP PHASE…」...
  • Page 19 Zeroing is in process. The measuring object is set for ferrous metal substrate. ZERO cal. (Fe) 1 Measured a mean value When the measured value results in largely off μm the “0”, press CAL + ▼ key to Cal.No. 8 delete the latest data out of measured values.

  • Page 20: 5) Calibration Standard (Cal)

    (5) Calibration standard (CAL) ● Prepare the 「Zero Plate」 used for 「Zeroing」. ● Prepare the 「Thickness standard」 that are the same thick as the measuring film or thicker than that. ● Place the 「Thickness standard」 on the 「Zero Plate」. ● Press CAL key. The buzzer beeps.
  • Page 21 After adjusting the reading value to the Thickness standard, press CAL key. The buzzer beeps, 【 cal. w. foil 】 on the upper left disappears and it returns to a measuring mode. (Fe) 100 This is a measusring mode. μm Cal.No....

  • Page 22: 6) Zeroing - In Special Cases

    (6) Zeroing - in special cases - ◎ In case of being painted as shown with multi-layers on the substrate there may be needs to measure thicknesses of each layer. For example, measuring only the thickness of the 4 layer please zero as an assumed 「Zero point」...
  • Page 23 OFFSET. To continue, press ZREO twice. Press ZERO key. The buzzer beeps. Press ZERO key again. The buzzer beeps. 【ZERO Cal.】 1. Measure subst -rate several times. 2. press ZERO key. Press the probe to the Zero plate. The buzzer beeps. Zeroing is in process.
  • Page 24 The buzzer beeps. It stops the “deletion” function of CAL key. The reading 【ZERO cal.】 in the upper left disappears. (Fe) Zeroing completed and the main unit becomes possible 0 to take measuring and adjusting operations. μm Cal.No. 1 Data is stored in 「Cal. No. 1」 and 「F」 is displayed. (refer to page 7) ●...

  • Page 25: 7) 2-Point Calibration In Case It Is Difficult To Perform 「Zeroing

    (7) 2-point calibration in case it is difficult to perform 「Zeroing」 When it is difficult to adjust「Zeroing」in a usual method on a rough surface such as the Blast steel plate, it is effective also to adjust by using 『two pieces of different thickness of the Thicknesses standard』. Caution It is not possible to use both this calibration method and other calibration ones together, or mixing them together.
  • Page 26 After pressing certain times or 20 times, ● Repeat a measuring processes, 1~20 times by pressing press ZERO key. the probe to the thinner 「Thickness standard」. (A mean value is displayed whenever a probe is pressed) The buzzer beeps, beeps 2 times. ◆...
  • Page 27 【2-foil’s cal】 Measure thicker Stack the thicker 「Thickness standard」 on the foil on metal substrate and press the probe on it. several times. Afterward, press ZERO key. The buzzer beeps whenever pressing the probe. Measured a mean value 【 2-f. c. 】 (Fe)...
  • Page 28 Adjust the reading value to the Thickness standard (in this case, 200μm) by pressing ▲ or ▼ key. 【 2-f. c. 】 (Fe) Pressing ▲ key increases the reading value. 200 Pressing ▼ key decreases the reading value. (Press and holding key turns to fast forwarding.) μm Cal.No....

  • Page 29: 8) How To Delete Calibration

    (8) How to delete calibration Take the following procedures to delete calibration when the reading on the screen is locked or after batteries replaced or when it becomes impossible to process 「Zeroing」、「Calibration Standard」(CAL). ※ This operation procedures are taken when SWT-7200Ⅳ is faulty. If “All cal.

  • Page 30: Selective Deletion

    《Selective deletion》 ● Delete adjusted value of calibration data being selected now. Dislay calibration data to be deleted. (refer to page 12) (Fe) 100 μm Cal.No. 3 Hold ZERO key and press ▼ key. The buzzer beeps, beeps 2 times. ERASE?...

  • Page 31: Measuring

    Measuring Hang the meter through a strap over your wrist never to drop it. When pressing the probe against the object with Power ON, the buzzer beeps. The measuring object is set for ferrous metal substrate. (Fe) 125 A measured result is displayed. μm Cal.No....

  • Page 32: Function Setting

    Function setting (1) Setting of Non-Interrupt Measurement mode As illustrated on the right figure, this mode is used when taking non-interrupt measurements for painting surfaces etc. Film thickness values are taken/displayed while press/holding Substrate probe on the object. (Fe) A measured value is held (displayed) when pressing a 125...
  • Page 33 Caution The moving measuring method at “Non-Interrupt Measuring Mode” may damage the measuring surface or the probe tip because of frictions made by sliding the probe on the surface. Please try fewer to take this method to minimize the frictions. 《Returning to the beginning》...

  • Page 34: 2) Setting Of Resolutions

    (2) Setting of resolutions The reading values up to 500μm can be switched in resolutions as below. It is possible to read resolution measurement results by the 0.1μm unit in the thickness of (0~400μm), and by the 0.5μm unit in the thickness of (400~500μm). ●...

  • Page 35: 3) Setting Of Units

    (3) Setting of units This main unit is equipped with a function converting the unit to 「mil」. ● Switch Power to OFF when Power is ON. ● Press and hold key for 10 seconds or over until the buzzer beeps, beeps 2 times. (Fe)...

  • Page 36: 4) Setting Of Auto-Power-Off Function

    (4) Setting of Auto-Power-OFF function When no entry of key operations and measuring procedures for 3 minutes, the main unit switcehes automatically to OFF to save battery. This function can be released by yhe following operations. No entry for 3 minutes lasts, and then the buzzer beeps. POWER The message is displayed for about 5 seconds.
  • Page 37 《To Enable Auto-Power-OFF function》 ● Switch Power to OFF when Power is ON. Hold ▼ key and press key for 5 seconds or over. The buzzer beeps., beeps 2 times. Automatic Switch OFF It indicates 5 seconds. 【ENABLE】 (AUTO) - It returns to a measurable mode.

  • Page 38: 5) Setting Of Corresponding Mode To Substrate With Sfn-325 Probe

    (5) Setting of corresponding mode to substrate with SFN-325 probe When the SFN-325 probe is connected, the main unit automatically select a substrate for measuring objects, but in addition to the Auto-selection mode 『Fe substrate exclusive mode』, 『NFe substrate exclusive mode』 are ready to use.

  • Page 39: 6) Setting Of Backlight

    (6) Setting of Backlight The LCD of this unit has a backlight function. The bcklight can be used at the place which is dark and difficult to read messages on display. 《Lighting the Backlight》 Press and hold ▲ key for 3 seconds or over. The buzzer beeps, beeps 2 times and the backlight goes on.

  • Page 40: 1) Setting Of High Limit Value

    Setting of High/Low limit values To judge quickly if the coated film thickness of a product stays within a range of thicknesses corresponding to management standards and controls, it is necessary to set high/low limits beforehand and if the numerical value on display exceeds the limits, the number flashes and emits a warning sound.

  • Page 41: 2) Setting Of Low Limit Value

    (2) Setting of Low limit value (following a High limit value setting without interruption) (Fe) 125 A Low limit value flashes. μm Cal.No. 1 Lmt. H : 1 5 0 μm L : - - - μm Press ▲ or ▼ key to enter a Low limet value to the flashing colum 「- - -」.

  • Page 42: 3) Deletion Of Set High/Low Limit Values

    (3) Delection of set High/Low limit values. Select a 「Cal. No. 」 (Calibration curve) storing limit values to be deleted. (Fe) 125 μm Cal.No. 8 Lmt. H : 1 5 0 μm L : 1 0 0 μm Hold H/L key and press DATA ERASE key. The buzzer beeps, beeps 2 times.

  • Page 43: Measurements With High/Low Limit Values

    Measurements with High/Low limit values (1) When measured value within a range of limit value (including a setting value) The buzzer beeps and indicates the measured value. (Fe) 137 μm Cal.No. 8 Lmt. H : 1 5 0 μm L : 1 0 0 μm (2)...

  • Page 44: Storing Of Measured Data

    Storing of measured data SWT-7200Ⅳ can store Max. 20,000 data. Places to store are listed as below. Sections: A section stores 10 data. Each 「Data storing position」 within a section has each independent number. Blocks: A block contains 10 「Sections」. Each 「Section」 within a block has each independent number. Groups:...
  • Page 45 The displays of memory position of (Sub-screen) A Group No. is displayed. MEMORY A Block No. is displayed. : : A Section No. is displayed. : Size : The number of data stored in a section is displayed. C.P. : A Data storing position within a section is displayed.

  • Page 46: 1) Select A Data Storing Place

    (1) Select a Data storing place ● For operation example, settings are made as follows: Group No. 「3」, Block No. 「12」, Section No. 「1」, Data storing number per section 「8」. (AUTO) - μm Cal.No. 1 Press MEM.SEL. key. The buzzer beeps. (AUTO) -...
  • Page 47 ※ A Group No. 「3」 is set. Then moving on to setting a Block No. (AUTO) - μm A Block No. flashes. Cal.No. 1 memNo. S: 1 0 : Press ▲ or ▼ key to select a Block No. 「12」. (AUTO) -...
  • Page 48 (AUTO) - μm A Section No. flashes. Cal.No. 1 memNo. S: 1 0 : Press MEM. SEL. key. The buzzer beeps. ※ A Section No. 「1」 is set. Then moving on to setting a Data storing number per section. (AUTO) -...
  • Page 49 ※ A Data storing number 「8」 is set. Lastly, specify a Data storing position within a Section. (AUTO) In this example, start storing from - a Data storing position 「1」 within a Section. μm Cal.No. 1 A Data storing position flashes. memNo.

  • Page 50: 2) Keep Data From Being Stored

    (2) Keep data from being stored ※ It is in a state of 「Storing data」. (AUTO) - μm Cal.No. 1 A state of Non-Flashing of all items. memNo. Press MEM. SEL. key. The buzzer beeps. (AUTO) - μm Cal.No. 1 The screen disappeares and turns to a state of 「Data is not stored」.

  • Page 51: Measurements In Storing Data

    Measurements in storing data ※ Select a place to store data as described in 「(1) Select a Data storing place」 at page 42. ● For operation example, store 8 pcs of measuring data in order from a Data Stroing position 「1」 in a Group No. 「3」, a Block No.
  • Page 52 A measurement is taken. The buzzer beeps. (Fe) The 9 measured result is displayed. 106 The 9 measured data is stored in a Data storing position 「1」 in a Section No. 「2」. μm Cal.No. 1 memNo. A Data storing position returns to 「1」. A Section No.
  • Page 53 ● When the measurement progresses and the data is stored in the last end of a Block No. 「20」, a Section No. 「10」, the buzzer beeps, beeps 2 times and warnig that it advances to 「New Group」 in the following measurement. (Fe)...
  • Page 54 A measurement is taken. The buzzer beeps. ※ This time the mesurering data is not displayed. The buzzer beep, beeps. (Fe) All the memory is filled up. Storing data has been completed. μm Cal.No. 1 ● It is possible to continue measurements , but measuring data only is displayed. A measurement is taken.

  • Page 55: Storing Of Measured Data At Non-Interrupt Measurement Mode

    Storing of measured data at Non-Inturrupt Measurement Mode When this unit is set at 「Storing of measured data」 and mesurements are taken at 「Non-Intrrupt Measurement Mode」, it is capable of storing data on the following procedures. ● Select a place to store data as described in 「(1) Select a Data storing place」 at page 42. ●...

  • Page 56: Three Kinds Of Measuring Methods In Case Of 「No Memory Space

    Three kinds of measuring methods in case of 「No memory space」 (1) Keep on measuring ● Measuring. The buzzer beeps. A measured result is displayed. (Fe) 103 Caution μm Measuring can be continued but Cal.No. 1 data can not be stored. (2)...

  • Page 57: 3) Deletion Of Unnecessary Data

    (3) Deletion of unnecessary data ● Delete an unnecessary data in a storing place and store there new data which is to be taken. ● Delete all of unnecdcesary data afterward, referring to each knid of deletion methods. ● Resume 「Measurements while storing data」 after deleting data. Deletion of data (1)...

  • Page 58: 2) Deletion Of All Data

    (2) Deletion of all data ※ 『all data』 stored are collectively deleted. (Fe) 302 μm Cal.No. 1 Caution This operation can not be activated when data memNo. S: 1 0 : colum of data storing place is not displayed. When it is not displayed, press MEM. SEL. Press MEM.

  • Page 59: 3) Deletion Of Group Data

    (3) Deletion of group data ※ Data stored in arbitrary group with Group No. 1~10 is deleted. ● For operation example, data stored in a Group No. 「5」 is deleted. (Fe) 302 μm Cal.No. 1 Caution This operation can not be activated when data memNo.
  • Page 60 (Fe) 302 μm Cal.No. 1 memNo. S: 1 0 : Adjust to a Group No. 「5」. Press MEM. CLEAR key. The buzzer beeps, beeps 2 times. ERASE? all data in; G = 5. Press MEM. CLEAR key. The buzzer beeps. ERASE all data in;...

  • Page 61: 4) Deletion Of Block Data

    (4) Deletion of block data ※ Data stored in arbitrary block with Block No. 1~20 is deleted. ● For operation example, data stored in a Group No. 「1」, a Block No. 「12」 is deleted. (Fe) 403 μm Caution Cal.No. 1 This operation can not be activated when data memNo.
  • Page 62 (Fe) 256 μm Cal.No. 1 memNo. S: 1 0 : Adjust to a Group No. 「1」. Press MEM. SEL. key. The buzzer beeps. (Fe) 256 μm Cal.No. 1 memNo. S: 1 0 : A Group No. is set at 「1」, and a Block No.
  • Page 63 Press MEM. CLEAR key. The buzzer beeps. ERASE all data in; B = 12. 【 in G = 1 】 「-」 mark is displayed. (Fe) - μm Cal.No. 1 The Data storing infomation turn as follows: Group No. 「1」 memNo. S: 1 0 : Block No.

  • Page 64: 5) Deletion Of Section Data

    (5) Deletion of section data ※ Data stored in arbitrary section with Section No. 1~10 is deleted. ● For operation example, data stored in a Group No. 「3」, a Block No. 「7」, a Section No. 「5」 is deleted. (Fe) 403 Caution μm Cal.No....
  • Page 65 Press MEM. SEL. key. The buzzer beeps. (Fe) 500 μm Cal.No. 1 memNo. S: 1 0 : A Group No. is set at 「3」, and a Block No. flashes. Press ▲ or ▼ key to adjust to a Block No. where there is a section to be aimed at. (Fe)...
  • Page 66 (Fe) 500 μm Cal.No. 1 memNo. S: 1 0 : Adjust to a Section No. 「5」. Press MEM. CLEAR key. The buzzer beeps, beeps 2 times. ERASE? all data in; S = 5. 【 in B = 7 < G = 3 】 Press MEM.

  • Page 67: Statistics

    Statistics (statistical calculation value of chosen data is displayed) (1) Statistics of all data (Fe) 107 μm Cal.No. 1 The Data storing infomation is displayed. memNo. S: 1 0 : 1 0 Press STATISTICS key. The buzzer beeps, beeps 2 times. Statistics Calculation all data in;...

  • Page 68: 2) Statistics Of Group Data

    (2) Statistics of group data ※ Statistical calculation is performed on the data stored in arbitrary group with Group No. 1~10. ● For operation example, Statistical calculation is performed on the data stored in a Group No. 「3」. (Fe) 107 μm Cal.No....
  • Page 69 Press STATISTICS key while a Group No. is flashing. The buzzer beeps, beeps 2 times. Statistics Calculation all data in; G = 3. START ? Press STATISTICS key. The buzzer beeps, beeps 2 times. (displayed as being under process of calculating) The buzzer beeps.

  • Page 70: 3) Statistics Of Block Data

    (3) Statistics of block data ※ Statistical calculation is performed on the data stored in arbitrary block with Block No. 1~20. ● For operation example, Statistical calculation is performed on the data stored in a Group No. 「1」, a Block No. 「14」. (Fe)...
  • Page 71 Press MEM. SEL. key. The buzzer beeps. (Fe) 107 μm Cal.No. 1 memNo. S: 1 0 : 1 0 A Group No. is set at 「1」, and a Block No. flashes. Press ▲ or ▼ key to adjust to a Block No. in which to calculate statistics. (Fe)...
  • Page 72 VALUE : 【 B = 14 】 【 in G = 1 】 #-date : 5 0 Mean : 1 0 6 . 2 Median : 1 0 6 . 1 Max. : 1 0 7 . 5 Min. : 1...

  • Page 73: 4) Statistics Of Section Data

    (4) Statistics of section data ※ Statistical calculation is performed on the data stored in arbitrary section with Section No. 1~10. ● For operation example, Statistical calculation is performed on the data stored in a Group No. 「5」, a Block No. 「2」, a Section No.
  • Page 74 Press MEM. SEL. key. The buzzer beeps. (Fe) 107 μm Cal.No. 1 memNo. S: 1 0 : 1 0 A Group No. is set at 「5」, and a Block No. flashes. Press ▲ or ▼ key to adjust to a Block No. where there is a section to calculate statistics. (Fe)...
  • Page 75 (Fe) 107 μm Cal.No. 1 memNo. S: 1 0 : 1 0 Adjust to a Section No. 「1」. Press STATISTICS key while a Section No. is flashing. The buzzer beeps, beeps 2 times. Statistics Calculation all data in; S = 1. 【...

  • Page 76: Transferring Data - Usb

    Transferring data – USB – Transfer data to a PC (personal computer) by using a USB cable. Download the USB transfer driver from the included CD or our website. ※ Data is not transferred when the main unit is set to 「Non-Intrerrupt Measuring mode」. Make sure beforehand that this main unit is set to 「is set to Normal (hold) Measuring mode」.

  • Page 77: 2) Interrupt Transferring Data

    (Fe) Caution USB cable Pressing COM. ENABLE key without un-connected connecting USB cable, a warning 「USB μm cable un-connected」 is displayed. Cal.No. 1 USB Press again COM. ENABLE key to delete the letters and connect USB cable. memNo. S: 1 0 : 1 0 (2)...

  • Page 78: Transferring Stored Data - Usb

    Transferring stored data – USB – (1) Transfer of all data ※ Transferring all stored data. ● Prepare for a PC side. ● Connect a USB cable to a PC. (Fe) 101 μm Cal.No. 1 memNo. S: 1 0 : 1 0 Press COM.

  • Page 79: 2) Transfer Of Group Data

    TRANSMITTING. all data in; all memory. The buzzer beeps. (Fe) 101 μm Transferring is completed, returning ns to the beginning. Cal.No. 1 memNo. S: 1 0 : 1 0 (2) Transfer of group data ※ Data stored in arbitrary group with Group No. 1~10 is transferred. ●...
  • Page 80 (Fe) 101 μm mark is displayed. USB Cal.No. 1 USB memNo. S: 1 0 : 1 0 Caution Press MEM. SEL. key. Pressing COM. ENABLE key without The buzzer beeps, beeps 2 times. connecting USB cable, a warning 「USB cable un-connected」 is displayed. Press again COM.
  • Page 81 Press TRANSMIT key while a Group No. is flashing. The buzzer beeps, beeps 2 times. TRANSMIT ? all data in; G = 3. Press TRANSMIT key. The buzzer beeps. TRANSMITTING. all data in; G = 3. The buzzer beeps. (Fe) 101...

  • Page 82: 3) Transfer Of Block Data

    (3) Transfer of block data ※ Data stored in arbitrary block with Block No. 1~20 is transferred. ● Prepare for a PC side. ● Connect a USB cable to a PC. ● For operation example, data stored in a Group No. 「4」, a Block No. 「7」 is transferred. (Fe)...
  • Page 83 (Fe) 101 μm Cal.No. 1 USB memNo. S: 1 0 : 1 0 A Group No. flashes. Press ▲ or ▼ key to adjust to a Group No. where there is a block to transfer data. (Fe) 101 μm Cal.No. 1 USB...
  • Page 84 Press TRANSMIT key while a Block No. is flashing. The buzzer beeps, beeps 2 times. TRANSMIT ? all data in; B = 7. 【 in G = 4 】 Press TRANSMIT key. The buzzer beeps. TRANSMITTING. all data in; B = 7. 【...

  • Page 85: 4) Transfer Of Section Data

    (4) Transfer of section data ※ Data stored in arbitrary section with Section No. 1~10 is transferred. ● Prepare for a PC side. ● Connect a USB cable to a PC. ● For operation example, data stored in a Group No. 「5」, a Block No. 「8」, Section No. 「1」 is transferred. (Fe)...
  • Page 86 Press ▲ or ▼ key to adjust to a Group No. where there is a block to transfer data. (Fe) 101 μm Cal.No. 1 USB memNo. S: 1 0 : 1 0 Adjust to a Group No. 「5」. Press MEM. SEL. key. The buzzer beeps.
  • Page 87 Press ▲ or ▼ key to adjust to a Section No. in which to transfer data. (Fe) 101 μm Cal.No. 1 USB memNo. S: 1 0 : 1 0 Adjust to a Section No. 「1」. Press TRANSMIT key while a Section No. is flashing. The buzzer beeps, beeps 2 times.

  • Page 88: Note To Improve Measuring Accuracy

    Note to improve measuring accuracy ① Zero plate Prepare the same material, thick and shape plate as the measuring object for Zeroing and Calibration standard (CAL). Different materials may not bring about correct measuring results. ※ As accessories to probe (option), “Zero plates” are for testing purpose only. Select a most optimal zero plate to meet actually measuring objects.

  • Page 89: Trouble Shooting

    Trouble Shooting Before contacting us please check with the following points. Symptoms Points to check Measures to be taken No response upon press of Are batteries worn out? Replace them with new ones (2 ea.). 「 」 key. No response after replacing Something wrong inside a main Contact us for repair.

  • Page 90: Disclaimer

    Symptoms Points to check Measures to be taken TROUBLE! Something wrong with probe. Contact us for repair. The probe may have trouble. Change it to the other one. 《Power OFF》 TROUBLE! Something wrong with probe/ Contact us for repair. The probe and the 交換して下さい。...
  • Page 91 Specifications ◆ Main unit Items Applications Dual (Electromagnetic/Eddy current) type coating thickness meter Model name SWT-7200Ⅳ Display method Graphic LCD (data/message), Backlight Ranges Depending on optional probes 2-point calibration Calibrations (CAL) Zero: metal substrate calibration Calibration standard: metal substrate and thickness standard calibration ①...

  • Page 92: Probe

    ◆ Probe (option) Model SFN-325 SFe-0.6Pen SFe-0.6L Dual (Electromagnetic/Eddy current) type Measuring method Electromagnetic type (auto-selection for Fe/NFe) Measuring range Fe: 0~3.00mm, NFe: 0~2.50mm 0~600μm 1μm: 0~999μm 0.01mm: 1.00~3.00mm (Fe) 1μm: 0~600μm : 1.00~2.50mm (NFe) Resolutions by switching by switching 0.1μm:...
  • Page 93 ◆ Probe (option) ※1 Model SFe-2.5 /SFe-2.5L SFe-2.5LwA SFe-10 SFe-20 Measuring method Electromagnetic type Measuring range 0~2.50mm 0~10mm 0~20mm 1μm: 0~999μm 0.01mm: 1.00~2.50mm 1μm: 0~999μm 1μm: 0~999μm Resolutions 0.01mm: 1~5mm by switching 0.01mm: 1~10mm 0.1mm: 5~20mm 0.1μm: 0~400μm 0.5μm: 400~500μm Accuracies 0~100μm:...
  • Page 94 ◆ Probe (option) Model SNFe-2.0/SNFe-2.0L SNFe-0.6 SNFe-5 SNFe-8 Measuring method Eddy current type Measuring range 0~2.00mm 0~600μm 0~5.00mm 0~8.00mm 1μm: 0~999μm 1μm: 0~600μm 0.01mm: 1.00~2.00mm 1μm: 0~999μm 1μm: 0~999μm Resolutions by switching by switching 0.01mm: 1~5mm 0.01mm: 1~8mm 0.1μm: 0~400μm 0.1μm:...
  • Page 95 Reference (measurement principles) Electromagnetic type ● When metals approach to AC- magnetic fields emitted from probe, the metal and the magnet pull each other. It makes the pulling force stronger as they come closer. In other words, it makes the magnetic density higher as they come closer.
  • Page 96 Coating thickness meter, Pinhole detector, Moisture meter, Concrete covermeter, Condensator, Needle detector, Iron piece detector, Viscosity cup SANKO ELECTRONIC LABORATORY CO.,LTD. Head office: 1677 Hisasue, Takatsu-ku, Kawasaki 213-0026, Japan Tokyo branch: Shibata Bldg., 2-6-4, Uchikanda, Chiyoda-ku, Tokyo 101-0047, Japan TEL: 81-3-3254-5031 FAX: 81-3-3254-5038 Osaka branch: Wake Bldg., 1-11-9, Higashitenma, Kita-ku, Osaka 530-0044, Japan...

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Swt-7000iv

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