COATING THICKNESS GAUGE TT2 Two measuring methods: () and eddy current (N) (Refer to page AAA for details) Magnetic induction () method is used to measure the thickness of non-magnetic coating on ferrous metal Eddy current (N) method is used to measure the thickness of nonconducting coating on non-ferrous materials Automatic recognition of substrate Automatic selection of measuring methods statistical ways: Mean values / Max. values / Min. values / testing numbers.(no.) / standard deviations (S.DeV) Upper-lower limit setting and sound alarm Data output to printer TA230 or PC by RS232 00 readings can be stored 2 measuring modes: continuous / single 2 stop ways: Manual/automatic methods range One point Two points N eddy current 0 to 40 (for chromeplate on copper) [(1~3)%H+1.] Calibration foil set 1 Substrate 2 AAA 1.V battery 1 Waist pack for main unit 1 Convexity 1. Convexity 3 Printer TA230 (see page 4) condition diameter (mm) Battery AAA 1.V (2pcs) 1mm 0mm 23mm 0g 36
COATING THICKNESS GAUGE TT211 Economical model with probe integrated Single point measurement mode Easy on zero point 3 kinds of adjustable resolution for different application High speed data collection Automatically switch off Easy conversion between mm and inch methods range 1 (3%H+) Convexity 1. Substrate 1 Battery 1 Waist pack for main unit 1 condition diameter (mm) Battery AAA (2pcs) 1mm 0mm 23mm 0g 3
COATING THICKNESS GAUGE TT220/230 TT220: integrated probe TT230: integrated probe N 2 measurement modes: continuous / single statistical ways: Mean values / Max. values / Min. values / testing numbers.(no.) / standard deviations (S.DeV) 1 measurement readings stored low battery indication Automatically switch off Real time or batch printing with TA230 printer methods range One point : Two points condition diameter (mm) TT220 TT230 N eddy current 1 ( when thickness is less than ) [(1~3)%H+1.] Convexity 1. Convexity 3 Charger 1 Calibration foil set 1 substrate 1 Protection pocket 1 Printer TA230 (see page 4) of substrate(mm) Rechargeable NiMH battery (2pcs) mm 3mm 22mm g 38
COATING THICKNESS GAUGE TT260 Two measuring methods: () and eddy current (N) 6 types of probes are available for various applications 2 measurement modes: continuous / single statistical ways: Mean values / Max. values / Min. values / testing numbers.(no.) / standard deviations (S.DeV) memory up to 49 readings Direct testing mode and block statistics mode (APPL/BATCH) Direct print out of statistical values Dataview for connecting with PC is available Low battery indication 2 switch off modes: manual and auto range Probes available Minimum resolution condition Operation language Standards Calibration Statistics Data memory Limits Interface Working temperature power supply See table in the next page English DIN, ISO, ASTM,BS Zero and foil Number of measurements, mean, standard deviation, maximum and minimum of 3000 readings 49 readings Adjustable with alarm RS-232 Nicd rechargeable batteries 1.2V 20mm 86mm 4mm 30g Probe 1 Charger 1 Calibration foil 1 substrate 1 6 optional probes PC software Dataview Calibration foils in different thickness 39
OPTIONAL PROBES AND APPLICATION GUIDE Optional probes and technical specification Probe model 400 1 1/90 N1 CN02 Operating principle Magnetic induction Eddy current range( ) 0 0-120 0-000 0 to 40 (for chromeplate on copper) ~200 Low range resolution( ) 1 Accuracy One-point ( ) (3%H+) Two-point ( ) [(1~3)%H+0.] [(1~3)%H+] [(1~3)%H+1.] - conditions Min curvature of the min area (mm) Diameter of the min area (mm) Convex 1 3 1. latten 40 3 latten 0.2 2 unlimited Application of two measuring methods Magnetic induction () Coating: non-magnetic material Substrate (base): magnetic material Eddy current (N) Coating: non-conductors Substrate (base): non-magnetic metals Any non-magnetic materials such as gold, copper, zinc, tin, lead, resin, rubber, glass and so on. Any non-conductors such as painting, synthetic resin, rubber, glass and so on. Any magnetic materials such iron, steel, cobalt and nickel. Any non-magnetic metals such as brass, copper, aluminum and so on. 40