National Accreditation Board for Testing and Calibration...

National Accreditation Board for Testing and Calibration Laboratories

SCOPE OF ACCREDITATION

Laboratory Name Behineh Farayand Azma (BEHFA), Iranian Research Organization for Science and Technology (IROST), Enqelab St., Ahmadabad Mostoufi Rd., AzadeganHighway, Tehran, Iran

Accreditation Standard ISO/IEC 17025: 2017

Certificate No. CC-3091 Page No. of 24

Validity 26.12.2019 to 25.12.2021 Last Amended No. 18.02.2021

S.No Discipline/ Group

Measurand or Reference

Material/Type of instrument or material

to be calibrated or measured/ Quantity

Measured/Instrument

Calibration or Measurement

Method or procedure

Measurement range and additional

parameters whereapplicable(Range and Frequency)

* Calibration and Measurement

Capability(CMC)(±)

This is annexure to 'Certificate of Accreditation' and does not require any signature.

Permanent Facility

1. ELECTRO-TECHNICAL-DIRECT CURRENT(Measure)

DC Voltage Using6½ Digital Precision FlukeMultimeter 8846 A by Direct Method

50 mV to 100 mV100 mV to 100 V100 V to 900 V

0.01% to 0.008%0.008% to 0.005%0.005% to 0.007%


DC Current Using6½ Digital Precision FlukeMultimeter 8846 A by Direct Method

10 µA to 100 µA100 µA to 400 mA400 mA to 1 A1 A to 9 A

0.35%0.35% to 0.064% 0.064% to 0.081%0.081% to 0.18%


Resistance Using6½ Digital Precision FlukeMultimeter 8846 A by Direct Method

1 � to 10 �10 � to 10 M�10 M� to 100 M�100 M� to 330 M�330 M� to 900M�

0.07% to 0.05%0.05% 0.05% to 0.94%0.94% to 2.34%2.32 %

4. ELECTRO-TECHNICAL-ALTERNATINGCURRENT(Measure)

AC Voltage Using6½ Digital Precision FlukeMultimeter 8846 A by Direct Method

50 Hz to 10 kHz10 mV to 330 V

50 Hz to 1 kHz330 V to 900 V

1.62 % to 0.17 %

0.17 % to 0.1 %5. ELECTRO-

TECHNICAL-ALTERNATING CURRENT(Measure)

AC Current Using6½ Digital Precision FlukeMultimeter 8846 A by Direct Method

45 Hz to 5 kHz33 µA to 3A3 A to 9 A

3 % to 0.5%2.7 % to 0.37 %

6. ELECTRO-TECHNICAL-TIME & FREQUENCY(Measure)

Frequency Using TTi, TF830Counter/timer by Direct Method

10 Hz to 25MHz 0.02%

26.12.2019 to 25.12.2021 Last Amended No. 18.0

pline/ up

Measuranananaand d ddd ororororor ReReeeefefefefeferrrrer ncnce e

Maaaaateteteteterririal/Typypypypype e ee ofofofofof innststtsttrururururumementn oor r r mammamm tetet ririalal

tototototo b be e e cacaccc librbratatededdd o ooorrr rrmemememeeasasasasasurururrrededeee // QuQuQuQuanantititiiityty

Measasasasasururururu eedede /I/IIInsnstrtrtrtrtrumummumenentt

CaC lilibbrattioion nn ororororor MeMeMeMeMeasasasasa urururrreemeee ent t

MeMeMeMeMethtththodoodoo oor r prprprprprocococoocededurureeee

Measurement range and adadadadadditional

papapapapararamememememetetettt rs whereapapapapapplplplplpliicii ababbbblelelelele(R( ange anannanand ddd d FrFFF equeuueueuency)

*

C

PePeeeermrmrmrr anent Faaciciciciilill tyty

O-AL-

T

DCDCDCDD V Vololololo tatagegeeee UsUsUsUsUsinininining6g6½ ½ ½ ½ ½ DiDDigigigitttatatal llPrPrPrPrP ececceccisisisisisioioi n nn n n FlukukukukkeMulttiimetettteeeeer 8888884846 A by Direccctttt t MeMeMeMethththththododooo

5050505050 m mV VV VV toto 1 1110000 mVV101000000 0 mVmVVVV to o 10100 0 0 0 0 V1010111 0 0 000 V V VV totototoo 99990000000000 V VVV V

000

O-AL-

T

DCDCDCDCDC C CCCCuruuruu rereeeentntn UsUsUUU ing6g6g6g6g6g ½½½½½ ½ DDiDiDiDigigigigigittatt ll ll PPrPrPPrececcccisi ion FlukeMuMuMuuMulttltltltimi etettetterer 8884846 6 AA AAAbyb Direececece t t Methhododo

101011 µ µA A tototooo 10000000000 µ µ µµµAAA10100 0 0 0 µAµAAAA t o 40404000 0000 mAA404040404000 0 mAmAmAmAmA t to oooo 11 1 1 1 AAAAA1 1 111 A A AA tototooo 9 9 A AA

0000

O-AL-

T

ReReeeesisisisisisttstststanananananceceecece UUsUsU ining6g6666½½½½½ DiDiDiDi igigitatatall PrPrececisisioion n FlFlF ukukkeeeeMuMuMuMM ltlttimimetetttereree 88888848484846 6 A A Abybbbby DDD DDiirireect MeMeethththhhododododod

11 �� toto 1 10 �11010 �� tototototo 1 1 10 0 MM��1010101010 M M MMM�� tottototo 1 10000000000 M M�101000000 0 0 0 MM� totoooo 333 330 M�33330 0 000 MM�� tttoto 900M�

00002

O-AL-

ATINGT

AC Vololltatatataagegegege UsUsUsUsUsininninng6g6g6g6g6½½ ½ ½ ½ Digiiitatatatat lPrPrPrPrPrececcisisioion nnnn FlukkeMMuMM lltiimeter 88446 6 6 6 AAA A A bybybybyby DD D D Diririririrececececectt ttt MeMeMeMeMethththththodod

500 H HHHHz z zzz toto 10 kHz1010101010 m V to 330 V

50 Hz to 1 kHz333 0 V to 900 V

1

0O-AL-

ATING T

AC Currentt Using6½ Diigigigigigitatt lPrecision FlukkkkkeeeeeMultimeter 884466 6 6 A by Direct Methododddd

4454544 Hz to 5 kHz3333333 µ A to 3A3 A A AAA toto 9 A

32











Measured/Instrument


Method or procedure




Capability(CMC)(±)


7. ELECTRO-TECHNICAL-DIRECT CURRENT(Source)

DC Voltage Using Fluke 5502 A by direct method

1 mV to 100 mV100 mV to 1000V

0.42% to 0.011%0.011%to 0.007%


DC Current Using Fluke 5502 A by direct method

1 mA to 100 mA100 mA to 1A 1A to 20A

0.018% to 0.019%0.019% to 0.055%0.055% to 0.13%


Resistance Using Fluke 5502 A by direct method

1 � to 10 �10 � to 10 M�10 M� to 100 M�100 M� to 330 M�330 M� to 1.1 G�

0.16 % to 0.027%0.027 % to 0.071%0.071% to 0.58%0.58% to 1.9 %1.9 % to 1.8%


Insulation Resistance Using MeggerCB101 by direct method

10M�100M�1G�10G�

2.4%2.4 %2.4 %2.4 %

11. ELECTRO-TECHNICAL-ALTERNATING CURRENT(Source)

Capacitance Using Fluke 5502 A by direct method

1 kHz220 pF to 1 nF1 nF to 330 nf

100 Hz 330 nF to 110 µF

0.74 % to 0.77 % 0.77 % to 0.38 %

0.38 % to 0.70 %12. ELECTRO-

TECHNICAL-ALTERNATING CURRENT(Source)

AC Voltage Using Fluke 5502 A by direct method

45 Hz to 100 kHz5 mV to 0.33 V

45 Hz to 10 kHz0.33 V to 330 V

45 Hz to 8 kHz330 V to 1000 V

4.3 % to 0.058 %

1.1 % to 0.068 %

0.068 % to 0.62 %


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O-AL-

T

DC VVVVolo taaaaagegeg Using FlFlukukukuke e 55022 A A byby dirrecececcecectttt t mmmmemethod

1 1 mVmVmVmm tto o 10101010100 0 0 0 mVVV1100 0 mVmmVm t tto o o 101010100000VVVVV

00

O-AL-

T

DCDCDCDCDC C CCCCururrereentnt Using FlFluuukukuke e 55555555550202 AA by direct memeeeethththtt oddddd

1 111 mAmAAmA t to o ooo 1000 0 00 mAmAmAmAm1010111 0 0 00 0 mAmAAAA to o 1A1AAAA 1A1A11 t to o 2020000A

000

O-AL-

T

ReReReReResisisissiststanannnnceceee UsU ing FFFlFlF uuke 555020200 AA bybybybybyy dddd diririreeeecectt memeththododoo

11111 �� totototoo 10 000 0 ��1011011 �� tot 110 00 MMMMM��10101001 M M�� tot 100 MMMMM��10100 0 00 0 MMMMM�� totot 33030303030 M�33333333330 0 000 MMMMM�� totottt 1 1111.1.11 G�

00001

O-AL-

T

InInsususususulalatiiononnn RRRRResesistancce e UsUsiingggg MeMeMeMeggggggggerererereCBCBCBCBCB1010101010111 bby y did rect mememememeththththhododododd

100000MMMMM��1000M0M0M0M0 ��1GGGG��1010101010GG�

2222

O-AL-

ATING T

Capacitance UsUsUsUsUsinininining g g g g FlFlFlFlFlukukukukukeeee e 55555555550202 AAAAA by direct mememememethod

1 kHz222 0 pF to 1 nF1 1 11 1 nFn to 330 nf

1000 00 0 0 HzH 3333333300 000 nnFnnn to 110 µF

00

0











Measured/Instrument


Method or procedure




Capability(CMC)(±)



AC Current Using Fluke 5502 A by direct method

10 Hz to 30 kHz 33 µA to 330 mA

10 Hz to 10 kHz 0.33 A to 3 A

45 Hz to 5 kHz3 A to 20 A

4.64 % to 0.26 %

0.26 % to 4.6 %

0.26 % to 3.55 %14. ELECTRO-


Phase angle Using Fluke 5502 A by direct method

10 Hz to 30 kHz 0° to 90° 0.26°


Power (Active)10 Hz to 10 kHz4 V to 550 V1 A to 20 A± 0.5 PF to UPF

Using Fluke 5502 A by direct method

4 W to 11 kW 14.4 % to 0.63 %

16. ELECTRO-TECHNICAL-TEMPERATURE SIMULATION(Source)

Type K ThermocoupleType J ThermocoupleType E ThermocoupleType T ThermocoupleType N ThermocoupleType C ThermocoupleType L ThermocoupleType R ThermocoupleType S ThermocoupleType B ThermocoupleRTD-Pt 385 (100 ohm)RTD-Pt 3916 (100 ohm)RTD-Pt 3926 (100 ohm)RTD-Pt 385 (200 ohm)


(-) 200 °C to 1300 °C(-) 200 °C to 1200 °C(-) 200 °C to 1000 °C(-) 200°C to 400 °C(-) 200 °C to 1300 °C0 °C to 2316 °C(-) 200 °C to 900 °C0 °C to 1700 °C0 °C to 1700 °C600 °C to 1800 °C(-) 200 °C to 800 °C(-) 200 °C to 800 °C(-) 200 °C to 630 °C(-) 200 °C to 630 °C

0.4 °C0.30 °C0.5 °C0.6 °C0.8 °C0.9 °C0.6 °C0.85 °C0.85 °C0.85 °C0.35 °C0.35 °C0.35 °C0.35 °C


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O-AL-

ATING G T

AC CCCCuurreeeeentnnt Using FlFlukukukuke e 55022 A A byby dirrecececcecectttt t mmmmemethod

10100 H H H Hz z totoo 3333 30 00 0 kHkHk z z 333 µ µµµAAA A tooo 3 33333030303030 m m A

10100 HHH Hz z totototoo 10 0 kHkHHHHz 0.0000 333333333 A A t tttto 3 33 3 AAAAA

4545444 H HHHHz z totoooo 55 k kkHzHzHzHz3 3 33 A A AA ttoto 2 22220 AAAAA

4

0

0O-AL-

ATING T

PhPhPPP asse ee ee ananglglglgle e UUUsUUsininnnnggg g Fluke 55020202022 A A byyyyy d d d d diri eccccttt tt memeththododddd

1010 H HHz z totototto 330 0 0 kHkHkHkHkHz 0°0°0°00 t t to 9090909090°° 0

O-AL-

ATING T

PoPooowewewewewerr r rr (A(A(A(A(Actctivivve)e)eee1010111 HHz zzzz tototototo 1 1 110 0 000 kHkHkHHzzz4 4 44 VV V V tot 555050505050 V V VVV1 A AAAA ttototto 2 0 0 AAAAA± 0.5 5 PFPFPFPFPF t t o o UPF

UsUsining g FlFlukukkke e 555555 0202020202 A AA bybybybyby d dirirecect t t t memememeeththththt odod

4 444 4 W W WW W tototototo 1 11111 1 1 kWW 1

O-AL-ATUREON

Type KK T TThehehehehermrrrmoco ouplpllleeeeeType J ThermmmmmocococococououoouplpleeType E ThermmoccocccououuuplplplplpleeeeeType T Thermmmmmocoooco oupleType N Theermrmrmrmr ocoupleType C Theeeeermrrrmr ocouplplleeeeeType L ThThhhheereee mocoupupppplelelelelType RR TT TTThehermrmococououuouuppppleType SS TThehermrmococououple

UsUsUsUUsinininnng g g FlFlFlFluuuuuke 5555555555020 A bybybyby ddirirecececctt ttt mem thodod

(((((-----) ) )) ) 202020202 00 °C to 1300 °C(((-) 2200 °C to 1200 °C(-) 200 °C to 1000 °C(-) 200°C to 400 °C(((((--) 200 °C to 1300 °C0 000 0 °C°C to 2316 °C(-))))) 2020222 0 °C to 900 °C00 °C°CCCC t to 1700 °C00 °C°C tto 1700 °C

000000000











Measured/Instrument


Method or procedure




Capability(CMC)(±)


17. ELECTRO-TECHNICAL-TIME & FREQUENCY(Source)

Time Using TTi, TF830Counter / Timer by Comparison Method

1 s to 10 Hours 0.24 s


Frequency Using GPS-2125Function generator by direct method

120 Hz to 25 MHz 0.012 %

19. MECHANICAL-WEIGHTS

Weights(E2 Classand coarser)

Using E1 Class Standard Weights&Digital Weighing Balances of 5.4 g (readability: 0.001 mg), 80 g (readability: 0.01mg) and 220 g (readability: 0.1 mg)by ABBACycle of substitution method as per OIML R111

1 mg2 mg5 mg10 mg20 mg50 mg100 mg200 mg500 mg1 g2 g5 g10 g20 g50 g100 g200 g

0.0018 mg0.0018 mg0.0018 mg0.0018 mg0.0028 mg0.0028 mg0.0031 mg0.0033 mg0.0036 mg0.0045 mg0.0052 mg0.0066 mg0.021 mg0.021 mg0.03 mg0.1 mg0.19 mg


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O-AL-TIIMEMEMEMEM ENCYYYYY

Timee Using TTTTTTi,i,,ii, T TF8300CoC unnteteeeerrrr r // / TTTTiTimer byy CoCoCoCoCommmmpm ararrrisisisisisonoo MeMeMeMM ththththhooododod

1 1 s s ss totot 110 0 00 HoHoHoHoH uuru ss 0

O-AL-TIIIMMMEMEM ENCYYYYY

FrFrFrFrFreqeqeee ueueu ncncncccyy Using GPGPPPPS--222212125Functionnn g gg gggennerererereratata orr by direct memeeeethththtt oddddd

1212111 0 0 00 HzHzzHzz t t o 2525252525 M MMMMHzHz 0

CAL--S

WWeWWW igghthhhth ss(E2 CClalaaaassssanannd d d cocoarrrsesess r)

UUUsUUsininnnnggg E1 Class Stttttananananandardrdrdrdrd WWeieighghtststststs&&DiD giggg tal WWWeWeighingnggg BaBaBaBaB lalalaaancncncncnceeess ooff 5.5.4 444 gg (readabilityty: : 0.0.000001 1 1 mgmg)), , 8080 g g (r(r(r(r(reaeaeaeaeadadadadabibiiiilililillitytyttt : :0.0.0.00.01010100 mgmgmgmgmg))))) anananand d dd 222222 0 g (r(reaeadadabibililityt : 0.1 mg)bybybybyby A AAAABBBBBBBBBACACACACACycleleelee of susususubsbstititutuuuttitittioonoo mete hohod d dd asas p perer O OIMIMMMMLLL L L R1R1R1R1R11111111111

1 1 mgmgmgm2 2 222 mgmgmm5 5 555 mgmgmgmg1011011 m mmmmgg2020222 m mgggg5050 mm m mmggggg101010101 0 0 000 mgmgmgmgmg202000000 0 0 0 mgm505 0 0 000 mgmgmgmgg1 ggggg22222 gg5 g10 g220222 g505050550 g g100000000 00 gg2020200 0 0 0 0 ggggg

00000000000000000











Measured/Instrument


Method or procedure




Capability(CMC)(±)


20. MECHANICAL-WEIGHTS

Weights(F1 Class and coarser)

Using E2 Class Standard Weights & Digital Weighing Balances of 1 kg (readability: 1 mg), 6 kg (readability: 10 mg) and 32 kg (readability: 0.1 g) by ABBA Cycle of substitution method as per OIML R 111

500 g1 kg2 kg5 kg10 kg20 kg

1 mg1.1 mg10 mg19 mg100 mg220 mg

21. MECHANICAL-PRESSURE INDICATING DEVIDES

Barometer(Absolute Pressure)

Using Precision Pressure Indicator Comet T7418 by Comparison Method

750 mbar to 1100 mbar

1.27 mbar


Digital/Analog Pressure Gauge –Hydraulic

Using Dead Weight Tester

1 bar to 700 bar 0.03 % rdg


Digital/Analog Vacuum Gauge/ Vacuum Switch–Pneumatic

Using Precision Pressure Indicator Fluke 718 by Comparison Method

(-) 0.95 to 0 bar 0.47 mbar


Digital/Analog Pressure Gauge / Pressure Switch–Pneumatic

Using Precision Pressure Indicator AEP Lab DMM by Comparison Method

0 to 1 bar 0.0008 bar


Digital/Analog Pressure Gauge / Pressure Switch – Pneumatic


1 bar to 2 bar 0.0008 bar


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CAL-S

Weigghhth s(F(F(F(F(F1 Clasasasaassss anannana dd d cococ ara ser)))

Using E2E222 C CCClal ss StS andadaaaardrdrdrdrd WWWWWeighgggg ts & &&&& DiDiDiDiDiggitatataaall l WeWeWeWW igigggghihingngnggg BaBaBaBaBalalalalalannncncesessss of 111 1 1 kg (readabibililliliity: 1 1 mg), 6 kg (readddddabaaaa ilititttty:y:y:y:y: 10 0 mgm ) ananannd d dd 3232323 k k kkkgg gg((r(rr(reaeadddadadability: 0.1 gg)g)gg bybyyyy A AAAABBA A A AA CyCyCyCyclclclclcleeee e oofofofof sus bbsbstituuuuutitit ono metthohod d assssss p pp p perrrr OO IML R R 111111

505000 0 00 0 gg11 kgkgg2 2 222 kgkgkg5 5 5 kgkgkgkgkg1010111 k kkgggg202022 k kkgg

111112

CAL-RE NG

BaBaaaarororororomememememeteteteteterrrr(A(AAAbsbsssbsolololololututututute e e PrPrrrreseseee susurerereer ))

UUUsUsining ggg PrPrPPrP ececececisisisisioioioionnn n nPrPresessusurere InInII didicacaaaatototototor r rCoComemet t T7T741411118 8 88 bybybb CoCoCoCoC mpmpmpmpm ara isiiiisonon MeMeMeMeMethththththodododdod

75757550000 mbmbar to 110100000000 0mbmbmmm ararararar

1

CAL-RE NG

Digitataal/l/l/l/l/AnAnAAA alog Pressure Gauge ––HyHyHyHyHydrddddrauaulic

UsUsining g ggg DeDeada Weight TeTeTeTeTestststststerererere

1 baarr r rr tototototo 700 bar 0

CAL-RE NG

Digital/Analoggg V V VVVaca uum mGauge/ Vacucuuuuuum Switchhhhh–––––Pneumatic

UUsUsUsUsinininningggg PPPPrPrecececececisisioion Pressure IIndndndndndicicator Fluke 718 bybyyyy Comparison Method

(-) 0.95 to 0 bar 0

CAL- Digital//AnAnA lallalogog PPPPreresssure Using Precision 0000 ttoto 1111 bar 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)





2 barto 7 bar 0.0014 bar



Using Precision Pressure indicator Crystal p2i by Comparison Method

7 barto 14 bar 0.023 % rdg




14 barto 70 bar 0.2 % rdg



Using Precision Pressure indicator Keller by Comparison Method

70 barto 150 bar 0.3 bar


Differential Pressure Gauge

Using Precision Pressure indicator by Comparison Method

0.1 mbar to 1 mbar 0.91 % rdg




1 mbar to 20 mbar 0.2 % rdg

32. MECHANICAL-DENSITY AND VISCOSITY

Density of Liquid Hydrometer (Brix, Density, Specific Gravity, Baume, Lactometer & Alcoholmeter)

Using Reference Hydrometer as per ASTM E 126 by Comparison and Cuckow’s Method

0.600 g/cm3 to 1.850 g/cm3

0.00017 g/cm3


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CAL-RE NG

Digitatat l/l/l/Annnnnalaalogoggogog P PPPPreressssure GGaGGG uge e / / // Preseseee susurere Switcchhhh h–– PnPneueuuuumamatititititicc

Using PrPrrecececeecisision PrP essusuuuurererererre Innndndicator FlFlFlFlFlukukukukukee 71711118 8 888 bybyb CoCoCoCoC mpmpmpmpmpararisisssson Meththodd

22 babababbarrtoto 7 7777 b b bb barararar 0

CAL---RE NG

DiDiDiDiDigigig tataaaal/l/AnAnAnalalogog P PPPPressssssuruuururu eeeee GaGaGaGaG uguggggee eee / / PrPP esessusurerererere SS SS Swiiwitctctctctct hhhh ––––– PnPnP eueueeue mamamamaatiticc

Using PrPrrreeceececissioioioioion n nnnPressure iindndndnddicici atttoororoor CrCrCCC ystatatatatall ll p2p2p22p2p2iiii bybybybyby CCCoCCommmmpm arison Metetttthohohhh d

7777 babaarrtoto 1 4 babaababarrrrr 0

CAL--RE NG

Digitatal/l////AnAnA alalogog P Preeessssssure GaGaGaGaGauguguguu e e / / // PrPresesesesessusurere S SSSSwwiw tch–– PnPnPnPnPneueueueueumamamamamatiticc

Usssssininnining PrPrPrPrrececisisioion n PrP essuuuuurrere indiccatataa oror CrCrCrCrCrrysysyssstataaaal l p2p2ii byby CCoCoC mpmparariisisonon MeMeththodod

1414444 baaaaarrrrtotttot 7 77770 00 0 0 bababababarr 0

CAL-RE NG

DiDiDDD giitataaaal/l/l/l/l/AnAnAnAnAnalalalala ogog P PPPrerereessssururrureee e eGaGaGaGaauguguuu e // // PrPrPrPrPreesesee sure SSSSwwiwiwiw tctctctctch hh– PnPnnnneeueueueumam tit c

UsUsUsUU ininng g gg PrPrrrrececee isisisssioionn PrPrPPP esessusure iindnddicicccicatatatatatoro KeKeKeKeKellllllllererereer b bbbbyyy yy CoCoCoCoCompmpmmpm ararararisisisisison MeMeMMeM thththththodododd

70700070 bababababarrrrtototototo 1 15050000 bbb baar 0

CAL-RE NG

Differential PPPPPrererereressssssssssururuuu e e Gauge

UsUsUUsinngg PrPrPrrPreeece isioon nPrPrPrPrP esesesssususususurerererere iii iindndndndndicicicicicataataatoooror bybb CCCCCompaaaaariririririssoss n Method

00.0 1 mbar to 1 mbar 0

CAL-RE NG

Differential PrPrPPP essureeGauge

Using Precissioioioioon Pressure indiccatatatatoro by Comparison nMethod

1 1111 mmbm ar to 20 mbar 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)


33. MECHANICAL-VOLUME

Micro Pipette (Sampler) / Auto Pipette / Micro Syringe

Using E1 & E2 Class Weights with Distilled Water &Weighing Balance (readability: 0.001 mg) by Gravimetric Method as per ASTM E 542, ISO 8655 and ISO 3507

1 µl to 10 µl 0.017 µl



Using E1 & E2 Class Weights with Distilled Water & Weighing Balance (readability: 0.001mg) by Gravimetric Method as per ASTM E 542, ISO 8655 and ISO 3507

10 µl to 100 µl 0.061 µl



Using E1 & E2 Class Weights with Distilled Water & Weighing Balance (readability: 0.001mg) by Gravimetric Method as per ASTM E 542, ISO 8655 and ISO 3507

100 µl to 1000 µl 0.48 µl


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CAL- Micrro o PPiP pepeppp tttte e e ee (S(SSSSamamppler) / / /// AuAuAAA to PPipipippete tetetetete // / M MMMicicrro SySySySSyriringngggeeeee

Using E1E111 & &&& E2 ClC ass s WWWeWeWeW igigiggghhts withhhh DiDiDiDiDistststststiilililleled d d dd WaWaWWW teteeeerr r r &&&&WeWeWeWeWeigigigigighhihhingngggg Balallalalaance (readabibililliliity: 0.0.00 001mg) by Grarararaaaviv memememeetrttt icc MeM thododododdd a aas ss pepepepeper rrrAAASASA TMTMMMTM E 542, ISSSSSSO OOO868666655555555 andnddndd III ISOSOSOSOO 33 3 3355050505077

1 1 µlµlµlµlµl t t o o 1010000 µ µ µ µµllll 0

CAL- Miicrcrcro o PiPiPiipepettttttttte e eee (S(Sammmmpplpp er) / AuAuAuAuutototototo P Pipippeeetete tete / // M Micicrorooo SySyyyyririririr ngngngngngeeeee

UsU iing EEE1E1E & E2 ClClClClClasasasasasa s WWWWeW igghts s wwiww thth DDDiDiststililllleleleleledd ddd WaWaWaWateteteterr r rr & &WeWeigighihingng B BBalalanannnncecececece (r(r(rr(reaeae dadad bibilililil tytytt : : : 0.0.00 0000011mgmg) )))) bbybyb Graravivivimemememem tttrt ic MeMeMeMeMethththththododododd aaa as s pep r ASASASASASTMTMTMTMTM E E E EE 5 55 5 542, , ISISO 86868686865555555555 a andddndd I SOO 335077

101010100 µl l l totttot 10000000 µ µµµll 0

CAL- Micro Pipette (S(S(S(SSamamamamamplplplplp erer) / Auto Pipette // M MMMMicicro Syringe

Using E1 & E2 2 ClClClClClasasasasass s s s s WeWeWeWeWeigigigigighththththtss wiw thh Distilled WaWaWaWaWatet r &Weighing BBalalalalalanaaa ce (readability: 0.00 0000000 1mg) by Gravimemeettrttt ic Method as per

100 µl to 1000 µl 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)




Using E1 & E2 Class Weights with Distilled Water &Weighing Balance (readability: 0.01mg) by Gravimetric Method as per ASTM E 542, ISO 8655

1 ml to 10 ml 9.5 µl


Volume Glassware (Burette, Pipette, Graduated Cylinder, Dispenser, Digital Burette, Volumetric Flask, Pycnometer)

Using E1 & E2 Class Weights with Distilled Water & Weighing Balance (readability: 0.1 mg) by Gravimetric Method as per ASTM E 542, ISO 8655 and ISO 3507

1 ml to 100 ml 10 µl



Using E1 & E2 Class Weights with Distilled Water & Weighing Balance (readability: 1 mg) by Gravimetric Method as per ASTM E 542, ISO 8655 and ISO 3507

100 ml 500 ml 50 µl


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CAL- Micrro o PPiP pepeppp tttte e e ee (S(SSSSamamppler) / / /// AuAuAAA to PPipipippete tetetetete // / M MMMicicrro SySySySSyriringngggeeeee

Using E1E111 & &&& E2 ClC ass s WWWeWeWeW igigiggghhts withhhh DiDiDiDiDistststststiilililleled d d dd WaWaWWW teteeeerr r r&&&&&WeWeWeWeWeiiighihinnnnng BBBBBaalaaa ancee (readabibililliliity: 0.0.0 01mg) by Grarararaaaviv memememeetrttt icc MeM thododododdd a aas ss pepepepeper rrrAAASASA TMTMMMTM E 542, ISSSSSSO OOO868666655555555

1 1 mlmlmlmm t too 10101000 m m m m ml 9

CAL- Voolululumemee G Glalaaasssssss waw reeee (B(B(B(BBurururururetetee tete, , PiPipepeetttte,e, GrGrGrrradadadadaduauauauauateteetetedd d d CyCyCyCyCylililililindndnndn erer, ,,DiDiispspspsppenenenenensesesess r,r, D DDDDigigigii itttttalalalal B B ururetettete, , VoVoVVV lulumememememetrtttrtricicccc F FFFlalaskskskss , , ,PyPyPyPyPycncnomommmeteteteteterererere ))

UsU iing EEE1E1E & E2 ClClClClClasasasasasa s WWWWeW igghts s wwiww thth DDDiDiststililllleleleleledd ddd WaWaWaWateteteterr r rr & &WeWeigighihingng B BBalalanannnncecececece (r(r(rr(reaeae dadad bibilililil tytytt : : : 0.0.0 111 mgmgmgmgmg) )))bybybbb GG GGGraravimemetrtrtriciciccc MeMeMeMeMethththththododododd aaa as s pep r ASASASASASTMTMTMTMTM E E E EE 5 55 5 542, , ISISO 86868686865555555555 a andddndd I SOO 335077

1 1 11 mmlm tttttoooo o 1100 0 00 mlmlmm 1

CAL- Volume Glassswawawawawarerererere (Burette, Pipeetttttttte,e,eee Graduated CyCyyyCylillilil nder, Dispenser, DiDiDDD gital Buurereeeettttttt e, Volumetrricicccc F FFFFlask, Pycnommetetettteer)

Using E1 & E2 2 ClClClClClasasasasass s s s s WeWeWeWeWeigigigigighththththtss wiw thh Distilled WaWaWaWaWatet r &Weighing BBalalalalalanaaa ce (readability: 1 1 mmmgmgm ) by Gravimetricc Method as per

100 ml 500 ml 5











Measured/Instrument


Method or procedure




Capability(CMC)(±)




Using E1 & E2 Class Weights with Distilled Water & Weighing Balance (readability: 10 mg) by Gravimetric Method as per ASTM E 542, ISO 8655 and ISO 3507

1000 ml to 5000 ml 200 µl

40. MECHANICAL-DIMENSION (BASIC MEASURING INSTRUMENT, GAUGE ETC.)

Caliper - Vernier / Dial / Digital (L.C.: 0.01 mm)

Using Gauge Block by Comparison method

0 to 300 mm 0.01 mm


External Micrometer (L.C.: 0.001 mm)


0 to 25 mm 0.003 mm


External Micrometer (L.C.: 0.01 mm)


0 to 100 mm 0.007 mm

43. MECHANICAL-ACCELERATION AND SPEED

Tachometer(Contact Type)

Using Tachometer by Comparison Method

1 rpm to 60 rpm 0.22 rpm


Tachometer(Contact Type)




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CAL- Voluumem GGGGGlalassssssssswawawww rere (B(B(B(B(Buretteteeee, , Piiiiipepeppp tttte,e,ee GGrGrGG adaduauauauaateted d d CCyCylilindndddererererer, DiDiDiDiD spsps enenenenenseseeeer,r,r D Digigigiggitititaal Burureeetete teee, , ,VoVoVoVoVolulumememm trtrtrrriicicii F Flalaasskss , PyPyPyPyPycncnoomomoo eteterer))

Using E1E111 & &&& E2 ClC ass s WWWeWeWeW igigiggghhts withhhh DiDiDiDiDistststststiilililleled d d dd WaWaWWW teteeeerr r r & & &&WeWeWeWeWeigigigigighhihhingngggg Balallalalaance (readabibililliliity: 1010 mg)) by Gravimemememeem triccc MeM thododododdd a aas ss pepepepeper rrrAAASASA TMTMMMTM E 542, ISSSSSSO OOO868666655555555 andnddndd III ISOSOSOSOO 33 3 3355050505077

1010000000000 mmlll tototototo 5 5 5 550000 0 0 mmlmlm 2

CAL-ON

NGENT, TC.)

Caalililipepepp r r --- VeVeeeernrnrrr ieier / DiDiDDD al / DiDiDiDiigigigigigitatattt l l (L(LLL.C.C.. :.: 0 00.0.01 1 mmmmmmmmmm))

UsU iing GGGaGaG uge Blloco k k bybybybyyy CC C C Commommmparison n n mmemem ththhhhododododod

0 0 00 tttotot 333330000000 mmmmmmm 0

CAL-ON

NGENT, TC.)

ExExxxxteteteteternrnr all MMMMMicici rometer (L(LLLL C.C.CCC.::: 0.00011111 mmmmmmm ))

UsUsUsUsUsinininnng g g g g GaGaGaGaGauguguguge BlB ockbybyyyy CComompapapp rison mememmmethththththododddod

0 0 tototototo 2 25 mmmmmmmmm 0

CAL-ON

NGENT,

External Miccrororororometer (LL.C.C.CC.C.:0.01 mm)

Using Gaugugggge ee BlB ock kby Compariisososooson nmethod

0 000 to 100 mm 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Tachometer(Non-Contact Type)




Tachometer(Non-Contact Type)

Using Tachometer by ComparisonMethod


47. THERMAL-TEMPERATURE

Temperature Sensor (RTD, Thermocouple) with/without Indicator/ Controller/ Data Logger, Glass Thermometer, Temperature Gauge, Digital Thermometer, Temperature Switch

Using SPRT Fluke 8846 & Fluke 525B with Liquid Bath, Oil Bath and Dry Block Calibrator by comparison method

(-) 90 °C to 0 °C 0.12 °C



Using SPRT Fluke 8846 & Fluke 525B with Liquid Bath, Oil Bath and Dry Block Calibrator bycomparison method

0 °C to 95 °C 0.05 °C




95°C to 150 °C 0.12 °C


pline/ up









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CAL-RATIONONNNN ED

Tachhhhomo eteteteteterer(N(N(N(N(Non-CoCoCooontn acacacaca t tt TyTyyypepe))

Using TaTaachchcchc omo etterer byby Commmommppappaparrririsson MeMeMeMeMethththththododddd

1 1 rprprpppm m m totoo 6 66660 00 0 0 rprrr mm 0

CAL--RATIONONONONON ED

TaTaTaTaT chchomomooo eteteete erer(N(N(N(N(Noononoo ---CoCoCoCC ntnntn acact t TTTyType)

UsUsUsUsUsininininingggg TaTaaaacchc omomomommeter by CommpppapparisososossonnMethod

606060 rr rrrpmpmpmpm tt o 60606000000000000 rprppppmmmmm 0

L-ATURRRRREEEEE

TeTTTeTempmppppereratatatatururee Seensnsnsnsnsoroo (R(R(R(R(RTDTDDDD,, , ThThhherermomocoupuppppllelele) wiwith/w/wwwwitititi hohooooututuu IIndndnn icatatatatatorooror/// Coontntrorollllllerere / / DaDaD tata Logogogoggger, GlGlGlGlGlasasasasasss ThThThhherere momomemeteteeer,r,r,r,r, TeTeeeempmpmpmpmpeerereeratatatatuururu e e GaGaGaGaGauguge,e,e,e,e, Diiiigigigigigitatatatatal l l ThTTTThererrrrmomm mememememeteter,r, TeTeTT mpmppmpperererereraatataa ururururure e e SwSwSwSwSwititchch

UsUU ing gg g SPSSSPSPSPRTRTRTTT FFF F lukekekee 88888884646666 & & & Fluke 522225252 BB wwwiwiwiththh L iquiuiuiuuidddd BaBaBaBaaththththth,, OiO lBaattththth anndndndnd D Dry BBlolo kck CaCaCaaalililill braatatata or by cccococompmpmppparararararisisisonononon m m mmeteteee hhodd

(((((----) ) 90909099 ° °C CCCC tooooo 00 0 00 ° ° °°°CCCCC 0

L-ATURE

TeTeTeTeTempmperereeratataata ururrre e e Seensnsnsssororooror (R(RRTDTDTDTDTD, ThThherererere mom coupplele)) withh/w/w/w/w/wititititithoh utu Indicator/Controolllllllereeerer/ / Data Loggegegegeger, Glass Therrrrmomomomomommemm ter, Temperature GaGaGaaG uguguguguge,e,e,e,e, Digital Thermomooomememmm ter, Temperaturre e e SwSSSwS itch

UsUsUsUsUsininninng g gg SPSPPPPRTRT F Fluluukekekekeke 88884646 & &&&& F FFFFlulullukekekekee 5 55252 B wiwithth L Liqiquiuid Bath, Oil BaBaBaBaBathththhh a aa andndndndnd D ryy B BBBBlock CCaCaCaC liliibrbbratata ororooo bycomparison metetetetethohohohohoddddd

0 0 000 °C°CCCC tttt toooo o 95959959 °C°C°C°C°C 0

L-ATURE

Temperaturre ee ee Sensor (RTD, Thererererermmmmmocouplelee))) )) with/withooooouuuut Indicatatttororororo // Controllllerereerer// // DaDaDaDaD tatatata L LLLogooogo ger,

Using SPRTTTT F F FFluke 8846 & Fluke e 5525255 5B with Liquid Baththhh, ,,, Oil Bath and Dry BBloooockckckckk

9959599 °C to 150 °C 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)





150 °C to 300 °C 0.172 °C




300 °C to 550 °C 1.61 °C




550 °C to 900 °C 2.67 °C




900 °C to 1150 °C 2.752 °C


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L-ATURREEE

Tempmpeeratatatataturure e e e SeSeSeSeensnsoor (R(R(R(R(RTD, ThThThThT errrrmomomm cocooupuple) ))wiwiwww thth/w/wititititi hohoututututu I Indndiciccatatatatatooororo ///// CCoCoCoC ntntrororororollllerer// / / DaDaatatataa L Loggegeeeer,r GlGlGlGlGlasasaa s s s ThThhherereee momoooommmem ter, TeTeTeTeTempmpmpppereratatta urure e GaGaaaaugge,e,e,,e,, DiDiDDD gigigg tataaaal l ThThherermmomememmemeteteteteter, TeTeTeTeTempmppppereree atatatatturure e Switititchchchchch

Using SPSPPPRTRTRRR Flukeke 888 466 & &&&& FFF FFluuuuukek 525B BBBwiwiwiwiwiththththth LLL LLiqiqqqquiuiuiuiuid dddd BaBaBaaatththth, , OiOiOO l l BaBaBaBaB ththhthh aaaa andnddd D ryyyyy B Blockckkkk Caliibbrattooooror byyyyycomparisissssonoooo mmmmmeteteee hoh dd

151550 0 00 0 °C°C t tto o oo 30303030300 °C°CCCC 0

L-ATURREEEEE

TeTeTTeTempmppeereree atatururu e e Sensssssoooro (RTDD, , TThThT ererrmomococ upuppupplele) wiwiwiwiw ththhthth/w/w// itithohohhh ututttt I IIndndicicatattttoooor/CoCoCoCoontntntntn rorooorollllerereree / / /// DaDaatatatta L Logogggggegeggg rr, GlGllllasasasasass s ThThThThThererrrrmomommm mememememeteter,rr, TeTeeempmpmpmpmperererererataata urure e eee GaGaG uguguggge,e, DiDiDDD giitataaaal l ll l ThThThThTherereeermmmomememeeteter,r, TeTeTeTemmpmm ererratatatataturururururee e Switchchhhh

UUUsUUsininnnnggg g SPRT Fluuukekekkk 888888464464646 & FFFlFlF ukuke e 52525B55B55 wiw th Liqqiqqquiuid d Baththh, , OiOil l BaBaBaBaaaththththth aaaaandnd D Dryry B BBBlolockck CCaCaC lilibrbrbbb atattaatororr b bbby yy cocompmpararisisononooo m metettetethohohohohoddd

30300 0 0 0 °C°CCC t t o 5555550 00 00 °°°C° 1

L-ATURE

Teempmpmpmpmpere atatuure Sensor (RTDD, , ThThThTThere mocouplee) ) with/witithohoooouutututut I Indndicatorrrrr//// /Controller/ DaDaDaDaatatatatata L L L Logogo geger, Glass Thermoomemememem teteteteterrr,, Temperature GaGaGGaGauge, Digital Therrmommmm meter, Temperaturrrrre eeee Switch

UsUsUsUsUsininininng gggg SPSPSPSPSPRTTRTR Fluke 8888888888464646466 & & && F F F FFlulll kee 5 525B wiwiwwiw ththhhh LL iqiqqiquiuuuiuidd Baaaaatthththt , Oil BaBaBaBathth a andndnddnd Dry BBloockckkkck CaCalilibrbratattororororor bb bb byyyyycocompmpararisiiisononononon m methodd

555550000 0 °C°C ttttto ooo o 900 °C 2

L-ATURE

Temperatatttturuuuu e Senssororororor (RTD, ThThThThTherermomococoupupupupuplellele) with/witithohoutut IIndndicicatator/

Using SPRT FFFFlululuukek 8846 & Fluke 52522225B5B with Liquid Bath OiOill

909000000 000 °C to 1150 °C 2











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Environmental Thermometer

Using SPRT with Data Logger & Cold Incubator by comparison method

(-) 20 °C to 50 °C 0.3 °C


Bath & Furnace Calibrator Using SPRT Fluke 8846 & Fluke 525B

(-) 90 °C to 0 °C 0.09 °C



0 °C to 100 °C 0.04 °C



100 °C to 140 °C 0.11 °C



140 °C to 540 °C 0.8 °C


Bath & Furnace Calibrator Using SPRT Fluke8846 & Fluke 525B

540 °C to 1200 °C 2.53 °C


Calibration of Refrigerator and Freezer

Using Standard RTD & (Minimum 9) Thermocouples with Data logger (Multi position)

(-) 90 °C to 0 °C 1 °C


Calibration of Refrigerator Using Standard RTD & (Minimum 9) Thermocouples with Data logger (Multi position)

0 °C to 10 °C 0.29 °C


Calibration of Incubator (Industrial)


0 °C to 70 °C 0.29 °C


Calibration of Oven Using Standard RTD & (Minimum 9) Thermocouples with Data logger (Multi position)

70 °C to 250 °C 2 °C


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L-ATURREEE

Enviiiroronmmmmmenentataaatal l ThThTTT ermomoooommem teteteet r r

Using SPSPPPRTRTRRR with h DaD ta LLLLogogogogoogggegeeer & Coldddd InInnnncucucucucubbbbab tototooorr rr r bybyb cococococompmpmpmpmpaaararisissssoonoo mmmmmethoh d dddd

((-) ) 2202022 °°C C C tototototo 55 5550 °C°CCCC 0

L-ATURRRRREEEEE

BaBaBaBaBathth & &&& F FFururuuu nanacecececec Calibraaaaatott r r Using SPSPPPPRTTTTT F Fluke 8846 & FFFFFlululul kekekeke 55 55 5252 BB

(((--) ) 90909090 ° °CCC CC tooooo 0 0 00 0 ° ° °°°CCCCC 0

L-ATURRRRREEEEE

BaBaBaBaB thth &&&&& FFFuuru nanaceeeece C C C C Caaaalalibbrararararattototot r Using SPRTRTRTRTT F F lukekekekeke 8888888 466666 & & && FFFFF Flululululukekekekeke 5 552525252525BBBBB

0 0 000 °C°CCCC t too 1100 0 °C°C°C°CC 0

L-ATURREEEEE

BaBaBBaB thh & &&&& FuFurnrnrnrnaca e Caaaaalil bratorr UUUsUUsininnnnggg SPRT Flukkekekk 888888464464646 & FFFFFlulukeke 552525555BB

10100 00 0 °C°CCCC tt o 14144440 0000 °°°C° 0

L-ATURE

BaBaBaBaBaththththth & & F FFFFururnananananacece C Calalalala iibi rator UsU ing SSSPSPS RT FFluluuukeke 888888888846466646 & &&&& F Flulukeke 5 5525252 BB

141414141 0 0 °C°C°C°C°C ttttto oo o 54545454540 0 0 °C 0

L-ATURE

Baaaaaththththth & &&&& F F FFFururru nanannn ceceee C C CC Calalibibbbibraraatotor UsUsU ining g SPSSSPRTRTRT F FFlulul kekeee88884646 & & F Flulullukeke 5 55552525252525BB

545454545 0 0 0 °C°C t to 120000 ° ° ° °°CC 2

L-ATURE

CCaCaCC librbrratatatatatioioooion n ofof R Refefefriririririgegeggg raraatototototorr r anannnd d ddd Freeeeezezezezezerrr

UsUsUsUsUsininning g g g StSttttananaaa dadaddad rdrdRTRTDD & & (M(Mininimimimmimuumumuu 9) ThThThThThererererermomomomomococoupuples wiwiwiwiwithththth DD D D Datatatataaaaa loggggggere (M(M(MM(Mululululultitittt popoooossssis tionn))))

(((((---) ) )) 909090900 ° ° ° ° CCC C C toto 0 0000 ° °CC 1

L-ATURE

Calibration ofofff ReReReReRefrfrfrfrfrigigigigererata or UsUsUUsinng StStSSttandardrdRTRTRTRTRTDDDD D &&&& & (M(M(M(M(Minininininimimimimimuuumum 9 9999) ) ) ) ) Thermocoouupupupuples with Data loooggggggggger (Multi positiononnnn)))))

0 0 °C to 10 °C 0

L-ATURE

Calibratiooooon nn nn of Incububatataaatoro (Industrtriaiaiaiaial)l)ll)

Using Standardrddd RTD & (Minimumummmm 99 99)) ) )Th l

0 °C°C°C°C°C t o 70 °C 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Temperature Indicator of Environment Chamber, Incubator, BOD Incubator, Liquid Bath Furnace, Oven and Freezer

Using SPRT and Fluke 525B by comparison method

(-) 190 °C to 660 °C 0.05 °C


Temperature Indicator of Environment Chamber, Incubator, BOD Incubator, Liquid Bath Furnace and Oven

Using S-Type Thermocouple and Fluke 8846A by comparison method

660 °C to 1200 °C 2 °C


Autoclave (only for the Non-Medical Purpose)

Using Nine Sensors Temperature with Data logger

80 °C to 140 °C 1 °C

67. THERMAL-SPECIFIC HEAT AND HUMIDITY

Digital/Analog hygrometer, RH/ Temperature Sensor with Indicator / Logger / Controller

Using Digital RH Indicator with Probe Calibrated at Standard Salt

11 %RH to 95 %RH @ 25 °C

0.7 %RH


Humidity Calibration Capsule

Using Digital RH Indicator with Probe

11.3 %RH to 97.6 %RH @ 25 °C

0.61 %RH


Environmental Chamber / RH Chamber / Climatic Chamber

Using Nine RH Datalogger

11 %RH to 95 %RH@ 0 °C to 70 °C

1 %RH


pline/ up









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L-ATURREEE

Tempmpeeratatatataturure e e e InInnInddiddid cacatot r of EnEnEEE vironmnmnmnn ennnnnt t t ChChhamamber,r, InInInInIncucubabaaaatotott r,r, B BBBBODOD InInnnncucucucucubbababab tottor,r,r,r,r, LiLiLiLiL ququq ididddd B Batattath h FuFuFurnrnrnrnaace, OvOvOvOvOvenen a andndnddd F Frereezezeee er

Using SPSPPPRTRTRRR andd FlF uke e 5252525252525B5B5BBB by yycocoooommmpmpm arrrrisssisisonoooo mmmmmetetethohohohhoddd

((-) ) 1191911 0 0 °C°C°CCC tt t t o o ooo 66600 0 0 0 °C°C 0

L-ATURRRRREEEE

TeTeTeTeTempmpmpppereratatta urure e InInnddiddd catotooooorrr r ooof EnEnEnEnE vivirorororoonmmmenent t ChChhhhamamammmbebeber,r,r,r,r, InInInnIncucuc bababababatooor,r,rr,r B BOOD IIncnccccubububub tataatoror, LiLiLiLiL ququididdd BB atath h hh FuF rnacccccee and Ovenn

Using SS-TyTyTyTyTyypepeee Thermocooupupppplelel andndnndnd FlFlFFF uku eee eee 88888888884646464464 AAAA A bybybybyyy cococococompmmppmparison mettthohohhh dd

666666 0 0 0 °C°C t tttto 12122220000000000 ° ° CC 2

L-ATURE

AuAuAuAuAutototototoclclavavvvve e (o(o(o(oonlnln y y fofor rr ththtt e NoNoNoNoonnnnn--MeMeMMM dididdid cacaccc l l PuPuPPPurprpososssse)e)e

UsU ing NNNiNiN nne SenennnsosorsrsTeTeTeTeeemmmpmpmpeeeereratatururee wiwiwwithth DDaDaD tata lllologgggerer

808080808 ° °C C C CC totooo 1 1 4040404040 ° ° CC 1

L- HEAT IDITY

DiDiigigigiigitatatatatal/l/l/l/l/AnAnAnAA alalogogggg h hygygggrroror mememm teter,r RHRHRRR // TeTeTeTeTempmpmpmpm eeerere ataturrre e e SeSensnsnsnssororororor wiwiwiwithththth I ndndiciccicicatatatatatoororo / Logggegegeeer r r // / Coontntntntntroror llere

UsUsining g DiDigigigggitatal l RHRHRHRHH InInInInndidid cacac totor r rrr wiwiwiw ththththth PP Prorobebebebebe CaCaCCC liliiiibrbbrb atatedd a aat t t StStStStStananananandadadadadardrdrdrdrd SSSaalt

1111111 % %%% %RHRHRHRHRH t too 955555 %%% % %RH @ @ @@@ 2525252525 ° ° ° ° °CCCCC

0

L- HEAT IDITY

Humimidididididitytytytyty C Calibration Capsulee

UsUsUsUsUsinininnng g g gg DiDiDiDiigigggg tal RHRH InInnInIndidiiiiccccacatotootorr r rr wwithh PPP Probee

11.3.3333 % %% % %RRHR to 97.6 %R%R%R%R%RHHHH H @ 25 °C

0

L- HEAT IDITY

Environmentaal l ChChCCC amamamammbebebebeber r rrr //// /RH Chamber ///// C CCClimatic cChamber

UsUsUsUsU inininnggg g g NiNiNiNiNinenenenene R R R R RH H HHHDaDD ttallloggererrrr

11 %RH to 95 %RH@ @ 0 °C to 70 °C

1











Measured/Instrument


Method or procedure




Capability(CMC)(±)


Site Facility


DC Voltage Using 6½ Digital Precision Fluke Multimeter 8846 A by Direct Method

50 mV to 100 mV100 mV to 100 V100 V to 900 V

0.01 % to 0.008 %0.008 % to 0.005 %0.005 % to 0.007 %


DC Current Using 6½ Digital Precision Fluke Multimeter 8846 A by Direct Method

10 µA to 100 µA100 µA to 400 mA400 mA to 1 A1 A to 9 A

0.35 %0.35 % to 0.064 % 0.064 % to 0.081 %0.081 % to 0.18 %


Resistance Using 6½ Digital Precision Fluke Multimeter 8846 A by Direct Method

1 � to 10 �10 � to 10 M�10 M� to 100 M�100 M� to 330 M�330 M� to 900 M�

0.07 % to 0.05 %0.05 % 0.05 % to 0.94 %0.94 % to 2.34 %2.32 %

4. ELECTRO-TECHNICAL-ALTERNATING CURRENT(Measure)

AC Voltage Using 6½ Digital Precision Fluke Multimeter 8846 A by Direct Method

50 Hz to 10 kHz10 mV to 330 V

50 Hz to 1 kHz330 V to 900 V

1.62 % to 0.17 %

0.17 % to 0.1 %5. ELECTRO-

TECHNICAL-ALTERNATING CURRENT(Measure)

AC Current Using 6½ Digital Precision Fluke Multimeter 8846 A by Direct Method

45 Hz to 5 kHz33 µA to 3A3 A to 9 A

3 % to 0.5 %2.7 % to 0.37 %

6. ELECTRO-TECHNICAL-TIME & FREQUENCY(Measure)

Frequency Using TTi, TF830Counter/timer by Direct Method

10 Hz to 25 MHz 0.02 %


pline/ up









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O-AL-

T

DCDCDCDD V Vololololltatagegeeee UsUsUsUsUsininininingg 6½6½6½½6½ D DDigigigggititti alalalll PrPrPrPrP ececceccisisisisisioion nn n n FluukukukkeMulttiimetettteeeeer 8888884846 A by Direcccttttt MeMeMeMethththththododooo

5050505050 m mV VV VV toto 1 1110000 mVV101000000 0 mVmVVVV to o 10100 0 000 V1010111 0 0 000 V V VV totototoo 99990000000000 V VVV V

000

O-AL-

T

DCDCDCDCDC C CCCCuruuruu rereeeentntn UsUsUUU inggg g gg 6½6½6½6½6½6½ DDD DDigigigigigitiiitalalalalal PPrPrPPrececcccisi ion FlukeMuMuMuuMulttltltltimi etettetterer 8884846 6 A AAAAbyb Direececece t t Methhododo

101110 µ µA A tototooo 10000000000 µ µ µµµAAA10100 0 0 0 µAµAAAA t o 404040400 0000 mAA404040404000 0 mAmAmAmAmA t to oooo 11 1 1 1 AAAAA1 1 111 A A AA totototoo 9 9 A A

0000

O-AL-

T

ReReeeesisisisisiststs anananananceceecece UUsUsU iningg 6½6½6½6½6 DD D Diigigi iititttaalal PrPrececisisioion n FlFlF ukukke e eeMuMuMuMM ltlttimimetetttereree 8888884848446 6 A A Abybbbby DDD DDiirirece t MeMeethththhhododododod

11 �� toto 1 10 �11010 �� tototototo 1 1 10 0 MM��1010101010 M M MMM�� ttotototo 1 10000000000 M M�101000000 0 0 0 MM� totoooo 333 330 M�33330 0 000 MM�� tttoto 900 M�

00002

O-AL-

ATING T

AC Vololllltatatataagegegege UsUsUsUsUsininninng g ggg 6½6½6½6½6½ Diggggitititititala PrPrPrPrPrecececisisioion nnnn FlukkeMMuMM lltiimeter 88446 6 6 6 AAA A A bybybybyby DD D D Diririririrececececect t ttt MeMeMeMeMethththththodod

500 H HHHHz z zzz toto 10 kHz1010101010 m V to 330 V

50 Hz to 1 kHz333 0 V to 900 V

1

0O-AL-

ATING T

AC Currentt Using 6½ DDDigigigiggitital Precision Flukkkkke ee eeMultimeter 8844466 6 6 A by Direct Methododddd

4545444 Hz to 5 kHz3333333 µ A to 3A3 A A AAA toto 9 A

32











Measured/Instrument


Method or procedure




Capability(CMC)(±)



DC Voltage Using Fluke 5502 A by direct method

1 mV to 100 mV100 mV to 1000 V

0.42 % to 0.011 %0.011 % to 0.007 %


DC Current Using Fluke 5502 A by direct method

1 mA to 100 mA100 mA to 1 A 1 A to 20 A

0.018 % to 0.019 %0.019 % to 0.055 %0.055 % to 0.13 %


Resistance Using Fluke 5502 A by direct method

1 � to 10 �10 � to 10 M�10 M� to 100 M�100 M� to 330 M�330 M� to 1.1 G�

0.16 % to 0.027 %0.027 % to 0.071 %0.071 % to 0.58 %0.58 % to 1.9 %1.9 % to 1.8 %


Insulation Resistance Using Megger CB101 by direct method

10 M�100 M�1 G�10 G�

2.4 %2.4 %2.4 %2.4 %


Capacitance Using Fluke 5502 A by direct method

1 kHz220 pF to 1 nF1 nF to 330 nf

100 Hz 330 nF to 110 µF

0.74 % to 0.77 % 0.77 % to 0.38 %

0.38 % to 0.70 %12. ELECTRO-


AC Voltage Using Fluke 5502 A by direct method

45 Hz to 100 kHz5 mV to 0.33 V

45 Hz to 10 kHz0.33 V to 330 V

45 Hz to 8 kHz330 V to 1000 V

4.3 % to 0.058 %

1.1 % to 0.068 %

0.068 % to 0.62 %


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O-AL-

T

DC VVVVolo taaaaagegeg Using FlFlukukukuke e 55022 A A byby dirrecececcecectttt t mmmmemethod

1 1 mVmVmVmm tto o 10101010100 0 0 0 mVVV1100 0 mVmmVm t tto o o 101010100000 VVVVV

00

O-AL-

T

DCDCDCDCDC C CCCCuururuu rereentnt Using FlFluukukukuke e 555555555502020 AA by direct mmetetetetethohh ddddd

111 1 mAmAAmA t to o ooo 1000 0 00 mAmAmAmAm1010111 0 0 00 0 mAmAAAA to o 1 1 A AA A A1 111 AA A toto 2 22220 AAAAA

000

O-AL-

T

ReReReReResisisissiststanannnnceceee UsU ing FFFlFlF uuke 555020200 AA bybybybybyy dddd diririreeeecectt memeththododoo

11111 �� totototoo 10 000 0 ��1011011 �� to 110 00 MMMMM��10101001 M M�� tot 100 MMMMM��10100 0 00 0 MMMMM�� totot 33030303030 M�33333333330 0 000 MMMMM�� totottt 1 1111.1.11 G�

00001

O-AL-

T

InInsususususulalatiiononnn R R RR Resesistancce e UsUsiing g gg MeMeMeMeggggggggerererere CBCBCBCBCB1010101010111 byby ddirect mememememeththththhododododd

100000 MM MMM��10000 000 MMM��1 GGGGG��1010101010 G�

2222

O-AL-

ATING T

Capacitance UsUsUsUsUsinininining g g g g FlFlFlFlFlukukukukukeeee e 55555555550202 AAAAA by direct mememememethod

1 kHz222 0 pF to 1 nF1 1 11 1 nFn to 330 nf

100000 0 0 HzH 3333333300 000 nnFnnn to 110 µF

00

0











Measured/Instrument


Method or procedure




Capability(CMC)(±)



AC Current Using Fluke 5502 A by direct method

10 Hz to 30 kHz 33 µA to 330 mA

10 Hz to 10 kHz 0.33 A to 3 A

45 Hz to 5 kHz3 A to 20 A

4.64 % to 0.26 %

0.26 % to 4.6 %

0.26 % to 3.55 %14. ELECTRO-


Phase angle Using Fluke 5502 A by direct method

10 Hz to 30 kHz 0° to 90° 0.26°


Power (Active)10 Hz to 10 kHz4 V to 550 V1 A to 20 A± 0.5 PF to UPF


4 W to 11 kW 14.4 % to 0.63 %

16. ELECTRO-TECHNICAL-TEMPERATURE SIMULATION(Source)

Type K ThermocoupleType J ThermocoupleType E ThermocoupleType T ThermocoupleType N ThermocoupleType C ThermocoupleType L ThermocoupleType R ThermocoupleType S ThermocoupleType B ThermocoupleRTD-Pt 385 (100 ohm)RTD-Pt 3916 (100 ohm)RTD-Pt 3926 (100 ohm)RTD-Pt 385 (200 ohm)


(-) 200 °C to 1300 °C(-) 200 °C to 1200 °C(-) 200 °C to 1000 °C(-) 200°C to 400 °C(-) 200 °C to 1300 °C0 °C to 2316 °C(-) 200 °C to 900 °C0 °C to 1700 °C0 °C to 1700 °C600 °C to 1800 °C(-) 200 °C to 800 °C(-) 200 °C to 800 °C(-) 200 °C to 630 °C(-) 200 °C to 630 °C

0.4 °C0.30 °C0.5 °C0.6 °C0.8 °C0.9 °C0.6 °C0.85 °C0.85 °C0.85 °C0.35 °C0.35 °C0.35 °C0.35 °C


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O-AL-

ATING G T

AC CCCCuurreeeeentnnt Using FlFlukukukuke e 55022 A A byby dirrecececcecectttt t mmmmemethod

10100 H H H z z totoo 3333 30 00 0 kHkHk z z 333 µµµµAAA A tooo 3 33333030303030 m m A

10100 H H Hz z totottoo 10 0 kHkHHHHz 0.0000 333333333 A A t tttto 3 33 33 AAAAA

4545444 H HHHHz z totoooo 55 k kkHzHzHzHz3 3 33 A A AA ttoto 2 22220 AAAAA

4

0

0O-AL-

ATING T

PhPhPPhP asse ee e e ananglglglgle e UUUsUUsininnnnggg g Fluke 55020202022 A A byyyyy d d d d diri eccccttt tt memeththododddd

1010 H HHz z totottt 330 0 0 kHkHkHkHkHz 0°0°0°00 t t to 9090909090°° 0

O-AL-

ATING T

PoPooowewewewewerr r rr (A(A(A(A(Actctivivve)e)eee1010111 HHz zzzz tototototo 1 10 0 000 kHkHkHHzzz4 4 44 VV V V tot 555050505050 V V V VV1 A AAAA totototto 2 0 0 AAAAA± 0.5 5 PFPFPFPFPF t t o o UPF

UsUsining g FlFlukukkke e 555555 0202020202 A AA bybybybyby didirerectcttt m m mm eteteeethohohh dd

44 44 4 W W WWW tototototo 1 11111 1 1 kWW 1

O-AL-ATUREON

Type KK T TThehehehehermrrrmoco oupllleeeeeType J Thermmmmmocococococouoououo plpleeType E ThermmoccocccououuuplplplplpleeeeeType T Thermmmocoooco oupleType N Theermrmrmrmr ocoupleType C Theeeeermrrrmr ocouplpleeeeeType L TThehehehehermocouuplplplplpleeeType RR ThTThTT erermomococooupupupupu leType SS TThehermrmococououple

UsUsUsUUsinininnng g g FlFlFlFluuuuuke 5555555555020 A bybybyby ddirirecececctt ttt mem thhodod

(((((-----) ) ) )) 202020202 0 °C to 1300 °C(((-) 2200 °C to 1200 °C(-) 200 °C to 1000 °C(-) 200°C to 400 °C(((((--) 200 °C to 1300 °C0 000 0 °C°C to 2316 °C(-)) ) )) 202022 0 °C to 900 °C00 °C°CCCC t to 1700 °C00 °C°C tto 1700 °C

000000000











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Time Using TTi, TF830Counter / Timer by Comparison Method

1 s to 10 Hours 0.24 s


Frequency Using GPS-2125Function generator by direct method

120 Hz to 25 MHz 0.012 %


Digital/Analog Vacuum Gauge / Vacuum Switch –Pneumatic


(-) 0.95 to 0 bar 0.47 mbar



Using Precision Pressure Indicator AEP Lab DMM by Comparison Method

0 to 1 bar 0.0008 bar














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O-AL-TIIMEMEMEMEM ENCYYYYY

Timee Using TTTTTTi,i,,ii, T TF8300CoC unnteteeeeerrrr r // / TTTTiTimer byyy CoCoCoCoCommmpmpm ararrisisisissonoo MeMeMMeM ththththhooododod

1 1 s s ss totot 1 10 0 00 HoHoHoHoH uuru ss 0

O-AL-TIIIMMMEMEM ENCYYYYY

FrFrFrFrFreqeqeee ueueuencncncccyy Using GPGPPPPS--222212125Functionnnn g gg gggennerererereratata orr by direct memeeeethththtt oddddd

1212111 0 0 00 HzHzzHzz t t o 2525252525 M MMMMHzHz 0

CAL--RE NG

DiDiDDD gitataal/l/l//l/AnAnalalaa ogogg Vacccccuuuuuum Gauguge e eee / / VaVacucuumum SSSSwiwwww tch ––PnPnPnPnPneueueueeumamaaaatitittt cc

UUUsUUsininnnnggg Precision Prrrrreesesesessurerereree I Indndicicatatoroooro FlF uke 7771717 8 8 by CoCoCoCoCoompmpmpmpmpaaararisisonon MMeMeM thth ddododd

((--) ) 0.0.00 9595555 t o 0 0 0 0 0 bababababar 0

CAL-RE NG

DiDiigigigigiitatatatatal/l/l/l/l/AnAnAnAA alalogogggg P Prereeessssss ururu e e GGGaGaG ugge eeee / / /// PrPrPrPrPreesesssurerere S S S SSwiwiitctctctctch h h h h–– PnPnPnPnP eumamamaaatititititiccc

UsUsining g PrPrececeeecisisioioon n nnnPrPrPrPP esesssusurereeee I I ndndndddicicatatororr AEAEAEAEA PP PPP LaLaLL b DMDMMM M MMM bbbbyb CoCoCoCoCompmpmpmmparararararisisisissonon MeMeMeMeM ththththhodododod

0 0000 totootoo 1 11 11 bb bbbaararaa 0

CAL-RE NG

Digital/AnAnnalalalalalogogogogog P Pressururururu e eGauge / Presssususususurerererere S S wiwitct h – Pneumatic

UsUsUUsU inininnng g g PrPrPrrPreeeece isioiooonn PrPrPrPresessusuuurereree Indiccata ororrorr FlFlFlFFlukukukukeee ee 71717171718888 8 bybybybyby CoCC mparisisononononon Method

11 1 1 1 bababababar r to 2 bar 0

CAL-RE NG

Digital/Analllllogoogoo Pressururururure eeGauge / PrPrPrPrPreessure SSSwiwiwww tct h– Pneuumamamamamatititiicccc

Using Precissioioioioon Pressure Indicacaaatotott r Fluke 718 by Comparison

2 2222 bbab r to 7 bar 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)








Using Precision Pressure indicator Keller by Comparison Method





0.1 mbar to 1 mbar 0.91 % rdg




1 mbar to 20 mbar 0.2 % rdg


Indicator of Centrifuge, Rotor, Vibration and Abrasion Machine

Using Tachometer 10 rpm to 30000 rpm 0.9 rpm

29. MECHANICAL-UTM, TENSION, CREEP & TORSION TESTING MACHINE

TTM, UTM (Tension Mode)

Using Load Cell as per ISO 7500–1

50 N to 200 kN 0.19 %


CTM, UTM (Compression Mode)


50 N to 200 kN 0.18 %


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CAL-RE NG

Digitatat l/l/l/Annnnnalaalogoggogog P PPPPreressssure GaGaGGG uge e / / /// Preseseee susurere Switcchhh h–– PnPneueuuuumamatititititicc

Using PrPrrecececeecisision PrP essusuuuurererererre innndndicator CrCrCrCrCrysysysysysttatatt l p2p2p2p2p2i i bybybyyy CoCoCoCoC mpmpmpmpmpararisisssson Meththodd

14144 b b b barar t to o o 707070707 b arar 0

CAL---RE NG

DiDiDiDiDigigig tataaaal/l/AnAnAnalalogog P PPPPressuruuururu eeeee GaGaGaGaG uguggggee eee / / PrPP esessus rerererere SS SS Swiiwitctctctctct hhhh ––––– PnPnP eueueeue mamamamaatiticc

Using PrPrrrreeceececissioioioioion n nnnPressure iindndndnddicici atttoorororor KeKeKKK llererererr bb bbbbyyyy yCCCoCCommmmpm arison MeMeMeeMetththththod

707077 bbbbarar t tttooo oo 1515550 0 0 0 0 bababbb r 0

CAL-RE NG

DiDiDiDiDifffffffffferereee enenntitititt alal P PPPPreressssururrrreeee GaGaGaGaaugugugugugeeeee

UsU ing PPPrPrP ece isioon n nnPrPrPrPrrresesessse sususuuurere i indndicicatataa oror bbybyb CoCompmparariiisisonnon MeMeththodod

0.0.000 1 1 11 mbmbmbmm arararar t t ttto oooo 1 1 111 mbmbarararaa 0

CAL-RE NG

DiDiDDD ffferrenenenenentititiialalalalal P PPPrressssssururuu ee GaGaGaGaauguguuu e

UsUsUsUU ininng g gg PrPrrrrececee isisisssioionn PrPrPPP esessusure iindnddicicccicatatatatatoro bybybybyby CCCCComomomomompppapaparirisos n MeMeMeMeM ththththhodododod

1 1 1 mbmbmbmbbararararar tttt to o 2020000 m m mbar 0

CAL-RATION ED

Indicatoorr ofofofofof CeCCCentn rifugegeeee, Rotor, Vibratitiononononon a a a a andndnnn Abrasion Macchihihhinennnn

UsUsUUsU inininnng g g TaTaTaaTacchommmmete er 1010101010 rr r rpmpm to 30000 rpm 0

CAL-NSION,

TTM, UTM ((TeTeTeTeTennsion Mode)

Using Loadadddd C C ell as per ISO 75000000000–1

505 N to 200 kN 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)



CTM, UTM (Compression Mode)


200 kN to 3000 kN 1.22 %

32. MECHANICAL-WEIGHING SCALE & BALANCE

Electronic Weighing Balance (Accuracy Class I & Coarser)Readability ≥ 0.001 mg

Using E1 Class Standard Weights as per OIML R-76

1 mg to 5 g 0.007 mg




5 g to 80 g 0.03 mg




80 g to 200 g 0.3 mg


Electronic Weighing Balance (Accuracy Class II & Coarser)Readability ≥ 1 mg


200 g to 1 kg 4 mg




1 kg to 6 kg 20 mg




6 kg to 20 kg 200 mg


pline/ up









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CAL-NSIONN,, , ,

CTM,MMM U UUTMTMTMTMTM ( ((CoCoCoCCommpmpmm reression n n nnMoMMMM de)

Using LoLooadadaada C ell asas pepeppp r ISSOO OOO O 75757555000 –1

202000 0 00 0 kNkN tototooo 3 33 3 000000 0 0 kNkNkkNk 1

CAL----G SCACAAAALELE CE

ElElEElE eceeectrtrtrtrrononicicic W Weieighghghghininnnng ggBaBaBaBaBalalancncncncnce e ((A(A((Accccuracy y ClCCC asa s II & & &&& Cooarararararseseer)r)))Reeadadabababaa ililitity y ≥ ≥ 0.0.000001 1 1 1 mmg

Using E1 CCCClalalalalasss StStSSS anddadadadad drdddrdrd WWW WWeieieighghghhhtststststs asasasass p ppppeeer OOOIMIMIMLL RR-7676767676

1 1 111 mgmgmgmgm t tooo o o 5 gg 0

CAL-G SCALELELELELE CE

ElElElElElececececectrtrononnnicicicii W WWWWeieie ghghining g g g gBaBaaaalaalalaancncncncnce e e (A(A(A(A(Accccurururururacacacaa y y ClCClCClasasass ss s s IIIII & CoCoCoCoCoararaaa seseseses r)r)ReReRRR adaddddabababababiililili ititty y y y y ≥ ≥ ≥ 00.000 010100 m mmgggg

UsUsUsinining EEE1E1E Classssss StStStStS anannndadadadadardrdrd W WW Weieieighghghgg tsts as pper OIMML L RRR--7676767676

5 5 555 g gg totototoo 8 80 0 000 ggggg 0

CAL-G SCALE CE

ElElElElElecece trtrononnnnicicicicic W WWWWeeighhininnnngg g ggBaBaaaalalalalalancncnnn e (A(AAAAccuracy CClasassss ss I I& Cooarararararsesesess r))Readababiliililititititty yyy y ≥ ≥≥≥ 0.0.1 mgg

UsUsUsUsUsininninngg g g E1E1111 C Clalassssssss StStStStStananananandadadadadardrdrdrdrd W WWWeighhts asas p pppperer O OIMIML R-76

8080808080 g g gg t tt ttooooo 20202020200 0 0 0 0 gggg 0

CAL-G SCALE CE

Electronic WWWeieieieieighghghghghininining g gBalance (Accururrracaaaca y ClClClClClasasasasass ss s sII & Coarser)Readability y ≥ ≥ ≥≥≥ 1 mg

UsUsUUsining g E2E2E2E22 Classss StStStStS anananndadadadadardrdrdrdrd WW W WWeieieieieighghghghghttttsts as per OIMMMMML LLLL R-76

22200 0 g to 1 kg 4

CAL-G SCALE CE

Electronicc WWWWWeighing gBalance (A(A(AAAccuracy y y ClClCCC aass II & Coaaarsrrsrsrsererererer)))))

Using E2 Claassssssssss Standard Weighghhhttst as per OIML RR-767677676

1 1 kgkgkkk to 6 kg 2











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Electronic Weighing Balance (Accuracy Class III & Coarser)Readability ≥ 5 g

Using M1 Class Standard Weights as per OIML R-76

20 kg to 100 kg 5 g




100 kg to 1000 kg 80 g




1000 kg to 3000kg 500 g




(-) 90 °C to 0 °C 0.12 °C




0 °C to 95 °C 0.05 °C


pline/ up









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CAL-G SCACAALELELELEL CE

Elecctrtrtt ooniccccc W W Weieieee ghghggg ining g BaBaBBB lancce e eee (AAAccccccc ururacacaa y y Classssss sIIIIIIIIIII I I & & CoCoCoCooararseseeeser)r)ReReReReR adadababaaa ililllitititity y ≥ ≥ 5 5 555 gg

Using M1M111 CClC assStS andadaaaardrdrdrdrd WWWWWeighgggg ts asss ppp pperer O OOOOIMIMIMIMIML L RRRRR--767677

20200 k kk k kg g totoo 1 11110000000000 kgg 5

CAL----G SCACACAAALELE CE

ElElElElEleeeecectrrtrrrononooo icicicc W Weieiighggg ingBaBaBaBaBalalancncnnn e e (A(Accccururrraaaca y y yyy CClClClClC asss ss s s sIIIIIIIIIII I & & CoCCCCoararararrsseser)r)ReReReReReadadddaaababa ilillitititi y y ≥ ≥ 10 g

Using M1M1111 Clallalalasss Standard WWWWWWeighghghghghtsttt asas pereerr O OOOOIMIMIMI L L L L RRRR-7676666

1010111 0 00 0 kgkgk t tt tto 1010101000000000000 k k g 8

CAL--G SCAAAAALLLELEL CE

ElEElecctrtrononoo icicccc W WWWeieiee ghg innnnng g Baalalalaaancnce e ee (A(Accccccccccururaca yy yy CClCC ass IIIIII II I I & & & & & CoCoararrrrseser)r)ReReeeeadadadadadabababababilililililitititty y y y y ≥ ≥ 505050505000 0 00 gg

UsUsUsUsUsininnnng g M1M1M1M11 CCC Cllalalaassssss StS andaarrrdrdr Weighghtts asasassss pp p p pererrrr O OIML RR---7676

10100000000 k kkkkgg g gg totoooto 3 333 3000000000kkggggg 5

L-ATURE

TeTeeempmpmpmpmperererererataataa urure e eee SeSeS nsnssssororrr (R(R(R((RTDTDDDD, ThThThThThererererrmomocoooupupupupplele) ) ))wiwiwiwiithththt /w/ itithohohohohoututututut I Indn icatatorororor/ / /Coontntntntntroror llerer/ /// / Data Loggeer,r Glasss s ThThThThTherermometer,, Temperratatataturuururure eeee GaGauge, Digital Thermomomomomomemememem tetet r,r, Temperature SwSwwwwitittititchchchchch

UsUsining g SPSPRTRTRR F FFluluuuukekekekeke 88888888 46466 & & F FFFFlulull kekekekeke 55 52525B B BBBwiwiwiwwiththththh LL LLiqiquid d BaBaaaBaththththt , Oil BaBaBaBaBaththththh aaaaandndndndnd D DDDryr Block CaCaCaCaCalililiibrbrbrbb atatatatororororo bycococococompmpmmpmpararararisissisisoon mmmmmeete hod

((((--) ) 9090909090 ° ° ° °°C CC CC toto 0 °°°°CCCCC 0

L-ATURE

Temperature SeSeSeSeSensor (RTD, Therrmomomomm couple) with/withouttttt I Inndicatorr/ // // Controllererrrr/ // / / Data Logogggggegeggg r, Glass ThhThhherere momomemeteteteeerr,r,rr Tempereratatururee GaGauguge

UUUsiiiing SSPSPRTRTRTRTRT Fluke8846 & Fllukukkkke e e 525 5B with Liquid BaBaBaBaBath, Oil Bath and Dry BBBBlolol ck Calibrator by comparison methohodd

0 0 °C to 95 °C 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)





95 °C to 150 °C 0.12 °C




150 °C to 300 °C 0.172 °C




200 °C to 300 °C 0.12 °C




300 °C to 550 °C 1.61 °C


pline/ up









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L-ATURREEE

Tempmpeeratatatataturure e e e SeSeSeSeensnsoror (R(R(R(R(RTD, ThThThThT errrrmomomm cocooupuple) ))wiwiwwwithth/w/wititititithohoututututu I Indndiciccatatatatatooororo //// /CoCCoCoC ntntrorooroollllererr// / / DaDaatatataa L Loggegeeeer,r GlGlGlGlGlasasaa s ss ThThhherereee momoooommmem ter, TeTeTeTeTempmpmpppereratattaturure e GaGaaaaugge,e,,,,, DiDiDDD gigigg tataaaal l ThThherermmomememmem teteteteter, TeTeTeTeTempmppppereree atatatatturure e Swititititchchchchch

Using SPSPPPRTRTRRR Flukeke 888 466 & &&&& FFF FFluuuuukek 525B BBBwiwiwiwiwiththththth LLL LLiqiqqqquiuiuiuiuid dd BaBaBaaaththh, , OiOiOO l l BaBaBaBaB ththhthh aaaa andnddd D ryyyyy B Blockckkkk Caliibbrattooooror byyyy y comparisissssonoooo mmmmmeteteee hoh dd

95955 °C°C t to o o 151515151500 000 °CC 0

L-ATURREEEEE

TeTeTTeTempmppeereree atatururu e e Sensssssooooro (RTDD, , ThTThT erermomom coc uppppplele) wiwiwiwiwiththhthth/w/w// itithohohhh ututtt I IIIndndicicatattttoooor/CoCoCoCoontntntntn roroooollllerererere / / /// DaDaatatatata L Logogggggegeggg rr, GlGllllasasasasass s s ThThThThThererrerrmomommm mememememeteter,r,r TeTeeempmpmpmpmperererererataata urure e eee GaGaG ugugggge,e,, DiDiDDD giitataaaal l ll l ThThThThTherereeermmmomememeeteter,r, TeTeTeTemmpmm erratatatataturururururee e Switchchhhh

UUUsUUsininnnnggg g SPRT Fluuukekekkk888888464464646 & FFFFFlulukeke 5 52525555B Bwiw th Liqqiqqquiuid Baththh,, OiOil l BaBaBaBaaaththththth aaaanand DrDry y BlBlBB ocock k CCaCaC lilibrbrbbb atattaatororr b bbby yy cocompmpararisisononooo m metettetethohohohohoddd

15150 0 0 0 °C°CCC t t o 30300000 000 °°°C° 0

L-ATURE

Teempmpmpmpmpere ataturu e Sensor (RTDD, , TThThThThere mocouplee) ) with/witithohoooouutututut I Indndicatorrrrr//// /Controller/ DaDaDaDaatatatatata L L L Logogoo geger, Glass Thermoomememememeteteteteterrr,, Temperature GaGaGGaGauge, Digital Therrmommmm meter, Temperaturrrrre eeee Switch

UsUsUsUsUsininininng gggg SPSPSPSPSPRTTRTR Fluke8888888888464646466 & & && F F F FFlulll kee 5 525B wiwiwwiw ththhhh LL iqiqqiquiuuuiuid Baaaaaththtt , Oil BaBaBaBathth a andndnddnd Dry BBloockckkkck CaCalilibrbratattororororor bb bb byyyyycocompmpararisiiisononononon m methodd

202000000 0 °C°C ttttto ooo o 300 °C 0

L-ATURE

Temperatatttturuuuu e Senssororororor (RTD, ThhThThherermomococoupupppuplelelele) with/witithohoutut IIndndicicatatoro /

Using SPRT FFFFlululuukek8846 & Fluke 52522225B5B with Liquid Bath OiOill

303000000 000 °C to 550 °C 1











Measured/Instrument


Method or procedure




Capability(CMC)(±)





550 °C to 900 °C 2.67 °C




900 °C to 1150 °C 2.752 °C


Environmental Thermometer

Using SPRT with Data Logger & Cold Incubator by comparison method

(-) 20 °C to 50 °C 0.3 °C



(-) 90 °C to 0 °C 0.09 °C



0 °C to 100 °C 0.04 °C



100 °C to 140 °C 0.11 °C



140 °C to 540 °C 0.8 °C



540 °C to 1200 °C 2.53 °C


Calibration of Refrigerator and Freezer


(-) 90 °C to 0 °C 1 °C


pline/ up









*

C

L-ATURREEE

Tempmpeeratatatataturure e e e SeSeSeSeensnsoror (R(R(R(R(RTD, ThThThThT errrrmomomm cocooupuple) ))wiwiwwwithth/w/wititititithohoututututu I Indndiciccatatatatatooororo //// /CoCCoCoC ntntrorooroollllererr// / / DaDaatatataa L Loggegeeeer,r GlGlGlGlGlasasaa s ss ThThhherereee momoooommmem ter, TeTeTeTeTempmpmpppereratattaturure e GaGaaaaugge,e,,,,, DiDiDDD gigigg tataaaal l ThThherermmomememmem teteteteter, TeTeTeTeTempmppppereree atatatatturure e Swititititchchchchch

Using SPSPPPRTRTRRR Flukeke 888 466 & &&&& FFF FFluuuuukek 525B BBBwiwiwiwiwiththththth LLL LLiqiqqqquiuiuiuiuid dd BaBaBaaaththh, , OiOiOO l l BaBaBaBaB ththhthh aaaa andnddd D ryyyyy B Blockckkkk Caliibbrattooooror byyyy y comparisissssonoooo mmmmmeteteee hoh dd

555550 0 00 0 °C°C t tto o oo 90909090900 °C°CCCC 2

L-ATURREEEEE

TeTeTTeTempmppeereree atatururu e e Sensssssooooro (RTDD, , ThTThT erermomom coc uppppplele) wiwiwiwiwiththhthth/w/w// itithohohhh ututtt I IIIndndicicatattttoooor/CoCoCoCoontntntntn roroooollllerererere / / /// DaDaatatatata L Logogggggegeggg rr, GlGllllasasasasass s s ThThThThThererrerrmomommm mememememeteter,r,r TeTeeempmpmpmpmperererererataata urure e eee GaGaG ugugggge,e,, DiDiDDD giitataaaal l ll l ThThThThTherereeermmmomememeeteter,r, TeTeTeTemmpmm erratatatataturururururee e Switchchhhh

UUUsUUsininnnnggg g SPRT Fluuukekekkk888888464464646 & FFFFFlulukeke 5 52525555B Bwiw th Liqqiqqquiuid Baththh,, OiOil l BaBaBaBaaaththththth aaaaandnd D Dryry B BBBlolockck CCaCaC lilibrbrbbb atattaatororr b bbbyyycocompmpararisisononooo m metettetethohohohohoddd

90900 0 0 0 °C°CCC t t o 1111115050505050 °CC 2

L-ATURE

Ennvivivivivirorrroronmmenental Therrmomomomomomememmm ter

UsUsUsUsUsininininng gggg SPSPSPSPSPRTTRTR with DaDaDaDaDatatataaa L L L L ogogogogggeggg r & & Cold InInInInncucuuuubabababab totoototorrr r r by cocococompmpararrarisissssono mete hohooodd d dd

(--) )) 2220202 °C C CCC tototo 50 °C 0

L-ATURE

Bath & Furnacece C C CC Calalalalalibbibibbrararararatototottorrr rr UsUsining g ggg SPSPSSPSPRTRTRTRTRT F F F F Flululululukekekekeke8888884646464646 && & F Flululuuukeke 525BB

(-) 90 °C to 0 °C 0

L-ATURE

Bath & Furnanaaaace Calibraaaaatttotot r Using SPRTRTTTT F Fluke8846 & Flukekeee 5 5 25B

0 0000 °C to 100 °C 0

L-ATURE

Bath & Furururururnnace Calallibibbibibrar tor Using SPRT FFFlululuukek8846 & Fluke 552525222 BB

1000000 0000 °C to 140 °C 0

L Bath && Fururnanacece CCala ibrator Using SPRT Flukeke 141400 °C°C to 540 °C 0











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Calibration of Refrigerator Using Standard RTD & (Minimum 9) Thermocouples with Data logger (Multi position)

0 °C to 10 °C 0.29 °C


Calibration of Incubator (Industrial)


0 °C to 70 °C 0.29 °C


Calibration of Oven Using Standard RTD & (Minimum 9) Thermocouples with Data logger (Multi position)

70 °C to 250 °C 2 °C


Temperature Indicator of Environment Chamber, Incubator, BOD Incubator, Liquid Bath Furnace, Oven and Freezer

Using SPRT and Fluke 525B by comparison method

(-) 190 °C to 660 °C 0.05 °C


Temperature Indicator of Environment Chamber, Incubator, BOD Incubator, Liquid Bath Furnace and Oven

Using S-Type Thermocouple and Fluke 8846A by comparison method

660 °C to 1200 °C 2 °C


Autoclave (only for the Non-Medical Purpose)

Using Nine Sensors Temperature with Datalogger

80 °C to 140 °C 1 °C


Digital/Analog hygrometer, RH/ Temperature Sensor with Indicator / Logger / Controller

Using Digital RH Indicator with Probe Calibrated at Standard Salt

11 %RH to 95 %RH @ 25 °C

0.7 %RH


Humidity Calibration Capsule

Using Digital RH Indicator with Probe

11.3 %RH to 97.6 %RH @ 25 °C

0.61 %RH


pline/ up









*

C

L-ATURREEE

Calibrbrbb ata iooooon n ofofffof RRR R Reefefee ririgegeratooooorrrrr Using StSttanananaandad rd RTR D & & &&& (((M(M(M( iiinnimum 9999) ) ThThThThThereererermomoooocococococoupupleleeeless wiwwiwiw ththhh DD D DDatataaaaa logggggggggger (Mulltti popooossssis tioooonon))

0 0 °C°C°CC°C ttoo 10101000 ° °° ° CCCCC 0

L-ATURRRRREEEE

CaCaCaCaCalilibrbrbrbrbratatioioon n ofof I Inncnnn ubatatatatattoororor (I(I(I(I( ndndnn ususususstrtriaiaal)l)l

Using StSttttaananaandadadadardrdrdrdrd RTD & (MMininnnimimimimimummmmm 9 9 9 9) ) )ThThTTT ermomomomomom cococococoupupupupuplleleleles ss s wwwiwwithth DD ata loggggggggerrr (MMMMMuululululti pooooosisititionon))

00 00 °C°CCC t to o 7707077 ° °CCCCC 0

L-ATURE

CaCaCaCaCalililililibrbrbb atattioioioioon n ofofoofo O Ovevennnnn UsU ing SSStStS aandardrddd RTRTRTRTRTTDD DDD &&&& & (M(Mininimimumumuu 99) ) TTThTherermomococoupupllelelesss wiwithth D Datataa lolol gggggggererererer (M(M(MM(Mululltiti popoooosisiss titioononoo )))

707070707 ° °C C C CC totoooo 22 2 5050505050 ° ° CC 2

L-ATURE

TeTeTeTempmpmm erratatatataturururururee e Indicacatotototoor r r ofofo Ennvivivivivirorrroronmmenent Chamber,r Incubabaaaatototototor,r, BOD Incububata orr, , Liquid BBatatattthh hh h FuFFFurnrnace, Oven and FFrereeeeezezezezezereererer

UsUsUUU ining g SPS RTRTT a aaaandndndndnd FlFlFlFlFlukukukukuke eeee 52525252525B5B5B55 by cococococompmpmpmpmpararararisisisissoonoo mmete hod

(((((--) ) ) ) ) 1191919190 °C°CC° t ttttoooo o 660 °C 0

L-ATURE

Temperature InInnndididdd cacaaatooototorrrrr ofofofofof Environment ChChChChChamber,r, Incubator, BBBOODOOO Incubatatatata ooooro , Liquid Bath h hh FFFFuF rnace anananaa d Oven

UsUsUsUUsinininnggg g g SSSSS-TyTyTyTyTypepepepepe ThThThermocoouupupupuplle and Fluke 884666A AAAA byb comparison mmmmmethod

660 °C to 1200 °C 2

L-ATURE

Autoclavavvvve e eee (o(o((( nlnly yy fofor rr r r ththttt e Non MeMedidicacall PuPurpr oose)

Using Nine Sennsososss rsrsTemperature withh

8080 ° °°°CC CC to 140 °C 1











Measured/Instrument


Method or procedure




Capability(CMC)(±)



Environmental Chamber / RH Chamber / Climatic Chamber

Using Nine RH Datalogger

11 %RH to 95 %RH@ 0 °C to 70 °C

1 %RH

* CMCs represent expanded uncertainties expressed at approximately the 95% level of confidence, using a coverage factor of k = 2.


pline/ up









*

C

L- HEAAT T TTIDITYYYYY

Enviiiroronmmmmmenentataaatal l ChChCCC amamber / / / // RHRHRRR Chahaaaambmbmbbereree / / C CClilimmatic ChChChCC amambebebbb rr

Using NiNiinenenenne RHDaD talolooogggggggggggeererrr

1111 % % % %RHRHH tttt too o oo 959999 %%%%RRHRHRR@ @ @@@ 0 0 00 °C° ttto o o 7070707070 ° ° C

1

expanannnndddded d unununununcecertrttttaiaiaaa ntnttieieii s s exexexexppresseseseseed d aatataa a aaaapppppppppprorororooxxxiximamamamamatelylylylyy theh 9995%5%55%5 l leveeeve elell o o ooof coconfnffffidenennnnccecc , us

National Accreditation Board for Testing and Calibration...

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