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Element Metech AB

Accreditation no: 0012

Org no:
556080-0210
Postal address:
Box 1340, 581 13 Linköping
Visiting address:
ASJ-vägen 7, 581 13 Linköping · Show on map
Business unit

Calibration, SS-EN ISO/IEC 17025:2018

Latest decision date: 2025-11-03

MätstorhetMetod/procedurProdukt/objektParameter/EgenskaperUtvidgad mätosäkerhet ±Utrustning/MätprincipMätområde/mätnivåAnmärkningFlexBusiness unit
CapacitanceInhouse method; T/2004:PMM2214Capacitance showing-0,0027·c - 0,0058·cCapacitance measurement on multimeter with calibrator11 nF - 110 nFc=genererad kapacitans
CapacitanceInhouse method; T/2004:PMM2214Capacitance showing-0,0027·c - 0,0081·cCapacitance measurement on multimeter with calibrator110 nF - 110 µFc=genererad kapacitans
CapacitanceInhouse method; T/2004:PMM2214Capacitance showing-0,012·c - 0,0027·cCapacitance measurement on multimeter with calibrator1 nF - 11 nFc=genererad kapacitans
CapacitanceInhouse method; T/2004:PMM2214Capacitance showing-0,047·c - 0,012·cCapacitance measurement on multimeter with calibrator0,33 nF - 1 nFc=genererad kapacitans
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-120·10⁻⁶·c - 1900·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard100 pF < c < 1 µFTest frequency 100 Hz, 400 Hz, 1 kHz, 10 kHz, 100 kHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-200·10⁻⁶·c - 1800·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard10 µF < c < 100 µFTest frequency 100 Hz, 1 kHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-200·10⁻⁶·c - 1800·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard10 µF and 100 µFTest frequency 100 Hz, 1 kHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-210·10⁻⁶·c - 1800·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard10 µF and 100 µFTest frequency 100 Hz, 1 kHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-340·10⁻⁶·c - 740·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard10 nF, 100 nF and 1 µFTest frequency 100 Hz, 400 Hz, 1 kHz, 10 kHz, 100 kHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-380·10⁻⁶·c - 2900·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard1 pF < c < 100 pFTest frequency 100 Hz, 400 Hz, 1 kHz, 10 kHz, 100 kHz, 1 MHz, 2 MHz and 3MHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-47·10⁻⁶·c - 12000·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard1 pF, 10 pF, 100 pF and 1 nFTest frequency 100 Hz, 400 Hz, 1 kHz, 10 kHz, 100 kHz, 1 MHz, 2 MHz and 3 MHz
CapacitanceInhouse method; T/2012:PMM8865Capacitance generating-51·10⁻⁶·c - 5100·10⁻⁶·cMeasurement of capacitance by comparison with capacitance standard1 pF, 10 pF, 100 pF and 1 nFTest frequency 100 Hz - 13 MHz
CapacitanceInhouse method; T/2012:PMM8866Capacitance showing-210·10⁻⁶·c - 1800·10⁻⁶·cGenerate capacitance with capacitance standard10 µF and 100 µFTest frequency 100 Hz, 1 kHz. Uncertainties has been calculated with a test voltage of 1 VRMS. Maxim
CapacitanceInhouse method; T/2012:PMM8866Capacitance showing-340·10⁻⁶·c - 740·10⁻⁶·cGenerate capacitance with capacitance standard10 nF, 100 nF and 1 µFTest frequency 100 Hz, 400 Hz, 1 kHz, 10 kHz, 100 kHz. Uncertainties has been calculated with a test voltage of 1 VRMS. Maximum test voltage is 10VRMS.
CapacitanceInhouse method; T/2012:PMM8866Capacitance showing-51·10⁻⁶·c - 5100·10⁻⁶·cGenerate capacitance with capacitance standard1 pF, 10 pF, 100 pF and 1 nFTest frequency 100 Hz to 13 MHz. Uncertainties has been calculated with a test voltage of 1 VRMS. Maximum test voltage is 10VRMS.
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,00011*g to 3E-005*gConductance measurement on multimeter with calibrator100 µS - 1 µSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,00011*g to 3E-005*gConductance measurement on multimeter with calibrator100nS - 1µSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,00011*g to 3E-005*gConductance measurement on multimeter with calibrator100nS to 1µSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,00046*g to 0,00011*gConductance measurement on multimeter with calibrator10 nS - 100 nSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,00046*g to 0,00011*gConductance measurement on multimeter with calibrator10nS - 100nSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,0079*g - 0,00046*gConductance measurement on multimeter with calibrator5 nS - 10 nSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-0,0079*g - 0,00046*gConductance measurement on multimeter with calibrator5nS - 10nSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-2,6E-005*g to 2,7E-005*gConductance measurement on multimeter with calibrator10µS - 2mSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-3E-005*g to 2,6E-005*gConductance measurement on multimeter with calibrator1 µS - 10 µSg=uppmätt konduktans
ConductanceInhouse method; T/2004:PMM2213conductance showing-3E-005*g to 2,6E-005*gConductance measurement on multimeter with calibrator1µS - 10µSg=uppmätt konduktans
CurrentInhouse method; T/2004:PMM2210Current showingDC0,0039*i to 0,0040*iGenerate DC current with calibrator, measure with current clamp±1 mA - ±20 A0 A - ±1000 A
CurrentInhouse method; T/2004:PMM2210Current showingDC0,0040*i to 0,0017*iGenerate DC current with calibrator, measure with current clamp±20 A - ±1000 A0 A - ±1000 A
CurrentInhouse method; T/2004:PMM2210Current showingDC0,80 nAGenerate DC current with calibrator0 A0 A - ±20,5 A
CurrentInhouse method; T/2004:PMM2210Current showingDC1,2E-005*i to 1,8E-005*iGenerate DC current with calibrator, direct measurement±1 µA - ±100 mA0 A - ±20,5 A
CurrentInhouse method; T/2004:PMM2210Current showingDC1,3E-005*i to 2,1E-005*iGenerate DC current with calibrator, direct measurement±100 mA - ±1 A0 A - ±20,5 A
CurrentInhouse method; T/2004:PMM2210Current showingDC2,1E-005*i to 5,7E-005*iGenerate DC current with calibrator, direct measurement±1 A - ±10 A0 A - ±20,5 A
CurrentInhouse method; T/2004:PMM2210Current showingDC5,7E-005*i to 6,5E-004*iGenerate DC current with calibrator, direct measurement±1 A - ±20 A0 A - ±20,5 A
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00011*i - 0,0047*iGenerate alternating current with calibrator, direct measurement10 mA - 100 mA10 Hz - 10 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00011*i - 0,0047*iGenerate alternating current with calibrator, direct measurement10 mA - 100 mA10 Hz - 30 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00011*i - 0,023*iGenerate alternating current with calibrator, direct measurement100 mA - 1 A10 Hz - 10 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00012*i - 0,0082*iGenerate alternating current with calibrator, direct measurement1,0 mA - 10 mA10 Hz - 30 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00012*i - 0,016*iGenerate alternating current with calibrator, direct measurement100 µA - 1,0 mA10 Hz - 30 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00017*i - 0,023*iGenerate alternating current with calibrator, direct measurement30 µA - 100 µA10 Hz - 30 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,00029*i - 0,023*iGenerate alternating current with calibrator, direct measurement1 A - 10 A10 Hz - 10 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0012*i - 0,023*iGenerate alternating current with calibrator, direct measurement10 A - 20 A45 Hz - 400 Hz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0012*i - 0,023*iGenerate alternating current with calibrator, direct measurement10 A - 20 A45 Hz - 5 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0012*i - 0,023*iGenerate alternating current with calibrator, measure with current clamp10 A - 20 A45 Hz - 400 Hz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0012*i - 0,023*iGenerate alternating current with calibrator, measure with current clamp10 A - 20 A45 Hz - 5 kHz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0018*i - 0,0022*iGenerate alternating current with calibrator, measure with current clamp200 A - 1000 A45 Hz - 400 Hz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0019*i - 0,0042*iGenerate alternating current with calibrator, measure with current clamp10 A - 200 A45 Hz - 400 Hz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0041*i - 0,0041*iGenerate alternating current with calibrator, measure with current clamp1 A - 10 A45 Hz - 400 Hz
CurrentInhouse method; T/2004:PMM2211Current showingAC0,0041*i - 0,0043*iGenerate alternating current with calibrator, measure with current clamp1 mA - 1 A10 HZ - 400 Hz
CurrentInhouse method; T/2006:PMM3454Power generatingDC0,0000096µAMeasurement of direct current0 µA0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC0,00014*i to 0,00015*iMeasurement of direct current100 A - 500 A0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC1,1E-005*i to 3,0E-006*iMeasurement of direct current1 mA - 10 mA0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,6E-006*i to 2,7E-006*iMeasurement of direct current10 µA - 100 µA0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,6E-006*i to 2,7E-006*iMeasurement of direct current10 µA - 100 µA0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,6E-006*i to 5,6E-006*iMeasurement of direct current1 00 mA - 1 A0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,6E-006*i to 5,6E-006*iMeasurement of direct current100 mA - 1 A0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,7E-006*i to 1,1E-005*iMeasurement of direct current100 µA - 1 mA0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,7E-006*i to 9,9E-006*iMeasurement of direct current100 µA - 1 mA0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,8E-006*i to 2,6E-006*iMeasurement of direct current1 0 mA - 100 mA0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC2,8E-006*i to 2,6E-006*iMeasurement of direct current10 mA - 100 mA0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC3,0E-006*i to 4,0E-006*iMeasurement of direct current10 mA - 100 mA0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC4,0E-006*i to 5,6E-006*iMeasurement of direct current100 mA - 1 A0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC5,6E-006*i to 6,3E-006*iMeasurement of direct current1 A - 10 A0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC5,6E-006*i to 6,3E-006*iMeasurement of direct current1 A - 10 A0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC6,3E-006*i to 0,00014*iMeasurement of direct current1 0 A - 100 A0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC6,3E-006*i to 0,00014*iMeasurement of direct current10 A - 100 A0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC6,3E-006*i to 0,00014*iMeasurement of direct current10 A - 100 A0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC69E-006*i to 310E-006*iMeasurement of direct current300 A - 3000 A0 A - ±3000 A, Zero flux gate sensor
CurrentInhouse method; T/2006:PMM3454Power generatingDC69E-006*i to 310E-006*iMeasurement of direct current300 A - 3000 AZero flux gate sensor
CurrentInhouse method; T/2006:PMM3454Power generatingDC70E-006*i to 82E-006*iMeasurement of direct current10 A - 300 A0 A - ±3000 A, Zero flux gate sensor
CurrentInhouse method; T/2006:PMM3454Power generatingDC70E-006*i to 82E-006*iMeasurement of direct current10 A - 300 AZero flux gate sensor
CurrentInhouse method; T/2006:PMM3454Power generatingDC70E-006*sf to 82E-006*sfMeasurement of scale factor0,001 A/A - 100k A/A0 A - ±3000 A, Zero flux gate sensor
CurrentInhouse method; T/2006:PMM3454Power generatingDC70E-006*sf to 82E-006*sfMeasurement of scale factor0,001 A/A - 100k A/AZero flux gate sensor
CurrentInhouse method; T/2006:PMM3454Power generatingDC9,9E-006*i to 2,6E-006*iMeasurement of direct current1 µA - 10 µA0 A - ±100 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC9,9E-006*i to 2,6E-006*iMeasurement of direct current1 µA - 10 µA0 A - ±500 A
CurrentInhouse method; T/2006:PMM3454Power generatingDC9,9E-006*i to 2,8E-006*iMeasurement of direct current1 mA - 10 mA0 A - ±100 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC±69 µACalibration of load control (CC mode) on DC power supplies30 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC±9,5 µACalibration of load control (CC mode) on DC power supplies10 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC±95 µACalibration of load control (CC mode) on DC power supplies100 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC0,031 µACalibration of load control (CC mode) on DC power supplies0,1 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC0,069 µACalibration of load control (CC mode) on DC power supplies30 mA0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC0,22 µACalibration of load control (CC mode) on DC power supplies0,3 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC0,31 µACalibration of load control (CC mode) on DC power supplies1 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6026Power generatingDC2,2 µACalibration of load control (CC mode) on DC power supplies3 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC±69 µACalibrate mains voltage regulation (CC mode) on DC power supplies30 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC±9,5 µACalibrate mains voltage regulation (CC mode) on DC power supplies10 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC±95 µACalibrate mains voltage regulation (CC mode) on DC power supplies100 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC0,031 µACalibrate mains voltage regulation (CC mode) on DC power supplies0,1 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC0,069 µACalibrate mains voltage regulation (CC mode) on DC power supplies30 mA0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC0,22 µACalibrate mains voltage regulation (CC mode) on DC power supplies0,3 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC0,31 µACalibrate mains voltage regulation (CC mode) on DC power supplies1 A0 A - 150 A
CurrentInhouse method; T/2007:PMM6028Power generatingDC2,2 µACalibrate mains voltage regulation (CC mode) on DC power supplies3 A0 A - 150 A
CurrentInhouse method; T/2012:PMM8658Power generatingAC130E-006*sf to 380E-006*sfMeasuring alternating current with a multimeter0.001 A/A - 100k A/A20 A - 2000 A, 50Hz, Zero flux gate sensor
CurrentInhouse method; T/2012:PMM8658Power generatingAC143·10⁻⁶·i - 270·10⁻⁶·iMeasuring alternating current with a multimeter10 A - 600 A50Hz, Zero flux gate sensor
CurrentInhouse method; T/2012:PMM8658Power generatingAC143·10⁻⁶·i - 270·10⁻⁶·iMeasuring alternating current with a multimeter600 A - 2000 A50Hz, Zero flux gate sensor
CurrentInhouse method; T/2012:PMM8658Power generatingAC210·10⁻⁶·i - 143·10⁻⁶·iMeasuring alternating current with a multimeter10 A - 600 A50Hz, Zero flux gate sensor
CurrentInhouse method; T/2012:PMM8658Power generatingAC350·10⁻⁶·i - 1267·10⁻⁶·iMeasuring alternating current with a multimeter±2,0 mA - ±300 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8658Power generatingAC350·10⁻⁶·i - 1267·10⁻⁶·iMeasuring alternating current with a multimeter2,0 mA - 300 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8658Power generatingAC358·10⁻⁶·i - 1267·10⁻⁶·iMeasuring alternating current with a multimeter±30 µA - ±2,0 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8658Power generatingAC358·10⁻⁶·i - 1267·10⁻⁶·iMeasuring alternating current with a multimeter30 µA - 2,0 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8658Power generatingAC700·10⁻⁶·i - 3167·10⁻⁶·iMeasuring alternating current with a multimeter±300 mA - ±20 A10 Hz - 20 kHz
CurrentInhouse method; T/2012:PMM8658Power generatingAC700·10⁻⁶·i - 3167·10⁻⁶·iMeasuring alternating current with a multimeter300 mA - 20 A10 Hz - 20 kHz
CurrentInhouse method; T/2012:PMM8659Current showingAC17·10⁻⁶·i - 34·10⁻⁶·iGenerating alternating current with shunt±2,0 mA - ±20 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8659Current showingAC18·10⁻⁶·i - 73·10⁻⁶·iGenerating alternating current with shunt±200 µA - ±2,0 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8659Current showingAC22·10⁻⁶·i - 52·10⁻⁶·iGenerating alternating current with shunt±20 mA - ±300 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8659Current showingAC36·10⁻⁶·i - 90·10⁻⁶·iGenerating alternating current with shunt±300 mA - ±20 A10 Hz - 20 kHz
CurrentInhouse method; T/2012:PMM8659Current showingAC46·10⁻⁶·i - 70·10⁻⁶·iGenerating alternating current with shunt20 A - ±100 A10 Hz - 20 kHz
CurrentInhouse method; T/2012:PMM8659Current showingAC52·10⁻⁶·i - 303·10⁻⁶·iGenerating alternating current with shunt±30 µA - ±200 µA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8660Power generatingAC17·10⁻⁶·i - 30·10⁻⁶·iMeasurement of AC current with AC/DC transfer standard and shunts±2,0 mA - ±20 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8660Power generatingAC18·10⁻⁶·i - 73·10⁻⁶·iMeasurement of AC current with AC/DC transfer standard and shunts±200 µA - ±2,0 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8660Power generatingAC22·10⁻⁶·i - 56·10⁻⁶·iMeasurement of AC current with AC/DC transfer standard and shunts±20 mA - ±300 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8660Power generatingAC35·10⁻⁶·i - 90·10⁻⁶·iMeasurement of AC current with AC/DC transfer standard and shunts±300 mA - ±20 A10 Hz - 20 kHz
CurrentInhouse method; T/2012:PMM8660Power generatingAC46·10⁻⁶·i - 70·10⁻⁶·iMeasurement of AC current with AC/DC transfer standard and shunts20 A - ±100 A10 Hz - 20 kHz
CurrentInhouse method; T/2012:PMM8660Power generatingAC53·10⁻⁶·i - 200·10⁻⁶·iMeasurement of AC current with AC/DC transfer standard and shunts±30 µA - ±200 µA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8663Power generatingDC2,5·10⁻⁵·iMeasuring direct current with a multimeter and shunt100 A±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC2,9·10⁻⁶·iMeasuring direct current with a multimeter and shunt1 mA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC3,1·10⁻⁶·iMeasuring direct current with a multimeter and shunt10 µA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC3,1·10⁻⁶·iMeasuring direct current with a multimeter and shunt100 µA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC4,5·10⁻⁶·iMeasuring direct current with a multimeter and shunt1 A±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC4,5·10⁻⁶·iMeasuring direct current with a multimeter and shunt1 µA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC4,5·10⁻⁶·iMeasuring direct current with a multimeter and shunt10 mA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC4,5·10⁻⁶·iMeasuring direct current with a multimeter and shunt100 mA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8663Power generatingDC6,3·10⁻⁶·iMeasuring direct current with a multimeter and shunt10 A±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,1·10⁻⁵·iMeasuring direct current with a multimeter±100 µA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,3·10⁻⁵·iMeasuring direct current with a multimeter±1 mA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,4·10⁻⁴·iMeasuring direct current with a multimeter±1 A0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,6·10⁻⁵·iMeasuring direct current with a multimeter±1 mA±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,6·10⁻⁵·iMeasuring direct current with a multimeter±1 mA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,6·10⁻⁵·iMeasuring direct current with a multimeter±100 µA±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,6·10⁻⁵·iMeasuring direct current with a multimeter±100 µA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,7·10⁻⁵·iMeasuring direct current with a multimeter±10 mA±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,7·10⁻⁵·iMeasuring direct current with a multimeter±10 mA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,9·10⁻⁴·iMeasuring direct current with a multimeter±1 A±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC1,9·10⁻⁴·iMeasuring direct current with a multimeter±1 A0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC2,0·10⁻⁵·iMeasuring direct current with a multimeter±10 mA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC3,1·10⁻⁴·iMeasuring direct current with a multimeter±20 A0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC3,3·10⁻⁴·iMeasuring direct current with a multimeter±10 A0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC3,9·10⁻⁵·iMeasuring direct current with a multimeter±100 mA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,0·10⁻⁴·iMeasuring direct current with a multimeter±20 A±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,0·10⁻⁴·iMeasuring direct current with a multimeter±20 A0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,2·10⁻⁴·iMeasuring direct current with a multimeter±10 A±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,2·10⁻⁴·iMeasuring direct current with a multimeter±10 A0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,3·10⁻⁴·iMeasuring direct current with a multimeter±1 µA±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,3·10⁻⁴·iMeasuring direct current with a multimeter±1 µA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,4·10⁻⁵·iMeasuring direct current with a multimeter±100 mA±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC4,4·10⁻⁵·iMeasuring direct current with a multimeter±100 mA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC5,4·10⁻⁵·iMeasuring direct current with a multimeter±10 µA±0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC5,4·10⁻⁵·iMeasuring direct current with a multimeter±10 µA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC5,9·10⁻⁴·iMeasuring direct current with a multimeter±1 µA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8664Power generatingDC6,3·10⁻⁵·iMeasuring direct current with a multimeter±10 µA0 A - ±20 A
CurrentInhouse method; T/2012:PMM8667Current showingDC1,9·10⁻⁵·iGenerating direct current with shunt±100 A±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC2,3·10⁻⁶·iGenerating direct current with shunt±10 µA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC3,8·10⁻⁶·iGenerating direct current with shunt±10 mA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC3,8·10⁻⁶·iGenerating direct current with shunt±100 mA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC3,9·10⁻⁶·iGenerating direct current with shunt±1 µA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC4,6·10⁻⁶·iGenerating direct current with shunt±100 µA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC6,4·10⁻⁶·iGenerating direct current with shunt±1 mA±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC6,8·10⁻⁶·iGenerating direct current with shunt±1 A±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8667Current showingDC7,2·10⁻⁶·iGenerating direct current with shunt±10 A±1 µA - ±100 A
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC10·10⁻⁶·i - 60·10⁻⁶·ienerate AC/DC difference with reference standard10 mA - 100 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC15·10⁻⁶·i - 40·10⁻⁶·ienerate AC/DC difference with reference standard300 µA - 5 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC25·10⁻⁶·i - 51·10⁻⁶·ienerate AC/DC difference with reference standard200 mA - 500 mA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC30·10⁻⁶·i - 45·10⁻⁶·ienerate AC/DC difference with reference standard1 A - 3 A10 Hz - 10 kHz
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC35·10⁻⁶·i - 45·10⁻⁶·ienerate AC/DC difference with reference standard5 A - 20 A10 Hz - 5 kHz
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC50·10⁻⁶·i - 200·10⁻⁶·ienerate AC/DC difference with reference standard100 µA - 190 µA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8814Current showingAC/DC70·10⁻⁶·i - 300·10⁻⁶·ienerate AC/DC difference with reference standard30 µA10 Hz - 30 kHz
CurrentInhouse method; T/2012:PMM8862Current showingDC1,0·10⁻³·iGenerate direct current10 pA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC1,3·10⁻²·IGenerate direct current1 pA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC1,5·10⁻⁴·iGenerate direct current100 pA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC1,6·10⁻⁵·iGenerate direct current100 µA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC1,7·10⁻⁵·iGenerate direct current10 µA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC2,0·10⁻⁵·iGenerate direct current1 µA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC4,4·10⁻⁵·iGenerate direct current100 nA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC7,4·10⁻⁵·iGenerate direct current10 nA±1 pA - ±100 µA
CurrentInhouse method; T/2012:PMM8862Current showingDC7,5·10⁻⁵·iGenerate direct current1 nA±1 pA - ±100 µA
DampingInhouse method; T/2006:PMM3952Step damper-0,011 dBMeasuring attenuation with a signal analyzer10 dB - 40 dB50 MHz - 5 GHz
DampingInhouse method; T/2006:PMM3952Step damper-0,012 dBMeasuring attenuation with a signal analyzer50 dB - 80 dB50 MHz - 5 GHz
DampingInhouse method; T/2006:PMM3952Step damper-0,018 dBMeasuring attenuation with a signal analyzer90 dB - 120 dB50 MHz - 5 GHz
DampingInhouse method; T/2009:PMM7086Step damper-0,0065 dBMeasurement of attenuation with direct substitution of attenuation10 dB - 40 dB50 MHz and 100 MHz
DampingInhouse method; T/2009:PMM7086Step damper-0,0076 dBMeasurement of attenuation with direct substitution of attenuation50 dB - 70 dB50 MHz and 100 MHz
DampingInhouse method; T/2009:PMM7086Step damper-0,010 dBMeasurement of attenuation with direct substitution of attenuation80 dB - 120 dB50 MHz and 100 MHz
EffectInhouse method; T/2003:PMM1024Effect showing-0,11 % - 0,84 %Measuring power with a power meter-70 dBm - 20 dBmConnector N, 50 Ohm
EffectInhouse method; T/2003:PMM1024Effect showing-0,38 % - 1,8 %Measuring power with a power meter-30 dBm - 20 dBmConnector 3.5mm, 50 Ohm
EffectInhouse method; T/2003:PMM1024Effect showing-0,39 % - 2,4 %Measuring power with a power meter-30 dBm - 20 dBmConnector 2.4mm, 50 Ohm
EffectInhouse method; T/2003:PMM1024Effect showing-0,43 % - 2,2 %Measuring power with a power meter-30 dBm - 20 dBmConnector k, 50 Ohm
EffectInhouse method; T/2003:PMM1025Power-generating-0,11 % - 0,84 %Power reference standard calibration-70 dBm - 20 dBmConnector N, 50 Ohm
EffectInhouse method; T/2003:PMM1025Power-generating-0,38 % - 1,8 %Power reference standard calibration-30 dBm - 20 dBmConnector 3.5mm, 50 Ohm
EffectInhouse method; T/2003:PMM1025Power-generating-0,39 % - 2,4 %Power reference standard calibration-30 dBm - 20 dBmConnector 2.4mm, 50 Ohm
EffectInhouse method; T/2003:PMM1025Power-generating-0,43 % - 2,2 %Power reference standard calibration-30 dBm - 20 dBmConnector k, 50 Ohm
EffectInhouse method; T/2003:PMM1026Effect showing-0,17 % - 1,1 %Measurement of calibration factor with power reference standard0 dBmConnector N, 50 Ohm
EffectInhouse method; T/2003:PMM1026Effect showing-0,31 % - 3,2 %Measurement of calibration factor with power reference standard0 dBmConnector 2.4mm, 50 Ohm
EffectInhouse method; T/2003:PMM1026Effect showing-0,70 % - 2,2 %Measurement of calibration factor with power reference standard0 dBmConnector 3.5mm, 50 Ohm
EffectInhouse method; T/2003:PMM1026Effect showing-0,71 % - 3,2 %Measurement of calibration factor with power reference standard0 dBmConnector k, 50 Ohm
EffectInhouse method; T/2005:PMM3389Effect showing-0,11 dB - 2,4 dBGenerate power with power reference standard10 MHz - 50 GHz-
EffectInhouse method; T/2006:PMM3623Power-generating-0,012 dBMeasuring power with a signal analyzer-80 dB - 0 dBRelative power measurement
EffectInhouse method; T/2006:PMM3623Power-generating-0,015 dBMeasuring power with a signal analyzer-80dBm - 20dBmAbsolute power measurement
EffectInhouse method; T/2006:PMM3623Power-generating-0,024 dB - 0,33 dBMeasuring power with a signal analyzer-140 dB - -80 dBRelative power measurement
EffectInhouse method; T/2006:PMM3623Power-generating-0,025 dB - 0,33 dBMeasuring power with a signal analyzer-140 dBm - -80 dBmAbsolute power measurement
EffectInhouse method; T/2012:PMM8753Power-generating-0,028 % - 0,041 %DC power measurement101 µW - 10 mW, Frekvens: 0 Hz50 Ohm coaxial system DC
InductanceInhouse method; T/2012:PMM8867Inductance generating-100·10⁻⁶·l - 330·10⁻⁶·lMeasurement of inductance by comparison with inductance standard10 mH < l < 100 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-100·10⁻⁶·l - 330·10⁻⁶·lMeasurement of inductance by comparison with inductance standard100 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-140·10⁻⁶·l - 150·10⁻⁶·lMeasurement of inductance by comparison with inductance standard1 mH < l < 10 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-140·10⁻⁶·l - 150·10⁻⁶·lMeasurement of inductance by comparison with inductance standard10 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-170·10⁻⁶·lMeasurement of inductance by comparison with inductance standard1 HTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-170·10⁻⁶·lMeasurement of inductance by comparison with inductance standard100 mH < l < 1 HTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-370·10⁻⁶·l - 390·10⁻⁶·lMeasurement of inductance by comparison with inductance standard1 H < l < 10 HTest frequency 100 Hz - 1 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-370·10⁻⁶·l - 390·10⁻⁶·lMeasurement of inductance by comparison with inductance standard10 HTest frequency 100 Hz - 1 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-450·10⁻⁶·lMeasurement of inductance by comparison with inductance standard100 µHTest frequency 1 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-95·10⁻⁶·l - 400·10⁻⁶·lMeasurement of inductance by comparison with inductance standard1 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8867Inductance generating-95·10⁻⁶·l - 400·10⁻⁶·lMeasurement of inductance by comparison with inductance standard100 µH < l < 1 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8868Inductance display-140·10⁻⁶·l - 150·10⁻⁶·lGenerate inductance with inductance standard1 mH - 100 mHTest frequency 100 Hz - 10 kHz
InductanceInhouse method; T/2012:PMM8868Inductance display-370·10⁻⁶·l - 390·10⁻⁶·lGenerate inductance with inductance standard1 H - 10 HTest frequency 100 Hz - 1 kHz
InductanceInhouse method; T/2012:PMM8868Inductance display-430·10⁻⁶·lGenerate inductance with inductance standard100 µHTest frequency 100 Hz - 1 kHz
Reflection factorInhouse method; T/2012:PMM8749FinisherReflection Coefficient0,00012 UMeasurement of reflection factor of direct current0U - 1U, Frekvens: 0 Hz50 ohm coaxial system
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,000053 Ω - 0,00013 ΩResistance1 Ω100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,000064 kΩ - 0,00013 kΩResistance1 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,000080 kΩ - 0,00024 kΩResistance2 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,00015 kΩ - 0,00059 kΩResistance5 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,00029 Ω - 0,0012 ΩResistance10 Ω100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,00056 Ω - 0,0023 ΩResistance20 Ω100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,00064 kΩ - 0,0013 kΩResistance10 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,00080 kΩ - 0,0024 kΩResistance20 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,0014 Ω - 0,0059 ΩResistance50 Ω100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,0015 kΩ - 0,0059 kΩResistance50 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,0029 Ω - 0,012 ΩResistance100 Ω100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,0057 Ω - 0,023 ΩResistance200 Ω100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,0064 kΩ - 0,013 kΩResistance100 kΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,0083 mΩ - 0,23 mΩResistance100mΩ100Hz - 100kHz
ResistanceInhouse method; EL-CA-T-MOM-X-SOP108255Resistance generatingAC0,014 Ω - 0,059 ΩResistance500 Ω100Hz - 100kHz
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,0·10⁻⁵·rGenerate resistance with calibrator10 ohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,1·10⁻²·rGenerate resistance with calibrator1090 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,2·10⁻²·rGenerate resistance with calibrator640 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,3·10⁻²·rGenerate resistance with calibrator1090 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,3·10⁻²·rGenerate resistance with calibrator400 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,4·10⁻⁴·rGenerate resistance with calibrator100 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,5·10⁻⁵·rGenerate resistance with calibrator10 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR1,7·10⁻⁵·rGenerate resistance with calibrator10 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR2,6·10⁻⁶·rGenerate resistance with calibrator1 kohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR2,6·10⁻⁶·rGenerate resistance with calibrator10 kohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR2,7·10⁻⁶·rGenerate resistance with calibrator100 kohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR3,5·10⁻⁵·rGenerate resistance with calibrator1 ohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR3,6·10⁻⁶·rGenerate resistance with calibrator100 ohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR4,2·10⁻⁵·rGenerate resistance with calibrator1 ohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR4,4·10⁻³·rGenerate resistance with calibrator290 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR4,5·10⁻³·rGenerate resistance with calibrator290 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR4,7·10⁻⁶·rGenerate resistance with calibrator1 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR5,5·10⁻⁶·rGenerate resistance with calibrator1 kohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR5,5·10⁻⁶·rGenerate resistance with calibrator10 kohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR5,6·10⁻⁶·rGenerate resistance with calibrator100 kohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR6,2·10⁻⁶·rGenerate resistance with calibrator100 ohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR6,5·10⁻⁵·rGenerate resistance with calibrator100 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR7,5·10⁻⁶·rGenerate resistance with calibrator10 ohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2004:PMM2212Resistance showingESR7,6·10⁻⁶·rGenerate resistance with calibrator1 Mohm0 Ohm - 1100 MOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR1,2·10⁻⁵·rMeasuring resistance with a multimeter1 ohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR1,4·10⁻⁵·rMeasuring resistance with a multimeter1 ohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR1,7·10⁻⁴·rMeasuring resistance with a multimeter1 Gohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR1,8·10⁻³·rMeasuring resistance with a multimeter10 Gohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,0·10⁻⁵·rMeasuring resistance with a multimeter100 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,0·10⁻⁵·rMeasuring resistance with a multimeter100 Mohm100 MOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,2·10⁻³·rMeasuring resistance with a multimeter10 Gohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,4·10⁻³·rMeasuring resistance with a multimeter20 Gohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,4·10⁻⁵·rMeasuring resistance with a multimeter100 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,6·10⁻³·rMeasuring resistance with a multimeter20 Gohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR2,7·10⁻⁴·rMeasuring resistance with a multimeter1 Gohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,2·10⁻²·rMeasuring resistance with a multimeter100 µohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,2·10⁻³·rMeasuring resistance with a multimeter1 mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,2·10⁻⁶·rMeasuring resistance with a multimeter1 kohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,2·10⁻⁶·rMeasuring resistance with a multimeter10 kohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,3·10⁻⁴·rMeasuring resistance with a multimeter10 mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,3·10⁻⁶·rMeasuring resistance with a multimeter100 kohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,6·10⁻²·rMeasuring resistance with a multimeter100 µohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,6·10⁻³·rMeasuring resistance with a multimeter1 mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,6·10⁻³·rMeasuring resistance with a multimeter1 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,7·10⁻⁴·rMeasuring resistance with a multimeter10 mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,7·10⁻⁴·rMeasuring resistance with a multimeter10 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR4,7·10⁻⁶·rMeasuring resistance with a multimeter100 ohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR5,2·10⁻⁵·rMeasuring resistance with a multimeter100 mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR5,3·10⁻⁵·rMeasuring resistance with a multimeter100 mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR5,3·10⁻⁵·rMeasuring resistance with a multimeter100 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR5,6·10⁻⁶·rMeasuring resistance with a multimeter1 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR6,1·10⁻⁶·rMeasuring resistance with a multimeter10 ohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR6,5·10⁻⁶·rMeasuring resistance with a multimeter10 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR7,7·10⁻⁶·rMeasuring resistance with a multimeter100 ohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR7,8·10⁻⁶·rMeasuring resistance with a multimeter1 kohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR7,8·10⁻⁶·rMeasuring resistance with a multimeter10 kohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR7,8·10⁻⁶·rMeasuring resistance with a multimeter100 kohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR8,7·10⁻⁶·rMeasuring resistance with a multimeter1 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR8,8·10⁻⁶·rMeasuring resistance with a multimeter10 ohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2005:PMM3279Resistance generatingESR9,3·10⁻⁶·rMeasuring resistance with a multimeter10 Mohm0 Ohm - 20 GOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,0 10⁻⁶·rGenerate resistance with resistance standard100 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,1 10⁻⁵·rGenerate resistance with resistance standard1 Mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,2 10⁻⁴·rGenerate resistance with resistance standard100 Gohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,2 10⁻⁴·rGenerate resistance with resistance standard100 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,3·10⁻⁵·rGenerate resistance with resistance standard1 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,5·10⁻⁵·rGenerate resistance with resistance standard10 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,8 10⁻⁵·rGenerate resistance with resistance standard1 Gohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,8·10⁻⁴·rGenerate resistance with resistance standard1 Gohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR1,9 10⁻⁶·rGenerate resistance with resistance standard100 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR2,0 10⁻⁶·rGenerate resistance with resistance standard1 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR2,0 10⁻⁶·rGenerate resistance with resistance standard1 Mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR2,1 10⁻⁶·rGenerate resistance with resistance standard1 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR2,3·10⁻⁵·rGenerate resistance with resistance standard100 µohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR2,7·10⁻⁵·rGenerate resistance with resistance standard10 Mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR3,5 10⁻⁶·rGenerate resistance with resistance standard10 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR3,5 10⁻⁶·rGenerate resistance with resistance standard10 Mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR4,0·10⁻⁵·rGenerate resistance with resistance standard100 Mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR4,3·10⁻⁶·rGenerate resistance with resistance standard100 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR4,7 10⁻⁶·rGenerate resistance with resistance standard10 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,0 10⁻⁷·rGenerate resistance with resistance standard1 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,1 10⁻⁶·rGenerate resistance with resistance standard100 Mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,1 10⁻⁶·rGenerate resistance with resistance standard100 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,1 10⁻⁷·rGenerate resistance with resistance standard10 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,2 10⁻⁷·rGenerate resistance with resistance standard10 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,3 10⁻⁷·rGenerate resistance with resistance standard100 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,8 10⁻⁴·rGenerate resistance with resistance standard1 Tohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR5,9 10⁻⁶·rGenerate resistance with resistance standard1 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR6,4 10⁻⁵·rGenerate resistance with resistance standard10 Gohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR6,4 10⁻⁶·rGenerate resistance with resistance standard1 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR6,4 10⁻⁶·rGenerate resistance with resistance standard10 kohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR6,8·10⁻⁶·rGenerate resistance with resistance standard1 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR7,0 10⁻⁶·rGenerate resistance with resistance standard100 µohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR7,4·10⁻⁶·rGenerate resistance with resistance standard100 mohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR9,0·10⁻⁶·rGenerate resistance with resistance standard10 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8665Resistance showingESR9,0·10⁻⁶·rGenerate resistance with resistance standard100 ohm100 µOhm - 1 TOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR1,1 10⁻⁵·rMeasurement of resistance by ratio with resistance standard1 mohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR1,2 10⁻⁵·rMeasurement of resistance by ratio with resistance standard100 Mohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR1,3 10⁻⁶·rMeasurement of resistance by ratio with resistance standard100 kohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR1,6 10⁻⁴·rMeasurement of resistance by ratio with resistance standard1 Gohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR1,8 10⁻⁶·rMeasurement of resistance by ratio with resistance standard10 ohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR2,0 10⁻⁵·rMeasurement of resistance by ratio with resistance standard100 µohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR2,3 10⁻⁶·rMeasurement of resistance by ratio with resistance standard100 mohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR2,6 10⁻⁶·rMeasurement of resistance by ratio with resistance standard1 ohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR3,2 10⁻⁶·rMeasurement of resistance by ratio with resistance standard1 Mohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR4,5 10⁻⁶·rMeasurement of resistance by ratio with resistance standard10 Mohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR5,9 10⁻⁶·rMeasurement of resistance by ratio with resistance standard10 mohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR6,3 10⁻⁷·rMeasurement of resistance by ratio with resistance standard100 ohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR8,3 10⁻⁷·rMeasurement of resistance by ratio with resistance standard1 kohm0 Ohm - 2 GOhm
ResistanceInhouse method; T/2012:PMM8666Resistance generatingESR9,7·10⁻⁷·rMeasurement of resistance by ratio with resistance standard10 kohm0 Ohm - 2 GOhm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-± 2*arcsin(µ(|Γ|)/|Γ|) degMeasuring phase with network analyzerPhase, |Γ| > µ(|Γ|)|G| refl coeff magnitude, µ(|G|) uncertainty
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,0042 U - 0,0057UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, Frekvens: 100 kHz - 18 GHzConnector GPC7, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,0043 U - 0,0086 UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, Frekvens: 100 kHz - 18 GHzConnector N, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,0067 U - 0,0086 UMeasuring reflection factor with network analyzer|Γ|= 0.5 U, Frekvens: 100 kHz - 18 GHzConnector GPC7, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,0071 U - 0,011 UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, Frekvens: 100 kHz - 26.5 GHzConnector 3.5mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,0073 U - 0,014 UMeasuring reflection factor with network analyzer|Γ|= 0.5 U, Frekvens: 100 kHz - 18 GHzConnector N, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,011 U - 0,017 UMeasuring reflection factor with network analyzer|Γ|= 0.5 U, Frekvens: 100 kHz - 26.5 GHzConnector 3.5mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,013 U - 0,017 UMeasuring reflection factor with network analyzer|Γ|= 1.0 U, Frekvens: 100 kHz - 18 GHzConnector GPC7, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,013 U - 0,030 UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, Frekvens: 100 kHz - 50 GHzConnector 2.4mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,013 U - 0,038 UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, Frekvens: 100 kHz - 40 GHzConnector k, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,016 U - 0,028 UMeasuring reflection factor with network analyzer|Γ|= 1.0 U, Frekvens: 100 kHz - 18 GHzConnector N, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,020 U - 0,051 UMeasuring reflection factor with network analyzer|Γ|= 0.5 U, Frekvens: 100 kHz - 40 GHzConnector k, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,021 U - 0,043 UMeasuring reflection factor with network analyzer|Γ|= 0.5 U, Frekvens: 100 kHz - 50 GHzConnector 2.4mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,022 U - 0,034 UMeasuring reflection factor with network analyzer|Γ|= 1.0 U, Frekvens: 100 kHz - 26.5 GHzConnector 3.5mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,023 dB - 0,21 dBMeasuring attenuation with a network analyzer100 kHz - 18 GHzConnector GPC7, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,026 dB - 0,21 dBMeasuring attenuation with a network analyzer100 kHz - 18 GHzConnector N, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,029 dB - 0,21 dBMeasuring attenuation with a network analyzer100 kHz - 26.5 GHzConnector 3.5mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,034 dB - 0,21 dBMeasuring attenuation with a network analyzer100 kHz - 40 GHzConnector k, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,037 dB - 0,21 dBMeasuring attenuation with a network analyzer100 kHz - 50 GHzConnector 2.4mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,038 U - 0,089 UMeasuring reflection factor with network analyzer|Γ|= 1.0 U, Frekvens: 100 kHz - 40 GHzConnector k, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-0,046 U - 0,077 UMeasuring reflection factor with network analyzer|Γ|= 1.0 U, Frekvens: 100 kHz - 50 GHzConnector 2.4mm, 50 Ohm
S-parameterInhouse method; T/2012:PMM8730Coaxial 1-port or 2-port-180 degMeasuring phase with network analyzerPhase, |Γ| <= µ(|Γ|)|G| refl coeff magnitude, µ(|G|) uncertainty
S-parameterInhouse method; T/2012:PMM8730Waveguide 1-port or 2-port-0,0071UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, 8 GHz - 12,4 GHzWave guide x-band
S-parameterInhouse method; T/2012:PMM8730Waveguide 1-port or 2-port-0,0073UMeasuring reflection factor with network analyzer|Γ|= 0.2 U, 8 GHz - 12,4 GHzWave guide x-band
S-parameterInhouse method; T/2012:PMM8730Waveguide 1-port or 2-port-0,011 UMeasuring reflection factor with network analyzer|Γ|= 0.0 U, Frekvens: 12,4 GHz - 18 GHzWave guide p-band
S-parameterInhouse method; T/2012:PMM8730Waveguide 1-port or 2-port-0,012 UMeasuring reflection factor with network analyzer|Γ|= 0.2 U, Frekvens: 12,4 GHz - 18 GHzWave guide p-band
S-parameterInhouse method; T/2012:PMM8744Test port cable-0,0071 - 0,016 UCalibration of test port cable with network analyzerReflection coefficient50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8744Test port cable-0,21 dB - 0,27 dBCalibration of test port cable with network analyzerTransmission50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8745Power splitter-0,0056 - 0,012 UCalibration of power splitter with network analyzerReflection coefficient50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8745Power splitter-0,0076 - 0,016 UCalibration of power splitter with network analyzerEquivalent reflection coefficient50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8745Power splitter-0,025 dB - 0,054 dBCalibration of power splitter with network analyzerInsertion loss50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8745Power splitter-0,038 dB - 0,080 dBCalibration of power splitter with network analyzerOutput tracking50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8746Directional coupler-0,0063 U - 0,020 UCalibration of directional couplers with network analyzerDirectivity50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8746Directional coupler-0,0073 U - 0,021 UCalibration of directional couplers with network analyzerReflection coefficient50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8746Directional coupler-0,010 U - 0,026 UCalibration of directional couplers with network analyzerEquivalent reflection coefficient50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8746Directional coupler-0,024 dB - 0,052 dBCalibration of directional couplers with network analyzerCoupling50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8748SWR bridge-0,0046 U - 0,0096 USWR bridge calibration with network analyzerReflection coefficient50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8748SWR bridge-0,0054 U - 0,011 USWR bridge calibration with network analyzerTest port match50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8748SWR bridge-0,0062 U - 0,020 USWR bridge calibration with network analyzerDirectivity50 ohm coaxial system
S-parameterInhouse method; T/2012:PMM8748SWR bridge-0,022 dB - 0,050 dBSWR bridge calibration with network analyzerInsertion loss50 ohm coaxial system
SoughInhouse method; T/2003:PMM1330Noise source-0,14 dB - 0,20 dBNoise figure measurement4 dB - 30 dB10 MHz - 18 GHz
VoltageInhouse method; AMP0012/2006:PMM3459Voltage generatingAC8,7·10⁻⁴·u - 0,0022·uMeasuring scale factor on AC measuring systems with high voltage voltmeter0,1 kV < u < 30 kV45 Hz - 65 Hz
VoltageInhouse method; AMP0012/2006:PMM3459Voltage-generating/displayingAC2,0·10⁻3·uGeneration and measurement of high voltage AC with air capacitor measurement100 kV ≤ u ≤ 1,5 MV45 Hz - 65 Hz (u = uppmätt spänning [V])
VoltageInhouse method; AMP0012/2006:PMM3459Voltage-generating/displayingAC2,0·10⁻3·uMeasurement of scale factor on AC measuring system with air condenser measurement0,9 V/V < u < 100000 V/V100 kV ≤ u ≤ 1,5 MV, 45 Hz - 65 Hz (u = uppmätt spänning [V])
VoltageInhouse method; AMP0012/2006:PMM3459Voltage-generating/displayingAC5,0·10⁻⁴·sf -5,4·10⁻⁴·sfMeasuring scale factor on AC measuring systems with voltage dividers0,9 V/V < u < 100000 V/V45 Hz - 65 Hz, 0,75 kV < u < 330 kV, u= testspänning, sf=skalfaktor
VoltageInhouse method; AMP0012/2006:PMM3459Voltage-generating/displayingAC9,0·10⁻⁴·sf - 0,0016·sfMeasuring scale factor on AC measuring systems with high voltage voltmeter0,9 V/V < u < 100000 V/V0.10 kV < u < 30 kV, u= testspänning, sf=skalfaktor, 45 Hz - 65 Hz
VoltageInhouse method; AMP0012/2006:PMM3459Voltage-generating/displayingAC9,5·10⁻⁴·u - 0,0016·uMeasuring scale factor on AC measuring systems with voltage dividers0,75 kV < u < 330 kV45 Hz - 65 Hz, u= testspänning
VoltageInhouse method; AMP0012/2006:PMM3725Voltage-generating/displayingDC0,00031·uMeasuring scale factor on DC measuring systems with high voltage voltmeter0.010 kV < u < 150 kV-
VoltageInhouse method; AMP0012/2006:PMM3725Voltage-generating/displayingDC0,0012·sf - 0,0013·sfMeasuring scale factor on DC measuring systems with voltage dividers0,1 V/V < u < 100000 V/V150 kV < u < 400 kV, u= testspänning, sf=skalfaktor
VoltageInhouse method; AMP0012/2006:PMM3725Voltage-generating/displayingDC0,0012·uMeasuring scale factor on DC measuring systems with high voltage voltmeter150 kV < u <400 kV-
VoltageInhouse method; AMP0012/2006:PMM3725Voltage-generating/displayingDC3,3·10⁻⁴·sf - 3,4·10⁻⁴·sfMeasuring scale factor on DC measuring systems with voltage dividers0,1 V/V < u < 100000 V/V1 kV < u < 150 kV, u= testspänning, sf=skalfaktor
VoltageInhouse method; AMP0012/2006:PMM3725Voltage-generating/displayingDC3,7·10⁻⁴·sf - 0,0047·sfMeasuring scale factor on DC measuring systems with high voltage voltmeter0,9 V/V < u < 100000 V/V0.010 kV < u < 35 kV, u= testspänning, sf=skalfaktor
VoltageInhouse method; AMP0012/2006:PMM3725Voltage-generating/displayingDC3,8·10⁻⁴·u - 0,0073·uMeasuring scale factor on DC measuring systems with high voltage voltmeter0.010 kV < u < 35 kV-
VoltageInhouse method; EL-CA-T-MOM-XX-SOP108370Generating-0,023°Measurement of phase angle with a phase meter0 - 360° 10 mV - 630 V50 Hz - 1 kHz
VoltageInhouse method; EL-CA-T-MOM-XX-SOP108370Generating-0,023° - 0,035°Measurement of phase angle with a phase meter0 - 360° 10 mV - 630 V1 kHz - 5 kHz
VoltageInhouse method; EL-CA-T-MOM-XX-SOP108370Generating-0,025° - 0,047°Measurement of phase angle with a phase meter0 - 360° 10 mV - 630 V6 kHz - 20 kHz
VoltageInhouse method; EL-CA-T-MOM-XX-SOP108370Generating-0,047° - 0,061°Measurement of phase angle with a phase meter0 - 360° 10 mV - 630 V20 kHz - 50 kHz
VoltageInhouse method; T/2003:PMM682Voltage generatingDC0,00012·u - 1,3·10⁻5·uMeasuring DC voltage with a multimeter±1mV - ±10mV0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC0,12 µVMeasuring DC voltage with a multimeter0 mV0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC0,12·u - 0,00012·uMeasuring DC voltage with a multimeter±1µV - ±1mV0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC1,3·10⁻⁵·u - 2,5·10⁻⁶·uMeasuring DC voltage with a multimeter±10mV - ±200mV0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC1,6·10⁻⁶·u - 2,4·10⁻⁶·uMeasuring DC voltage with a multimeter±2V to ±20V0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC1,6·10⁻⁶·u - 3,1·10⁻⁶·uMeasuring DC voltage with a multimeter±20V - ±200V0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC3,1·10⁻⁶·u - 3,3·10⁻⁶·uMeasuring DC voltage with a multimeter±200V - ±1050V0 V - ±1050 V
VoltageInhouse method; T/2003:PMM682Voltage generatingDC3,4·10⁻⁶·u -1,6·10⁻⁶·uMeasuring DC voltage with a multimeter±0,2V to ±2V0 V - ±1050 V
VoltageInhouse method; T/2003:PMM915Voltage showingAC0,22 dB - 0,80 dBBandwidth with oscilloscope calibrator±50 kHz - ±1100 MHz50 Ohm, 10 mVPP - 5 VPP
VoltageInhouse method; T/2003:PMM915Voltage showingAC0,22 dB - 0,80 dBBandwidth with oscilloscope calibrator50 kHz - 1100 MHz50 Ohm 100 kHz < f <1100 MHz
VoltageInhouse method; T/2003:PMM915Voltage showingAC0,22 dB - 0,80 dBBandwidth with oscilloscope calibrator50 kHz - 1100 MHz50 Ohm, 10 mVPP - 5 VPP
VoltageInhouse method; T/2003:PMM915Voltage showingAC0,22 dB - 1,30 dBBandwidth with oscilloscope calibrator±50 kHz - ±1100 MHz1 MOhm, 10 mVPP - 5 VPP
VoltageInhouse method; T/2003:PMM915Voltage showingAC0,22 dB - 1,30 dBBandwidth with oscilloscope calibrator50 kHz - 1100 MHz1 MOhm 100 kHz < f <1100 MHz
VoltageInhouse method; T/2003:PMM915Voltage showingAC0,22 dB - 1,30 dBBandwidth with oscilloscope calibrator50 kHz - 1100 MHz1 MOhm, 10 mVPP - 5 VPP
VoltageInhouse method; T/2003:PMM916Voltage showingAC/DC0,033 mV - 0,010 VCalibrating vertical accuracy with an oscilloscope calibrator±1 mV - ±250 V1 MOhm DC or 1 kHz
VoltageInhouse method; T/2003:PMM916Voltage showingAC/DC0,033 mV - 0,010 VCalibrating vertical accuracy with an oscilloscope calibrator±1 mV - ±250 V1 MOhm, Dc or 1kHz
VoltageInhouse method; T/2003:PMM916Voltage showingAC/DC0,034 mV - 0,0097 VCalibrating vertical accuracy with an oscilloscope calibrator±1 mV - ±5 V50 Ohm DC or 1 kHz
VoltageInhouse method; T/2003:PMM916Voltage showingAC/DC0,034 mV - 0,0097 VCalibrating vertical accuracy with an oscilloscope calibrator±1 mV - ±5 V50 Ohm, Dc or 1kHz
VoltageInhouse method; T/2003:PMM917Voltage showingDC0,033 mV - 0,049 VCalibration of vertical offset with oscilloscope calibrator±1 mV - ±250 V50 Ohm and 1 MOhm
VoltageInhouse method; T/2003:PMM917Voltage showingDC0,033 mV - 0,049 VCalibration of vertical offset with oscilloscope calibrator±1 mV - ±250 V50 Ohm and 1 MOhm DC
VoltageInhouse method; T/2004:PMM2208Voltage showingDC-Generate DC voltage with calibrator±100 µV0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC0,14 µVGenerate DC voltage with calibrator200 mV0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC0,9µVGenerate DC voltage with calibrator±0 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC1,1·10⁻⁵·uGenerate DC voltage with calibrator±100 mV0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC1,9·10⁻⁶·uGenerate DC voltage with calibrator±10 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC3,2·10⁻⁶·uGenerate DC voltage with calibrator±100 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC3,4·10⁻⁶·uGenerate DC voltage with calibrator±1 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC3,7·10⁻⁶·uGenerate DC voltage with calibrator±1000 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC3,9·10⁻⁶·uGenerate DC voltage with calibrator±10 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC4,2·10⁻⁴·uGenerate DC voltage with calibrator±1 mV0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC4,4·10⁻⁵·uGenerate DC voltage with calibrator±10 mV0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC5,0·10⁻⁶·uGenerate DC voltage with calibrator±1 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC5,5·10⁻⁶·uGenerate DC voltage with calibrator±100 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC5,7·10⁻⁶·uGenerate DC voltage with calibrator±1000 V-
VoltageInhouse method; T/2004:PMM2208Voltage showingDC5,7·10⁻⁶·uGenerate DC voltage with calibrator±1000 V0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2208Voltage showingDC6,8·10⁻⁶·uGenerate DC voltage with calibrator±100 mV0 V - ±1050 V
VoltageInhouse method; T/2004:PMM2209Voltage showingAC0,00026·u - 0,013·uGenerate AC voltage with calibrator2 mV - 20 mV10 Hz - 1 MHz
VoltageInhouse method; T/2004:PMM2209Voltage showingAC0,0021·u - 0,21·uGenerate AC voltage with calibrator0,1 mV - 2 mV10 Hz - 1 MHz
VoltageInhouse method; T/2004:PMM2209Voltage showingAC38·10⁻⁶·u - 0,00013·uGenerate AC voltage with calibrator2 V - 200 V10 Hz - 1 MHz
VoltageInhouse method; T/2004:PMM2209Voltage showingAC39·10⁻⁶·u - 0,0026·uGenerate AC voltage with calibrator200 mV - 2 V10 Hz - 1 MHz
VoltageInhouse method; T/2004:PMM2209Voltage showingAC44·10⁻⁶·u - 0,00033·uGenerate AC voltage with calibrator200 V -1000 V10 Hz - 100 kHz
VoltageInhouse method; T/2004:PMM2209Voltage showingAC91·10⁻⁶·u - 0,0034·uGenerate AC voltage with calibrator20 mV - 200 mV10 Hz - 1 MHz
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC±60 µVCalibrate load regulation (CV mode) on DC power supplies100 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC±700 µVCalibrate load regulation (CV mode) on DC power supplies1000 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC0,14 µVCalibrate load regulation (CV mode) on DC power supplies200 mV0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC0,44 µVCalibrate load regulation (CV mode) on DC power supplies2 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC100 µVCalibrate load regulation (CV mode) on DC power supplies200 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC3,2 µVCalibrate load regulation (CV mode) on DC power supplies10 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC4,4 µVCalibrate load regulation (CV mode) on DC power supplies20 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC40 µVCalibrate load regulation (CV mode) on DC power supplies50 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6025Voltage generatingDC500 µVCalibrate load regulation (CV mode) on DC power supplies500 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC±60 µVCalibrate mains voltage regulation (CV mode) on DC power supplies100 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC±700 µVCalibrate mains voltage regulation (CV mode) on DC power supplies1000 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC0,14 µVCalibrate mains voltage regulation (CV mode) on DC power supplies200 mV0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC0,44 µVCalibrate mains voltage regulation (CV mode) on DC power supplies2 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC100 µVCalibrate mains voltage regulation (CV mode) on DC power supplies200 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC3,2 µVCalibrate mains voltage regulation (CV mode) on DC power supplies10 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC4,4 µVCalibrate mains voltage regulation (CV mode) on DC power supplies20 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC40 µVCalibrate mains voltage regulation (CV mode) on DC power supplies50 V0 V - 1000 V
VoltageInhouse method; T/2007:PMM6027Voltage generatingDC500 µVCalibrate mains voltage regulation (CV mode) on DC power supplies500 V0 V - 1000 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC1,2·10⁻⁶·uMeasurement of DC voltage by comparison with voltage standard100 mV±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC1,2·10⁻⁶·uMeasurement of DC voltage by comparison with voltage standard100 V±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC1,2·10⁻⁶·uMeasurement of DC voltage by comparison with voltage standard1000 V±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC3,1·10⁻⁷·uMeasurement of DC voltage by comparison with voltage standard1 V±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC3,1·10⁻⁷·uMeasurement of DC voltage by comparison with voltage standard10 V±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC6,4·10⁻⁴·uMeasurement of DC voltage by comparison with voltage standard100 µV±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC6,4·10⁻⁵·uMeasurement of DC voltage by comparison with voltage standard1 mV±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8655Voltage generatingDC6,6·10⁻⁶·uMeasurement of DC voltage by comparison with voltage standard10 mV±100 µV - ±1100 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC1,2·10⁻⁶·uGenerate DC voltage with voltage standard100 mV±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC1,2·10⁻⁶·uGenerate DC voltage with voltage standard100 V±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC1,2·10⁻⁶·uGenerate DC voltage with voltage standard1000 V±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC3,1·10⁻⁷·uGenerate DC voltage with voltage standard1 V±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC3,1·10⁻⁷·uGenerate DC voltage with voltage standard10 V±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC4,8·10⁻⁴·uGenerate DC voltage with voltage standard100 µV±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC4,8·10⁻⁵·uGenerate DC voltage with voltage standard1 mV±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8656Voltage showingDC4,9·10⁻⁶·uGenerate DC voltage with voltage standard10 mV±100 µV - ±1000 V
VoltageInhouse method; T/2012:PMM8661Voltage generatingAC4,6·10⁻⁶·u - 75·10⁻⁶·uAC voltage measurement with AC/DC Transfer Standard600 mV - 20 V10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8661Voltage generatingAC58·10⁻⁶·u - 365·10⁻⁶·uAC voltage measurement with AC/DC Transfer Standard2 mV - 20 mV10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8661Voltage generatingAC6,8·10⁻⁶·u - 130·10⁻⁶·uAC voltage measurement with AC/DC Transfer Standard20 mV - 200 mV10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8661Voltage generatingAC7,5·10⁻⁶·u - 55·10⁻⁶·uAC voltage measurement with AC/DC Transfer Standard60 V - 100 V10 Hz - 200 kHz
VoltageInhouse method; T/2012:PMM8661Voltage generatingAC7,5·10⁻⁶·u - 60·10⁻⁶·uAC voltage measurement with AC/DC Transfer Standard20 V - 60 V10 Hz - 300 kHz
VoltageInhouse method; T/2012:PMM8661Voltage generatingAC9,5·10⁻⁶·u - 40·10⁻⁶·uAC voltage measurement with AC/DC Transfer Standard100 V - 1000 V10 Hz - 100 kHz
VoltageInhouse method; T/2012:PMM8662Voltage generatingAC14·10⁻⁶·u - 600·10⁻⁶·uMeasuring AC voltage with a multimeter200 mV - 2 V10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8662Voltage generatingAC16·10⁻⁶·u - 103·10⁻⁶·uMeasuring AC voltage with a multimeter20 V - 60 V10 Hz - 300 kHz
VoltageInhouse method; T/2012:PMM8662Voltage generatingAC16·10⁻⁶·u - 750·10⁻⁶·uMeasuring AC voltage with a multimeter2 V - 20 V10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8662Voltage generatingAC17·10⁻⁶·u - 120·10⁻⁶·uMeasuring AC voltage with a multimeter60 V - 100 V10 Hz - 200 kHz
VoltageInhouse method; T/2012:PMM8662Voltage generatingAC19·10⁻⁶·u - 2500·10⁻⁶·uMeasuring AC voltage with a multimeter2 mV - 200 mV10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8662Voltage generatingAC30·10⁻⁶·u - 267·10⁻⁶·uMeasuring AC voltage with a multimeter100 V - 1000 V10 Hz - 100 kHz
VoltageInhouse method; T/2012:PMM8669Voltage showingAC4·10⁻⁶·u - 90·10⁻⁶·uGenerate alternating voltage with AC/Dc Transfer Standard200 mV - 20 V10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8669Voltage showingAC7·10⁻⁶·u - 60·10⁻⁶·uGenerate alternating voltage with AC/Dc Transfer Standard20 V - 60 V10 Hz - 300 kHz
VoltageInhouse method; T/2012:PMM8669Voltage showingAC8·10⁻⁶·u - 40·10⁻⁶·uGenerate alternating voltage with AC/Dc Transfer Standard100 V - 1000 V10 Hz - 100 kHz
VoltageInhouse method; T/2012:PMM8669Voltage showingAC8·10⁻⁶·u - 55·10⁻⁶·uGenerate alternating voltage with AC/Dc Transfer Standard60 V - 100 V10 Hz - 200 kHz
VoltageInhouse method; T/2012:PMM8669Voltage showingAC9·10⁻⁶·u - 145·10⁻⁶·uGenerate alternating voltage with AC/Dc Transfer Standard2 mV - 200 mV10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8814Voltage showingAC/DC11·10⁻⁶·u - 40·10⁻⁶·uenerate AC/DC difference with reference standard100 V - 1000 V10 Hz - 100 kHz
VoltageInhouse method; T/2012:PMM8814Voltage showingAC/DC25·10⁻⁶·u - 300·10⁻⁶·uenerate AC/DC difference with reference standard2 mV - 200 mV10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8814Voltage showingAC/DC4·10⁻⁶·u - 70·10⁻⁶·uenerate AC/DC difference with reference standard2 V - 20 V10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8814Voltage showingAC/DC4·10⁻⁶·u - 90·10⁻⁶·uenerate AC/DC difference with reference standard200 mV - 2 V10 Hz - 1 MHz
VoltageInhouse method; T/2012:PMM8814Voltage showingAC/DC6·10⁻⁶·u - 45·10⁻⁶·uenerate AC/DC difference with reference standard20 V - 60 V10 Hz - 300 kHz
VoltageInhouse method; T/2012:PMM8814Voltage showingAC/DC8·10⁻⁶·u - 55·10⁻⁶·uenerate AC/DC difference with reference standard60 V - 100 V10 Hz - 200 kHz
VoltageInhouse method; T/2012:PMM8901Voltage generatingDC1,1·10⁻⁶·uMeasuring DC voltage with a multimeter by ratio with voltage standard100 V±10 mV - ±1050 V
VoltageInhouse method; T/2012:PMM8901Voltage generatingDC1,4·10⁻⁶·uMeasuring DC voltage with a multimeter by ratio with voltage standard1000 V±10 mV - ±1050 V
VoltageInhouse method; T/2012:PMM8901Voltage generatingDC1,6·10⁻⁵·uMeasuring DC voltage with a multimeter by ratio with voltage standard10 mV±10 mV - ±1050 V
VoltageInhouse method; T/2012:PMM8901Voltage generatingDC1,9·10⁻⁶·uMeasuring DC voltage with a multimeter by ratio with voltage standard100 mV±10 mV - ±1050 V
VoltageInhouse method; T/2012:PMM8901Voltage generatingDC5,5·10⁻⁷·uMeasuring DC voltage with a multimeter by ratio with voltage standard10 V±10 mV - ±1050 V
VoltageInhouse method; T/2012:PMM8901Voltage generatingDC5,8·10⁻⁷·uMeasuring DC voltage with a multimeter by ratio with voltage standard1 V±10 mV - ±1050 V
MätstorhetMetod/procedurProdukt/objektParameter/EgenskaperUtvidgad mätosäkerhet ±Utrustning/MätprincipMätområde/mätnivåAnmärkningFlexBusiness unit
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-0,7%-160 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-0,7%-500 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-0,8%-80 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-0,9%-1000 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-1,1%-10 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-1,1%-2000 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-1,2%-10 Hz - 2500 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-1,3%-5 Hz - 10 HzAmplitud max 200 m/s2
AccelerationInhouse method; EL-CA-T-CMP-SE-SOP102161 Calibration of AccelerometersAccelerometers-1,7%-2500 Hz - 10000 HzAmplitud max 200 m/s2
GeometryInhouse method; PTN/2020:PKI11889Geometric objectsDetermination of dimension, shape and positionSe anmärkningSensing in space with the same probe tipX = 800 mm, Y = 1120 mm, Z = 400 mmMätosäkerheten är mätuppgiftsspecifik och bestäms från fall till fall enligt metoden ”Virtuell CMM”
LengthEL-CA-T-CMP-SE-SOP101326 Calibration Method B steel and cemented carbideSpud-0,07 µmAgainst interferometrically calibrated standards0,5-25 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101326 Calibration Method B steel and cemented carbideSpud-0,09 µmAgainst interferometrically calibrated standards25-50 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101326 Calibration Method B steel and cemented carbideSpud-0,12 µmAgainst interferometrically calibrated standards50-75 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101326 Calibration Method B steel and cemented carbideSpud-0,16 µmAgainst interferometrically calibrated standards75-100 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,21 µmAgainst mechanically calibrated standards0,5-25 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,22 µmAgainst mechanically calibrated standards25-50 mmStål
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,24 µmAgainst mechanically calibrated standards50-75 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,27 µmAgainst mechanically calibrated standards75-100 mmStål, Hårdmetall
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,28 µmAgainst mechanically calibrated standards100-125 mmStål
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,31 µmAgainst mechanically calibrated standards125-150 mmStål
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,37 µmAgainst mechanically calibrated standards150-200 mmStål
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,49 µmAgainst mechanically calibrated standards200-300 mmStål
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,62 µmAgainst mechanically calibrated standards300-400 mmStål
LengthEL-CA-T-CMP-SE-SOP101327 Calibration Method C steel and cemented carbideSpud-0,76 µmAgainst mechanically calibrated standards400-500 mmStål
LengthEL-CA-T-CMP-SE-SOP101328 Calibration Method C ceramicsSpud-0,08 µmAgainst mechanically calibrated standards0,5-25 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101328 Calibration Method C ceramicsSpud-0,10 µmAgainst mechanically calibrated standards25-50 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101328 Calibration Method C ceramicsSpud-0,14 µmAgainst mechanically calibrated standards50-75 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101328 Calibration Method C ceramicsSpud-0,16 µmAgainst mechanically calibrated standards75-100 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101329 Calibration Method D ceramicsSpud-0,20 µmAgainst mechanically calibrated standards0,5-25 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101329 Calibration Method D ceramicsSpud-0,22 µmAgainst mechanically calibrated standards25-50 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101329 Calibration Method D ceramicsSpud-0,23 µmAgainst mechanically calibrated standards50-75 mmKeramik
LengthEL-CA-T-CMP-SE-SOP101329 Calibration Method D ceramicsSpud-0,25 µmAgainst mechanically calibrated standards75-100 mmKeramik
LengthInhouse method; PTN/2020:PKI11882Lengthwise-0,5 µm2-point measurement of outside diameter in length measuring bench0,1 mm - 100 mmSläta, cylindriska tolkar
LengthInhouse method; PTN/2020:PKI11884Lengthwise-2,4 µmMeasurement in a length measuring bench of the simple average diameter1 mm - 300 mmFasta gängtolkar
LengthInhouse method; PTN/2020:PKI11885Lengthwise-2,4 µmMeasurement in a length measuring bench of the simple average diameter5 mm - 125 mmFasta gängringar
LengthInhouse method; PTN/2020:PKI11886Lengthwise-0,5 µm2-point measurement of outside diameter in length measuring bench0,1 mm - 20 mmCylindriska måttpinnar
LengthInhouse method; PTN/2020:PKI11887Lengthwise-0,25 µm + 0,6∙10-6∙LMeasurement in a length measuring bench>100 mm till 550 mmPassbitar
LengthInhouse method; PTN/2020:PKI11888Lengthwise-0,3 µmMeasurement in a length measuring bench25 mm - 800 mmInställningsmått
LengthInhouse method; PTN/2020:PKI11890Lengthwise-20 µmMeasurement with gauge blocks0 mm - 600 mmSkjutmått
LengthInhouse method; PTN/2020:PKI11891Lengthwise-2,5 µm + 0,8∙10-6∙LMeasurement with gauge blocks0 mm - 100 mmBygel­mikrometerar
LengthInhouse method; PTN/2020:PKI11892Lengthwise-0,6 µm + 10∙10-6∙LMeasurement in watch tester0 mm - 100 mmLängdindikatorer
LengthInhouse method; PTN/2020:PKI11893Lengthwise-(0,1 µm + L(i mm)/1100)Laser measurement0 mm - 5000 mmMätutrustning med 1-dimensionella linjära skalor med laser
MätstorhetMetod/procedurProdukt/objektParameter/EgenskaperUtvidgad mätosäkerhet ±Utrustning/MätprincipMätområde/mätnivåAnmärkningFlexBusiness unit
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,08%rdgMeasuring force1 kN - 10 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,12%rdgMeasuring force10 kN - 100 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,14%rdgMeasuring force0,4 kN - 0,5 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,16%rdgMeasuring force0,3 kN - 0,4 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,18%rdgMeasuring force0,5 kN - 1,0 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,22%rdgMeasuring force0,2 kN - 0,3 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,40%rdgMeasuring force0,1 kN - 0,2 kNKraftmätgivare
ForceInhouse method; KAL-AF-KO:2002.009Force measuring device-0,78%rdgMeasuring force0,05 kN - 0,1 kNKraftmätgivare
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(0,25 – 0,6) mgE2(200–500) gLäsbarhet 0,1 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(15 – 40) µgE2(1–10) gLäsbarhet 0,001 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(2,2 – 2,9) mgE2(500–2000) gLäsbarhet 1 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(2,5 – 4) gM1(30–200) kgLäsbarhet 1 g
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(20 – 30) mgE2(2–10) kgLäsbarhet 10 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(210 – 240) mgF1(10–30) kgLäsbarhet 100 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(4,4 – 5) µgE2(1–10) mgLäsbarhet 0,001 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(5 – 9) µgE2(10–100) mgLäsbarhet 0,001 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(50 – 250) µgE2(10–200) gLäsbarhet 0,01 mg
MassInhouse method; EL-CA-T-CMP-SE-SOP107358NAWI-(9 – 15) µgE2(100–1000) mgLäsbarhet 0,001 mg
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showing-6,5 Pa - 7,2 PaComparison against pressure reference(75 -115) kPaElektromekanisk tryckkalibrator. Barometer. Luft.
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure0,18 kPa - 0,28 kPAComparison against pressure reference>2,0 MPa till 3,6 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure0,23 kPa - 0,64 kPaComparison against pressure reference0,2 MPa till 6,1 MPaTryckvåg. Olja
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure0,69 kPa - 1,3 kPaComparison against pressure reference>3,6 MPa till 10 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure1,1 kPa - 5,8 kPaComparison against pressure reference>6,1 MPa till 60,1 MPaTryckvåg. Olja
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure1,5 kPa - 4,0 kPaComparison against pressure reference>10 MPa till 30 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure10 Pa - 16 PaComparison against pressure reference>60 kPa till 200 kPAElektromekanisk tryckkalibrator. Kvävgas eller luft. Fält endast upp till 130 kPa.
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure11 Pa - 0,16 kPaComparison against pressure reference120 kPa till 2,6 MPaTryckvåg. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure30 Pa - 48 PaComparison against pressure reference>0,2 MPa till 0,8 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure7,2 Pa - 8,5 PaComparison against pressure reference>0 kPa till 60 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingAbsolute pressure87 Pa - 0,18 kPaComparison against pressure reference>0,8 MPa till 2,0 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure0,19 kPa - 0,28 kPaComparison against pressure reference>2,0 MPa till 3,5 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure0,23 kPa - 0,63 kPaComparison against pressure reference0,1 MPa till 6,0 MPaTryckvåg. Olja
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure0,42 PaComparison against pressure reference<-0,95 kPa till <0 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure0,42 Pa - 2,4 PaComparison against pressure reference>0 kPa till 10,6 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure0,59 kPa - 1,3 kPaComparison against pressure reference>3,5 MPa till 10 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure1,1 kPa - 5,8 kPaComparison against pressure reference>6,0 MPa till 60 MPaTryckvåg. Olja
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure1,5 kPa - 4,0 kPaComparison against pressure reference>10 MPa till 30 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure15 Pa - 33 PaComparison against pressure reference>0,1 MPa till 0,4 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure2,4 PaComparison against pressure reference<-18 kPa till -5,5 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure2,4 Pa - 0,42 PaComparison against pressure reference<-5,5 kPa till -0,95 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure2,4 Pa - 9,0 PaComparison against pressure reference>10,6 kPa till 100 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure2,5 Pa - 0,15 kPaComparison against pressure reference20 kPa till 2,5 MPaTryckvåg. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure33 Pa - 43 PaComparison against pressure reference>0,4 MPa till 0,7 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure56 Pa - 0,16 kPAComparison against pressure reference>0,7 MPa till 2,0 MPaElektromekanisk tryckkalibrator. Kvävgas eller luft
PressureInhouse method; EL-CA-T-MOM-X-SOP103821 Calibration of Pressure Manometers and GaugesPressure showingGauge pressure9,0 Pa - 2,4 PaComparison against pressure reference-100 kPa till -18 kPaElektromekanisk tryckkalibrator. Kvävgas eller luft
TorqueInhouse method; MLK/2004:PMM2185Momentary display-0,002 Nm + 0,85%Measuring torque0,07 Nm ≤ τ ≤ 2 NmMomentgivare; Kalibrering av momentnycklar och momentmejslar
TorqueInhouse method; MLK/2004:PMM2185Momentary display-0,012 Nm + 0,90%Measuring torque2 Nm < τ < 10 NmMomentgivare; Kalibrering av momentnycklar och momentmejslar
TorqueInhouse method; MLK/2004:PMM2185Momentary display-1,0%Measuring torque10 Nm ≤ τ ≤ 1000 NmMomentgivare; Kalibrering av momentnycklar
TorqueInhouse method; MLK/2005:PMM2781Momentary display-0,054%Generate torque using weights and measuring arm1000 Nm ≤ τ ≤ 1500 NmMomentarm; Kalibrering av momentgivare
TorqueInhouse method; MLK/2005:PMM2781Momentary display-0,058%Generate torque using weights and measuring arm0,01 Nm ≤ τ < 1000 NmMomentarm; Kalibrering av momentgivare
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,012 µlGravimetric≥ 0,1μl - ≤ 0,2μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,017µlGravimetric> 0,2μl - ≤ 0,5μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,022µlGravimetric> 0,5μl - ≤ 1,25μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,027μlGravimetric> 1,25μl - ≤ 2,5μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,039µlGravimetric> 2,5μl - ≤ 5,0μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,057µlGravimetric> 5,0μl - ≤ 10μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,075µlGravimetric> 10μl - ≤ 20μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,14µlGravimetric> 20μl - ≤ 50μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,23µlGravimetric> 50μl - ≤ 100μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,34µlGravimetric> 100μl - ≤ 200μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,61µlGravimetric> 200μl - ≤ 300μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-0,71µlGravimetric> 300μl - ≤ 500μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-1,2µlGravimetric> 500μl - ≤ 1000μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-14µlGravimetric> 5000μl - ≤ 10000μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-2,3µlGravimetric> 1000μl - ≤ 1250μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-2,7µlGravimetric> 1250μl - ≤ 2000μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-25µlGravimetric> 10000μl - ≤ 25000μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-3µlGravimetric> 2000μl - ≤ 2500μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-49µlGravimetric> 25000μl - ≤ 50000μlPipetter
VolumeInhouse method; EL-CA-T-MOM-XX-SOP100507Volume generating-5µlGravimetric> 2500μl - ≤ 5000μlPipetter
MätstorhetMetod/procedurProdukt/objektParameter/EgenskaperUtvidgad mätosäkerhet ±Utrustning/MätprincipMätområde/mätnivåAnmärkningFlexBusiness unit
HumidityInhouse method; EL-CA-T-MOM-XX-SOP100344 Calibration of hygrometers for measurement of relative humidityRelative humidity meterRelative humidity0,34% - 1,2%Comparison in chamber with mirror hygrometer and air temperature meter5% - 95%20°C - 26°C
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0012°C – 0,0052°C-0°C≥t≥100°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0012°C – 0,0052°CResistance 4-wire0°C≥t≥100°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0025°C – 0,0012°C--200°C≥t≥0°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0025°C – 0,0012°CResistance 4-wire-200°C≥t≥0°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0052°C – 0,0062°C-100°C≥t≥200°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0052°C – 0,0062°CResistance 4-wire100°C≥t≥200°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0062°C – 0,0088°C-200°C≥t≥400°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0062°C – 0,0088°CResistance 4-wire200°C≥t≥400°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0088°C – 0,015°C-400°C≥t≥800°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, RTDGeneration of resistance0,0088°C – 0,015°CResistance 4-wire400°C≥t≥800°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,063°C – 0,065°CVoltage calibrator, CJC off1500°C≥t≥1820°CTC Type B (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,20°C – 0,063°CVoltage calibrator, CJC off350°C≥t≥1500°CTC Type B (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,28°C – 0,20°CVoltage calibrator, CJC off250°C≥t≥350°CTC Type B (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,46°C – 0,25°CTemperature calibrator, CJC off580°C≥t≥1820°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,46°C – 0,25°CTemperature calibrator, CJC on580°C≥t≥1820°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,58°C – 0,46°CTemperature calibrator, CJC off445°C≥t≥580°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,58°C – 0,46°CTemperature calibrator, CJC on445°C≥t≥580°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,74°C – 0,58°CTemperature calibrator, CJC off350°C≥t≥445°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage0,74°C – 0,58°CTemperature calibrator, CJC on350°C≥t≥445°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage1,0°C – 0,74°CTemperature calibrator, CJC off250°C≥t≥350°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type BGeneration of voltage1,0°C – 0,74°CTemperature calibrator, CJC on250°C≥t≥350°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type CGeneration of voltage0,040°C – 0,091°CVoltage calibrator, CJC off250°C≥t≥2315°CTC Type C (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type CGeneration of voltage0,052°C – 0,040°CVoltage calibrator, CJC off0°C≥t≥250°CTC Type C (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type CGeneration of voltage0,15°C – 0,38°CTemperature calibrator, CJC off250°C≥t≥2315°CTC Type C (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type CGeneration of voltage0,19°C – 0,15°CTemperature calibrator, CJC off0°C≥t≥250°CTC Type C (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type DGeneration of voltage0,040°C – 0,089°CVoltage calibrator, CJC off300°C≥t≥2315°CTC Type D (ASTM E230-E230M-17, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type DGeneration of voltage0,073°C – 0,040°CVoltage calibrator, CJC off0°C≥t≥300°CTC Type D (ASTM E230-E230M-17, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type DGeneration of voltage0,15°C – 0,27°CTemperature calibrator, CJC off300°C≥t≥2100°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type DGeneration of voltage0,20°C – 0,15°CTemperature calibrator, CJC off100°C≥t≥300°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type DGeneration of voltage0,27°C – 0,20°CTemperature calibrator, CJC off0°C≥t≥100°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type DGeneration of voltage0,27°C – 0,37°CTemperature calibrator, CJC off2100°C≥t≥2315°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,013°C – 0,015°CVoltage calibrator, CJC off15°C≥t≥1000°CTC Type E (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,028°C – 0,013°CVoltage calibrator, CJC off-195°C≥t≥15°CTC Type E (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,045°C – 0,059°CTemperature calibrator, CJC off15°C≥t≥1000°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,049°C – 0,041°CVoltage calibrator, CJC on15°C≥t≥1000°CTC Type E (IEC 60584-1:2013, voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,064°C – 0,028°CVoltage calibrator, CJC off-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,092°C – 0,045°CTemperature calibrator, CJC off-195°C≥t≥15°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,11°C – 0,049°CVoltage calibrator, CJC on-195°C≥t≥15°CTC Type E (IEC 60584-1:2013, voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,14°C – 0,082°CTemperature calibrator, CJC on-155°C≥t≥1000°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,19°C – 0,14°CTemperature calibrator, CJC on-195°C≥t≥-155°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,21°C – 0,092°CTemperature calibrator, CJC off-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,25°C – 0,11°CVoltage calibrator, CJC on-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,44°C – 0,19°CTemperature calibrator, CJC on-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage0,47°C – 0,064°CVoltage calibrator, CJC off-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage1,5°C – 0,21°CTemperature calibrator, CJC off-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage1,8°C – 0,25°CVoltage calibrator, CJC on-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type EGeneration of voltage3,3°C – 0,44°CTemperature calibrator, CJC on-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage0,041°C – 0,068°CVoltage calibrator, CJC off600°C≥t≥2315°CTC Type G (ASTM E1751-E1751M-15, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage0,13°C – 0,041°CVoltage calibrator, CJC off100°C≥t≥600°CTC Type G (ASTM E1751-E1751M-15, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage0,16°C – 0,28°CTemperature calibrator, CJC off600°C≥t≥2315°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage0,23°C – 0,16°CTemperature calibrator, CJC off300°C≥t≥600°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage0,49°C – 0,23°CTemperature calibrator, CJC off100°C≥t≥300°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage0,54°C – 0,13°CVoltage calibrator, CJC off0°C≥t≥100°CTC Type G (ASTM E1751-E1751M-15, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type GGeneration of voltage2,0°C – 0,49°CTemperature calibrator, CJC off0°C≥t≥100°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,014°C – 0,018°CVoltage calibrator, CJC off100°C≥t≥1200°CTC Type J (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,018°C – 0,014°CVoltage calibrator, CJC off-100°C≥t≥100°CTC Type J (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,038°C – 0,018°CVoltage calibrator, CJC off-210°C≥t≥-100°CTC Type J (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,038°C – 0,042°CVoltage calibrator, CJC on800°C≥t≥1200°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,040°C – 0,045°CVoltage calibrator, CJC on800°C≥t≥1200°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,042°C – 0,038°CVoltage calibrator, CJC on50°C≥t≥800°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,047°C – 0,040°CVoltage calibrator, CJC on50°C≥t≥800°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,052°C – 0,042°CVoltage calibrator, CJC on-100°C≥t≥50°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,052°C – 0,058°CTemperature calibrator, CJC off50°C≥t≥800°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,058°C – 0,075°CTemperature calibrator, CJC off800°C≥t≥1200°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,060°C – 0,047°CVoltage calibrator, CJC on-100°C≥t≥50°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,062°C – 0,052°CTemperature calibrator, CJC off-100°C≥t≥50°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,080°C – 0,097°CTemperature calibrator, CJC on800°C≥t≥1200°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,089°C – 0,080°CTemperature calibrator, CJC on0°C≥t≥800°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,11°C – 0,052°CVoltage calibrator, CJC on-210°C≥t≥-100°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,11°C – 0,089°CTemperature calibrator, CJC on-100°C≥t≥0°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,13°C – 0,060°CVoltage calibrator, CJC on-210°C≥t≥-100°CTC Type J (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,13°C – 0,062°CTemperature calibrator, CJC off-210°C≥t≥-100°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type JGeneration of voltage0,24°C – 0,11°CTemperature calibrator, CJC on-210°C≥t≥-100°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,018°C – 0,027°CVoltage calibrator, CJC off50°C≥t≥-1372°CTC Type K (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,044°C – 0,055°CVoltage calibrator, CJC on400°C≥t≥1372°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,045°C – 0,018°CVoltage calibrator, CJC off-195°C≥t≥50°CTC Type K (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,046°C – 0,044°CVoltage calibrator, CJC on0°C≥t≥400°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,048°C – 0,061°CVoltage calibrator, CJC on400°C≥t≥1372°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,051°C – 0,048°CVoltage calibrator, CJC on0°C≥t≥400°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,065°C – 0,11°CTemperature calibrator, CJC off50°C≥t≥-1372°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,094°C – 0,14°CTemperature calibrator, CJC on50°C≥t≥-1372°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,10°C – 0,046°CVoltage calibrator, CJC on-195°C≥t≥0°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,12°C – 0,051°CVoltage calibrator, CJC on-195°C≥t≥0°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,15°C – 0,065°CTemperature calibrator, CJC off-195°C≥t≥50°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,19°C – 0,045°CVoltage calibrator, CJC off-255°C≥t≥-195°CTC Type K (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,24°C – 0,094°CTemperature calibrator, CJC on-195°C≥t≥50°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,66°C – 0,15°CTemperature calibrator, CJC off-255°C≥t≥-195°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage0,974°C – 0,19°CVoltage calibrator, CJC off-270°C≥t≥-255°CTC Type K (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage1,0°C – 0,24°CTemperature calibrator, CJC on-255°C≥t≥-195°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage2,2°C – 0,10°CVoltage calibrator, CJC on-270°C≥t≥-195°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage2,7°C – 0,12°CVoltage calibrator, CJC on-270°C≥t≥-195°CTC Type K (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage3,4°C – 0,66°CTemperature calibrator, CJC off-270°C≥t≥-255°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type KGeneration of voltage5,4°C – 1,0°CTemperature calibrator, CJC on-270°C≥t≥-255°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,021°C – 0,025°CVoltage calibrator, CJC off800°C≥t≥1300°CTC Type N (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,027°C – 0,021°CVoltage calibrator, CJC off0°C≥t≥800°CTC Type N (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,034°C – 0,039°CVoltage calibrator, CJC on600°C≥t≥1300°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,039°C – 0,042°CVoltage calibrator, CJC on600°C≥t≥1300°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,060°C – 0,034°CVoltage calibrator, CJC on-100°C≥t≥600°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,061°C – 0,039°CVoltage calibrator, CJC on-100°C≥t≥600°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,072°C – 0,027°CVoltage calibrator, CJC off-200°C≥t≥0°CTC Type N (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,079°C – 0,10°CTemperature calibrator, CJC off400°C≥t≥1300°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,093°C – 0,12°CTemperature calibrator, CJC on400°C≥t≥1300°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,12°C – 0,061°CVoltage calibrator, CJC on-200°C≥t≥-100°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,12°C – 0,079°CTemperature calibrator, CJC off-100°C≥t≥400°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,13°C – 0,060°CVoltage calibrator, CJC on-200°C≥t≥-100°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,16°C – 0,093°CTemperature calibrator, CJC on-100°C≥t≥400°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,25°C – 0,12°CTemperature calibrator, CJC off-200°C≥t≥-100°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage0,33°C – 0,16°CTemperature calibrator, CJC on-200°C≥t≥-100°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage2,1°C – 0,072°CVoltage calibrator, CJC off-270°C≥t≥-200°CTC Type N (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage3,6°C – 0,12°CVoltage calibrator, CJC on-270°C≥t≥-200°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage3,7°C – 0,13°CVoltage calibrator, CJC on-270°C≥t≥-200°CTC Type N (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage7,5°C – 0,25°CTemperature calibrator, CJC off-270°C≥t≥-200°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type NGeneration of voltage9,7°C – 0,33°CTemperature calibrator, CJC on-270°C≥t≥-200°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type PlatinellGeneration of voltage0,021°C – 0,031°CVoltage calibrator, CJC off100°C≥t≥1395°CTC Type Platinell (ASTM E1751-E1751M-15, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type PlatinellGeneration of voltage0,024°C – 0,021°CVoltage calibrator, CJC off0°C≥t≥100°CTC Type Platinell (ASTM E1751-E1751M-15, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type PlatinellGeneration of voltage0,076°C – 0,087°CTemperature calibrator, CJC off100°C≥t≥925°CTC Type Platinell (ASTM E1751-E1751M-15, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type PlatinellGeneration of voltage0,087°C – 0,13°CTemperature calibrator, CJC off925°C≥t≥1395°CTC Type Platinell (ASTM E1751-E1751M-15, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type PlatinellGeneration of voltage0,088°C – 0,076°CTemperature calibrator, CJC off0°C≥t≥100°CTC Type Platinell (ASTM E1751-E1751M-15, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,059°C – 0,063°CVoltage calibrator, CJC off775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,11°C – 0,059°CVoltage calibrator, CJC off45°C≥t≥775°CTC Type R (IEC 60581-1:2013, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,19°C – 0,11°CVoltage calibrator, CJC off-50°C≥t≥45°CTC Type R (IEC 60581-1:2013, voltage calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,23°C – 0,25°CTemperature calibrator, CJC off775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,23°C – 0,25°CTemperature calibrator, CJC on775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,41°C – 0,23°CTemperature calibrator, CJC off45°C≥t≥775°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,41°C – 0,23°CTemperature calibrator, CJC on45°C≥t≥775°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,59°C – 0,41°CTemperature calibrator, CJC off-30°C≥t≥45°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,60°C – 0,41°CTemperature calibrator, CJC on-30°C≥t≥45°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,70°C – 0,59°CTemperature calibrator, CJC off-50°C≥t≥-30°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type RGeneration of voltage0,71°C – 0,60°CTemperature calibrator, CJC on-50°C≥t≥-30°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,061°C – 0,074°CVoltage calibrator, CJC off1200°C≥t≥1768°CTC Type S (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,070°C – 0,083°CVoltage calibrator, CJC on1200°C≥t≥1768°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,076°C – 0,091°CVoltage calibrator, CJC on1200°C≥t≥1768°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,095°C – 0,061°CVoltage calibrator, CJC off100°C≥t≥1200°CTC Type S (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,095°C – 0,070°CVoltage calibrator, CJC on200°C≥t≥1200°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,10°C – 0,076°CVoltage calibrator, CJC on200°C≥t≥1200°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,13°C – 0,095°CVoltage calibrator, CJC off0°C≥t≥100°CTC Type S (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,15°C – 0,095°CVoltage calibrator, CJC on0°C≥t≥200°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,16°C – 0,10°CVoltage calibrator, CJC on0°C≥t≥200°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,18°C – 0,13°CVoltage calibrator, CJC off-50°C≥t≥0°CTC Type S (voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,20°C – 0,15°CVoltage calibrator, CJC on-50°C≥t≥-0°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,21°C – 0,16°CVoltage calibrator, CJC on-50°C≥t≥-0°CTC Type S (voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,24°C – 0,29°CTemperature calibrator, CJC off1200°C≥t≥1768°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,24°C – 0,30°CTemperature calibrator, CJC on1200°C≥t≥1768°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,40°C – 0,24°CTemperature calibrator, CJC off50°C≥t≥1200°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,41°C – 0,24°CTemperature calibrator, CJC on50°C≥t≥1200°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,48°C – 0,40°CTemperature calibrator, CJC off0°C≥t≥50°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,49°C – 0,41°CTemperature calibrator, CJC on0°C≥t≥50°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,66°C – 0,48°CTemperature calibrator, CJC off-50°C≥t≥0°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type SGeneration of voltage0,67°C – 0,49°CTemperature calibrator, CJC on-50°C≥t≥0°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,021°C – 0,014°CVoltage calibrator, CJC off-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,048°C – 0,032°CVoltage calibrator, CJC on-40°C≥t≥400°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,057°C – 0,034°CVoltage calibrator, CJC on-40°C≥t≥400°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,075°C – 0,051°CTemperature calibrator, CJC off-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,082°C – 0,021°CVoltage calibrator, CJC off-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,11°C – 0,067°CTemperature calibrator, CJC on-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,14°C – 0,082°CVoltage calibrator, CJC off-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,17°C – 0,075°CTemperature calibrator, CJC off-210°C≥t≥-40°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,18°C – 0,048°CVoltage calibrator, CJC on-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,23°C – 0,057°CVoltage calibrator, CJC on-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,27°C – 0,11°CTemperature calibrator, CJC on-210°C≥t≥-40°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,30°C – 0,18°CVoltage calibrator, CJC on-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,38°C – 0,23°CVoltage calibrator, CJC on-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,48°C – 0,17°CTemperature calibrator, CJC off-255°C≥t≥-210°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,71°C – 0,14°CVoltage calibrator, CJC off-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, voltage calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage0,75°C – 0,27°CTemperature calibrator, CJC on-255°C≥t≥-210°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage1,5°C – 0,30°CVoltage calibrator, CJC on-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage2,0°C – 0,38°CVoltage calibrator, CJC on-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013,voltage calibrator, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage2,5°C – 0,48°CTemperature calibrator, CJC off-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature indicating instrument, thermocouple type TGeneration of voltage3,8°C – 0,75°CTemperature calibrator, CJC on-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0023°C – 0,0029°C--200°C≥t≥0°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0023°C – 0,0029°CResistance 4-wire-200°C≥t≥0°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0023°C – 0,0029°CResistance 4-wire-200°C≥t≥0°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0029°C – 0,0035°C-0°C≥t≥100°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0029°C – 0,0035°CResistance 4-wire0°C≥t≥100°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0029°C – 0,0035°CResistance 4-wire0°C≥t≥100°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0035°C – 0,0036°C-100°C≥t≥200°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0035°C – 0,0036°CResistance 4-wire100°C≥t≥200°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0035°C – 0,0036°CResistance 4-wire100°C≥t≥200°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0036°C – 0,0056°C-200°C≥t≥400°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0036°C – 0,0056°CResistance 4-wire200°C≥t≥400°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0036°C – 0,0056°CResistance 4-wire200°C≥t≥400°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0056°C – 0,0080°C-400°C≥t≥800°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0056°C – 0,0080°CResistance 4-wire400°C≥t≥800°CRTD (IEC 60751)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDElectrically simulated temperature0,0056°C – 0,0080°CResistance 4-wire400°C≥t≥800°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDGeneration of resistance0,0012°C – 0,0052°CResistance 4-wire0°C≥t≥100°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDGeneration of resistance0,0025°C – 0,0012°CResistance 4-wire-200°C≥t≥0°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDGeneration of resistance0,0052°C – 0,0062°CResistance 4-wire100°C≥t≥200°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDGeneration of resistance0,0062°C – 0,0088°CResistance 4-wire200°C≥t≥400°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, RTDGeneration of resistance0,0088°C – 0,015°CResistance 4-wire400°C≥t≥800°CTemperature simulators RTD (IEC 60751), t = measured temperature
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,042°C – 0,043°CVolmeter, CJC off1500°C≥t≥1820°CTC Type B (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,042°C – 0,043°CVolmeter, CJC off1500°C≥t≥1820°CTC Type B (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,084°C – 0,042°CVolmeter, CJC off580°C≥t≥1500°CTC Type B (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,084°C – 0,042°CVolmeter, CJC off580°C≥t≥1500°CTC Type B (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,11°C – 0,084°CVolmeter, CJC off445°C≥t≥580°CTC Type B (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,11°C – 0,084°CVolmeter, CJC off445°C≥t≥580°CTC Type B (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,19°C – 0,11°CVolmeter, CJC off250°C≥t≥445°CTC Type B (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,19°C – 0,11°CVolmeter, CJC off250°C≥t≥445°CTC Type B (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,40°C – 0,23°CTemperature calibrator, CJC on580°C≥t≥1820°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,46°C – 0,25°CTemperature calibrator, CJC off580°C≥t≥1820°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,51°C – 0,40°CTemperature calibrator, CJC on445°C≥t≥580°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,58°C – 0,46°CTemperature calibrator, CJC off445°C≥t≥580°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,65°C – 0,51°CTemperature calibrator, CJC on350°C≥t≥445°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,74°C – 0,58°CTemperature calibrator, CJC off350°C≥t≥445°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature0,91°C – 0,65°CTemperature calibrator, CJC on250°C≥t≥350°CTC Type B (IEC 60584-1:2013,temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type BElectrically simulated temperature1,0°C – 0,74°CTemperature calibrator, CJC off250°C≥t≥350°CTC Type B (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,027°C – 0,037°CVolmeter, CJC off1000°C≥t≥1800°CTC Type C (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,027°C – 0,037°CVolmeter, CJC off1000°C≥t≥1800°CTC Type C (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,028°C – 0,027°CVolmeter, CJC off250°C≥t≥1000°CTC Type C (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,028°C – 0,027°CVolmeter, CJC off250°C≥t≥1000°CTC Type C (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,036°C – 0,028°CVolmeter, CJC off0°C≥t≥250°CTC Type C (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,036°C – 0,028°CVolmeter, CJC off0°C≥t≥250°CTC Type C (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,037°C – 0,066°CVolmeter, CJC off1800°C≥t≥2315°CTC Type C (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,037°C – 0,066°CVolmeter, CJC off1800°C≥t≥2315°CTC Type C (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,15°C – 0,38°CTemperature calibrator, CJC off250°C≥t≥2315°CTC Type C (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type CElectrically simulated temperature0,19°C – 0,15°CTemperature calibrator, CJC off0°C≥t≥250°CTC Type C (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,028°C – 0,064°CVolmeter, CJC off300°C≥t≥2315°CTC Type D (ASTM E230-E230M-17, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,028°C – 0,064°CVolmeter, CJC off300°C≥t≥2315°CTC Type D (ASTM E230-E230M-17, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,037°C – 0,028°CVolmeter, CJC off100°C≥t≥300°CTC Type D (ASTM E230-E230M-17, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,037°C – 0,028°CVolmeter, CJC off100°C≥t≥300°CTC Type D (ASTM E230-E230M-17, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,051°C – 0,037°CVolmeter, CJC off0°C≥t≥100°CTC Type D (ASTM E230-E230M-17, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,051°C – 0,037°CVolmeter, CJC off0°C≥t≥100°CTC Type D (ASTM E230-E230M-17, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,15°C – 0,27°CTemperature calibrator, CJC off300°C≥t≥2100°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,20°C – 0,15°CTemperature calibrator, CJC off100°C≥t≥300°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,27°C – 0,20°CTemperature calibrator, CJC off0°C≥t≥100°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type DElectrically simulated temperature0,27°C – 0,37°CTemperature calibrator, CJC off2100°C≥t≥2315°CTC Type D (ASTM E230-E230M-17, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,0082°C – 0,0085°CVolmeter, CJC off15°C≥t≥1000°CTC Type E (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,0082°C – 0,0085°CVolmeter, CJC off15°C≥t≥1000°CTC Type E (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,019°C – 0,0082°CVolmeter, CJC off-195°C≥t≥15°CTC Type E (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,019°C – 0,0082°CVolmeter, CJC off-195°C≥t≥15°CTC Type E (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,043°C – 0,019°CVolmeter, CJC off-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,043°C – 0,019°CVolmeter, CJC off-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,044°C – 0,058°CTemperature calibrator, CJC off15°C≥t≥1000°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,086°C – 0,041°CVolmeter, CJC on-115°C≥t≥1000°CTC Type E (IEC 60584-1:2013, voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,11°C – 0,044°CTemperature calibrator, CJC off-195°C≥t≥15°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,11°C – 0,086°CVolmeter, CJC on-195°C≥t≥-115°CTC Type E (IEC 60584-1:2013, voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,14°C – 0,076°CTemperature calibrator, CJC on-155°C≥t≥1000°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,19°C – 0,14°CTemperature calibrator, CJC on-195°C≥t≥-155°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,24°C – 0,11°CTemperature calibrator, CJC off-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,26°C – 0,11°CVolmeter, CJC on-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,31°C – 0,043°CVolmeter, CJC off-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,31°C – 0,043°CVolmeter, CJC off-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature0,43°C – 0,19°CTemperature calibrator, CJC on-245°C≥t≥-195°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature1,8°C – 0,24°CTemperature calibrator, CJC off-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature1,9°C – 0,26°CVolmeter, CJC on-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type EElectrically simulated temperature3,1°C – 0,43°CTemperature calibrator, CJC on-270°C≥t≥-245°CTC Type E (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,027°C – 0,049°CVolmeter, CJC off1760°C≥t≥2315°CTC Type G (ASTM E1751-E1751M-15, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,027°C – 0,049°CVolmeter, CJC off1760°C≥t≥2315°CTC Type G (ASTM E1751-E1751M-15, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,042°C – 0,027°CVolmeter, CJC off300°C≥t≥1760°CTC Type G (ASTM E1751-E1751M-15, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,042°C – 0,027°CVolmeter, CJC off300°C≥t≥1760°CTC Type G (ASTM E1751-E1751M-15, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,092°C – 0,042°CVolmeter, CJC off100°C≥t≥300°CTC Type G (ASTM E1751-E1751M-15, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,092°C – 0,042°CVolmeter, CJC off100°C≥t≥300°CTC Type G (ASTM E1751-E1751M-15, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,16°C – 0,28°CTemperature calibrator, CJC off600°C≥t≥2315°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,23°C – 0,16°CTemperature calibrator, CJC off300°C≥t≥600°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,38°C – 0,092°CVolmeter, CJC off0°C≥t≥100°CTC Type G (ASTM E1751-E1751M-15, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,38°C – 0,092°CVolmeter, CJC off0°C≥t≥100°CTC Type G (ASTM E1751-E1751M-15, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature0,49°C – 0,23°CTemperature calibrator, CJC off100°C≥t≥300°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type GElectrically simulated temperature2,0°C – 0,49°CTemperature calibrator, CJC off0°C≥t≥100°CTC Type G (ASTM E1751-E1751M-15, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,0089°C – 0,011°CVolmeter, CJC off200°C≥t≥1200°CTC Type J (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,0089°C – 0,011°CVolmeter, CJC off200°C≥t≥1200°CTC Type J (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,0097°C – 0,0089°CVolmeter, CJC off0°C≥t≥200°CTC Type J (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,0097°C – 0,0089°CVolmeter, CJC off0°C≥t≥200°CTC Type J (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,012°C – 0,0097°CVolmeter, CJC off-100°C≥t≥0°CTC Type J (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,012°C – 0,0097°CVolmeter, CJC off-100°C≥t≥0°CTC Type J (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,025°C – 0,028°CVolmeter, CJC on800°C≥t≥1200°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,026°C – 0,012°CVolmeter, CJC off-210°C≥t≥-100°CTC Type J (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,026°C – 0,012°CVolmeter, CJC off-210°C≥t≥-100°CTC Type J (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,031°C – 0,025°CVolmeter, CJC on0°C≥t≥800°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,033°C – 0,037°CVolmeter, CJC on800°C≥t≥1200°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,038°C – 0,031°CVolmeter, CJC on-100°C≥t≥0°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,042°C – 0,033°CVolmeter, CJC on0°C≥t≥800°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,050°C – 0,056°CTemperature calibrator, CJC off50°C≥t≥800°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,051°C – 0,042°CVolmeter, CJC on-100°C≥t≥0°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,056°C – 0,074°CTemperature calibrator, CJC off800°C≥t≥1200°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,066°C – 0,050°CTemperature calibrator, CJC off-100°C≥t≥50°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,075°C – 0,091°CTemperature calibrator, CJC on800°C≥t≥1200°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,082°C – 0,038°CVolmeter, CJC on-210°C≥t≥-100°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,085°C – 0,075°CTemperature calibrator, CJC on0°C≥t≥800°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,10°C – 0,085°CTemperature calibrator, CJC on-100°C≥t≥0°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,11°C – 0,051°CVolmeter, CJC on-210°C≥t≥-100°CTC Type J (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,15°C – 0,066°CTemperature calibrator, CJC off-210°C≥t≥-100°CTC Type J (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type JElectrically simulated temperature0,23°C – 0,10°CTemperature calibrator, CJC on-210°C≥t≥-100°CTC Type J (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,012°C – 0,018°CVolmeter, CJC off0°C≥t≥-1372°CTC Type K (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,012°C – 0,018°CVolmeter, CJC off0°C≥t≥-1372°CTC Type K (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,030°C – 0,012°CVolmeter, CJC off-195°C≥t≥0°CTC Type K (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,030°C – 0,012°CVolmeter, CJC off-195°C≥t≥0°CTC Type K (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,038°C – 0,046°CVolmeter, CJC on50°C≥t≥1372°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,051°C – 0,062°CVolmeter, CJC on50°C≥t≥1372°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,064°C – 0,11°CTemperature calibrator, CJC off50°C≥t≥-1372°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,089°C – 0,13°CTemperature calibrator, CJC on50°C≥t≥-1372°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,096°C – 0,038°CVolmeter, CJC on-195°C≥t≥50°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,13°C – 0,030°CVolmeter, CJC off-255°C≥t≥-195°CTC Type K (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,13°C – 0,030°CVolmeter, CJC off-255°C≥t≥-195°CTC Type K (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,13°C – 0,051°CVolmeter, CJC on-195°C≥t≥50°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,17°C – 0,064°CTemperature calibrator, CJC off-195°C≥t≥50°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,23°C – 0,089°CTemperature calibrator, CJC on-195°C≥t≥50°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,41°C – 0,096°CVolmeter, CJC on-255°C≥t≥-195°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,56°C – 0,13°CVolmeter, CJC on-255°C≥t≥-195°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,67°C – 0,13°CVolmeter, CJC off-270°C≥t≥-255°CTC Type K (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,67°C – 0,13°CVolmeter, CJC off-270°C≥t≥-255°CTC Type K (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,73°C – 0,17°CTemperature calibrator, CJC off-255°C≥t≥-195°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature0,99°C – 0,23°CTemperature calibrator, CJC on-255°C≥t≥-195°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature2,1°C – 0,41°CVolmeter, CJC on-270°C≥t≥-255°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature2,8°C – 0,56°CVolmeter, CJC on-270°C≥t≥-255°CTC Type K (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature3,7°C – 0,73°CTemperature calibrator, CJC off-270°C≥t≥-255°CTC Type K (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type KElectrically simulated temperature5,1°C – 0,99°CTemperature calibrator, CJC on-270°C≥t≥-255°CTC Type K (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,013°C – 0,017°CVolmeter, CJC off400°C≥t≥1300°CTC Type N (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,013°C – 0,017°CVolmeter, CJC off400°C≥t≥1300°CTC Type N (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,023°C – 0,013°CVolmeter, CJC off-100°C≥t≥400°CTC Type N (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,023°C – 0,013°CVolmeter, CJC off-100°C≥t≥400°CTC Type N (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,030°C – 0,032°CVolmeter, CJC on600°C≥t≥1300°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,031°C – 0,034°CVolmeter, CJC on600°C≥t≥1300°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,049°C – 0,023°CVolmeter, CJC off-200°C≥t≥-100°CTC Type N (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,049°C – 0,023°CVolmeter, CJC off-200°C≥t≥-100°CTC Type N (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,054°C – 0,030°CVolmeter, CJC on-100°C≥t≥600°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,058°C – 0,031°CVolmeter, CJC on-100°C≥t≥600°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,078°C – 0,10°CTemperature calibrator, CJC off400°C≥t≥1300°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,085°C – 0,10°CTemperature calibrator, CJC on400°C≥t≥1300°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,11°C – 0,054°CVolmeter, CJC on-200°C≥t≥-100°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,12°C – 0,058°CVolmeter, CJC on-200°C≥t≥-100°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,13°C – 0,078°CTemperature calibrator, CJC off-100°C≥t≥400°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,14°C – 0,085°CTemperature calibrator, CJC on-100°C≥t≥400°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,27°C – 0,13°CTemperature calibrator, CJC off-200°C≥t≥-100°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature0,30°C – 0,14°CTemperature calibrator, CJC on-200°C≥t≥-100°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature1,4°C – 0,049°CVolmeter, CJC off-270°C≥t≥-200°CTC Type N (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature1,4°C – 0,049°CVolmeter, CJC off-270°C≥t≥-200°CTC Type N (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature3,3°C – 0,11°CVolmeter, CJC on-270°C≥t≥-200°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature3,5°C – 0,12°CVolmeter, CJC on-270°C≥t≥-200°CTC Type N (volmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature8,0°C – 0,27°CTemperature calibrator, CJC off-270°C≥t≥-200°CTC Type N (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type NElectrically simulated temperature9,0°C – 0,30°CTemperature calibrator, CJC on-270°C≥t≥-200°CTC Type N (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,014°C – 0,020°CVolmeter, CJC off100°C≥t≥1395°CTC Type Platinell (ASTM E1751-E1751M-15, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,014°C – 0,020°CVolmeter, CJC off100°C≥t≥1395°CTC Type Platinell (ASTM E1751-E1751M-15, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,016°C – 0,014°CVolmeter, CJC off0°C≥t≥100°CTC Type Platinell (ASTM E1751-E1751M-15, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,016°C – 0,014°CVolmeter, CJC off0°C≥t≥100°CTC Type Platinell (ASTM E1751-E1751M-15, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,075°C – 0,087°CTemperature calibrator, CJC off100°C≥t≥925°CTC Type Platinell (ASTM E1751-E1751M-15, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,087°C – 0,075°CTemperature calibrator, CJC off0°C≥t≥100°CTC Type Platinell (ASTM E1751-E1751M-15, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type PlatinellElectrically simulated temperature0,087°C – 0,13°CTemperature calibrator, CJC off925°C≥t≥1395°CTC Type Platinell (ASTM E1751-E1751M-15, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,040°C – 0,040°CVolmeter, CJC off775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,040°C – 0,040°CVolmeter, CJC off775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,076°C – 0,040°CVolmeter, CJC off45°C≥t≥775°CTC Type R (IEC 60581-1:2013, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,076°C – 0,040°CVolmeter, CJC off45°C≥t≥775°CTC Type R (IEC 60581-1:2013, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,13°C – 0,076°CVolmeter, CJC off-50°C≥t≥45°CTC Type R (IEC 60581-1:2013, volmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,13°C – 0,076°CVolmeter, CJC off-50°C≥t≥45°CTC Type R (IEC 60581-1:2013, voltmeter CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,20°C – 0,22°CTemperature calibrator, CJC on775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,23°C – 0,25°CTemperature calibrator, CJC off775°C≥t≥1768°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,36°C – 0,20°CTemperature calibrator, CJC on45°C≥t≥775°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,41°C – 0,23°CTemperature calibrator, CJC off45°C≥t≥775°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,53°C – 0,36°CTemperature calibrator, CJC on-30°C≥t≥45°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,59°C – 0,41°CTemperature calibrator, CJC off-30°C≥t≥45°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,63°C – 0,53°CTemperature calibrator, CJC on-50°C≥t≥-30°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type RElectrically simulated temperature0,70°C – 0,59°CTemperature calibrator, CJC off-50°C≥t≥-30°CTC Type R (IEC 60581-1:2013, temperature calibrator CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,041°C – 0,048°CVolmeter, CJC off1200°C≥t≥1768°CTC Type S (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,041°C – 0,048°CVolmeter, CJC off1200°C≥t≥1768°CTC Type S (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,058°C – 0,041°CVolmeter, CJC off200°C≥t≥1200°CTC Type S (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,058°C – 0,041°CVolmeter, CJC off200°C≥t≥1200°CTC Type S (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,060°C – 0,071°CVolmeter, CJC on1200°C≥t≥1768°CTC Type S (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,061°C – 0,072°CVolmeter, CJC on1200°C≥t≥1768°CTC Type S (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,090°C – 0,058°CVolmeter, CJC off0°C≥t≥200°CTC Type S (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,090°C – 0,058°CVolmeter, CJC off0°C≥t≥200°CTC Type S (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,11°C – 0,060°CVolmeter, CJC on50°C≥t≥1200°CTC Type S (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,11°C – 0,061°CVolmeter, CJC on50°C≥t≥1200°CTC Type S (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,12°C – 0,090°CVolmeter, CJC off-50°C≥t≥0°CTC Type S (volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,12°C – 0,090°CVolmeter, CJC off-50°C≥t≥0°CTC Type S (voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,13°C – 0,11°CVolmeter, CJC on0°C≥t≥50°CTC Type S (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,18°C – 0,13°CVolmeter, CJC on-50°C≥t≥-0°CTC Type S (voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,21°C – 0,26°CTemperature calibrator, CJC on1200°C≥t≥1768°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,24°C – 0,29°CTemperature calibrator, CJC off1200°C≥t≥1768°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,36°C – 0,21°CTemperature calibrator, CJC on50°C≥t≥1200°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,40°C – 0,24°CTemperature calibrator, CJC off50°C≥t≥1200°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,43°C – 0,36°CTemperature calibrator, CJC on0°C≥t≥50°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,48°C – 0,40°CTemperature calibrator, CJC off0°C≥t≥50°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,59°C – 0,43°CTemperature calibrator, CJC on-50°C≥t≥0°CTC Type S (temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type SElectrically simulated temperature0,66°C – 0,48°CTemperature calibrator, CJC off-50°C≥t≥0°CTC Type S (temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,014°C – 0,0081°CVolmeter, CJC off-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,014°C – 0,0081°CVolmeter, CJC off-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,042°C – 0,024°CVolmeter, CJC on-40°C≥t≥400°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,056°C – 0,014°CVolmeter, CJC off-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,056°C – 0,014°CVolmeter, CJC off-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,059°C – 0,034°CVolmeter, CJC on-40°C≥t≥400°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,075°C – 0,050°CTemperature calibrator, CJC off-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,095°C – 0,056°CVolmeter, CJC off-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,095°C – 0,056°CVolmeter, CJC off-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,10°C – 0,062°CTemperature calibrator, CJC on-40°C≥t≥400°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,17°C – 0,042°CVolmeter, CJC on-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,19°C – 0,076°CTemperature calibrator, CJC off-210°C≥t≥-40°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,23°C – 0,059°CVolmeter, CJC on-240°C≥t≥-40°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,25°C – 0,10°CTemperature calibrator, CJC on-210°C≥t≥-40°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,29°C – 0,17°CVolmeter, CJC on-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,40°C – 0,23°CVolmeter, CJC on-255°C≥t≥-240°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,49°C – 0,095°CVolmeter, CJC off-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, volmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,49°C – 0,095°CVolmeter, CJC off-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, voltmeter, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,54°C – 0,19°CTemperature calibrator, CJC off-255°C≥t≥-210°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature0,71°C – 0,25°CTemperature calibrator, CJC on-255°C≥t≥-210°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature1,5°C – 0,29°CVolmeter, CJC on-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature2,0°C – 0,40°CVolmeter, CJC on-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013,voltmeter, ice point reference, CJC on)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature2,7°C – 0,54°CTemperature calibrator, CJC off-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC off)
TemperatureInhouse method; AKL0012/2018:PMM11523Temperature simulating instrument, thermocouple type TElectrically simulated temperature3,6°C – 0,71°CTemperature calibrator, CJC on-270°C≥t≥-255°CTC Type T (IEC 60584-1:2013, temperature calibrator, CJC on)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,0020 °CGallium melting point Calibration in temperature fixed point, temperature scale ITS-9029,7646 °CDirektvisande resistanstermometerar (SPRT, IPRT och termistor)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,0070 °CGallium melting point Calibration in temperature fixed point, temperature scale ITS-9029,7646 °CResistanstermometerar (SPRT, IPRT och termistor)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,024 °CComparison against standard resistance thermometer. Comparison in thermostatic bath (ethanol, water)-80 - 90 °CDirektvisande resistanstermometerar (SPRT, IPRT och termistor)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,029 °CComparison against standard resistance thermometer. Comparison in thermostatic bath (oil)90 - 250 °CDirektvisande resistanstermometerar (SPRT, IPRT och termistor)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,030 °CComparison against standard resistance thermometer. Comparison in thermostatic bath (ethanol, water)-80 - 90 °CResistanstermometerar (SPRT, IPRT och termistor)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,035 °CComparison against standard resistance thermometer. Comparison in thermostatic bath (oil)90 - 250 °CResistanstermometerar (SPRT, IPRT och termistor)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108227Temperature sensors-0,11°C - 0,41°CComparison with standard resistance thermometer. Comparison in oven50 - 650 °CResistanstermometerar (SPRT, IPRT och termistor) (även direktvisande)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-0,10°CComparison against standard resistance thermometer. Comparison in thermostatic bath (ethanol, water)-80 - 90 °CDirektvisande termoelementstermometer
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-0,14 °CComparison against standard resistance thermometer. Comparison in thermostatic bath (ethanol, water)-80 - 90 °CTermoelement (ädla och oädla)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-0,15°CComparison against standard resistance thermometer. Comparison in thermostatic bath (oil)90 - 250 °CDirektvisande termoelementstermometer
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-0,18°CComparison against standard resistance thermometer. Comparison in thermostatic bath (oil)90 - 250 °CTermoelement (ädla och oädla)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-0,30°C - 0,70°CComparison with standard resistance thermometer. Comparison in oven50 - 650 °CTermolement eller direktvisande termoelementstermometer (ädla och oädla)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-0,7°C to 1,0°CComparison with standard resistance thermometer. Comparison in oven300 - 1000 °CTermolement eller direktvisande termoelementstermometer (ädla och oädla)
TemperatureInhouse method; EL-CA-T-MOM-SE-SOP108484Temperature sensors-1,0°C to 1,2°CComparison with standard resistance thermometer. Comparison in oven1000 - 1200 °CTermolement eller direktvisande termoelementstermometer (ädla och oädla)
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-0,36°CSystem accuracy test-50°C - 0°CBaserad på kraven i AMS 2750
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-0,47°CSystem accuracy test0°C - 210°CBaserad på kraven i AMS 2750
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-0,47°CTemperature uniformity survey0°C - 210°CBaserad på kraven i AMS 2750
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-0,65°CSystem accuracy test210°C - 260°CBaserad på kraven i AMS 2750
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-0,65°CTemperature uniformity survey210°C - 260°CBaserad på kraven i AMS 2750
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-1,1°C - 2,2 °CSystem accuracy test260°C - 1200°CBaserad på kraven i AMS 2750
TemperatureInhouse method; EL-CA-T-MOM-X-SOP104950Temperature sensors-1,1°C - 2,2°CTemperature uniformity survey260°C - 1200°CBaserad på kraven i AMS 2750
MätstorhetMetod/procedurProdukt/objektUtvidgad mätosäkerhet ±Utrustning/MätprincipMätområde/mätnivåAnmärkningFlexBusiness unit
FrequencyInhouse method; T/2003:PMM919Time display0,0000061 µs - 0,0097 msHorizontal deflection calibration with oscilloscope calibrator1 µs - 100 ms-
FrequencyInhouse method; T/2003:PMM919Time display0,0000061 µs - 0,0097 msHorizontal deflection calibration with oscilloscope calibrator1 µs - 100 ms-
FrequencyInhouse method; T/2004:PMM2215Frequency showing5,8E-006*f - 1,9E-006*fCalibrating frequency with calibrator1 Hz - 2 MHzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3371Generating1,2·10⁻¹²·fMeasuring frequency with GPS receiver1 MHz - 10 MHz-
FrequencyInhouse method; T/2005:PMM3372Generating1,6·10⁻¹⁰·f - 6,0·10⁻¹¹·fMeasuring frequency with a frequency counter1 kHz - 1 MHzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3372Generating1,6·10⁻¹⁰·f - 6,2·10⁻¹¹·fMeasuring frequency with a frequency counter1 kHz - 1 MHzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3372Generating1,6E-010*T - 2,9E-007*TMeasurement of frequency with frequency counter, period time1 ms - 1 sT=uppmätt periodtid
FrequencyInhouse method; T/2005:PMM3372Generating2,9·10⁻3·f - 2,9·10⁻7·fMeasuring frequency with a frequency counter10 mHz - 1 Hzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3372Generating2,9·10⁻7·f - 1,6·10⁻¹⁰·fMeasuring frequency with a frequency counter1 Hz - 1 kHzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3372Generating2,9E-007*T - 0,00029*TMeasurement of frequency with frequency counter, period time1 s - 100 sT=uppmätt periodtid
FrequencyInhouse method; T/2005:PMM3372Generating6,0·10⁻¹¹·fMeasuring frequency with a frequency counter1 GHz - 40 GHzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3372Generating6,0·10⁻¹¹·fMeasuring frequency with a frequency counter1 MHz - 1 GHzf=uppmätt frekvens
FrequencyInhouse method; T/2005:PMM3372Generating6E-011*TMeasurement of frequency with frequency counter, period time25 ps - 1 nsT=uppmätt periodtid
FrequencyInhouse method; T/2005:PMM3372Generating6E-011*T - 1,6E-010*TMeasurement of frequency with frequency counter, period time1 ns - 1 msT=uppmätt periodtid
TimeInhouse method; AKL0012/2019:PMM11829Time display0,037 s/day - 0,039 s/day-± 0 s/day ≥ r ≤ ± 10 s/day-
TimeInhouse method; AKL0012/2019:PMM11829Time display0,039 s/day - 0,12 s/day-± 10 s/day ≥ r ≤ ± 100 s/day-
TimeInhouse method; T/2003:PMM919Time display0,0000061 µs - 0,0097 msHorizontal deflection calibration with oscilloscope calibrator1 µs - 100 ms-
TimeInhouse method; T/2004:PMM2216Frequency showing0,0077 % - 0,0078 %Calibrate pulse ratio on multimeter with calibrator10 % - 90 %10 Hz - 1 kHz
TimeInhouse method; T/2004:PMM2216Frequency showing0,0078%-0,021%Calibrate pulse ratio on multimeter with calibrator10 % - 90 %1 kHz - 100 kHz
TimeInhouse method; T/2005:PMM3373Generating2,9·10⁻¹·t - 2,9·10⁻⁴·tMeasuring time with frequency counters1 ns - 1 µs-
TimeInhouse method; T/2005:PMM3373Generating2,9·10⁻¹·t - 2,9·10⁻⁴·tMeasuring time with frequency counters1 ns - 1 µs-
TimeInhouse method; T/2005:PMM3373Generating2,9·10⁻¹⁰·t - 6,0·10⁻¹¹·tMeasuring time with frequency counters1 s - 1000 s-
TimeInhouse method; T/2005:PMM3373Generating2,9·10⁻⁴·t - 2,9·10⁻⁷·tMeasuring time with frequency counters1 μs - 1 ms-
TimeInhouse method; T/2005:PMM3373Generating2,9·10⁻⁴·t - 2,9·10⁻⁷·tMeasuring time with frequency counters1 µs - 1 ms-
TimeInhouse method; T/2005:PMM3373Generating2,9·10⁻⁷·t - 2,9·10⁻¹⁰·tMeasuring time with frequency counters1 ms - 1 s-
TimeInhouse method; T/2005:PMM3373Generating6,0·10⁻¹¹·tMeasuring time with frequency counters1000 s - 1·10⁷ s-
  • The calibration and measurement capability (CMC) includes measureand (technology area), method, measurement range and expanded measurement uncertainty. The expanded measurement uncertainty corresponds to a coverage probability (confidence level) of ~95%.
  • The accredited body has been granted flexible scope. The body shall be able to provide an updated list of the current scope of accreditation upon request.

Regulations

STAFS 2020:1
Swedacs föreskrifter och allmänna råd om ackreditering