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Ni81Fe19 Abstract: HL-Planartechnik electrical field sensor Magnetic Field Sensors wheatstone bridge sensor Resistivity sensor SM8 "Current Sensor" permalloy Text: Magnetic Field Sensors Current Sensor KMC 05 Function principle Magnetoresistive materials can change their resistivity in an external magnetic field. The variation of the resistivity is determined by the rotation of magnetisation with respect to the direction of the current flow. Permalloy Ni81Fe19 is commercially used as	Original	Ni81Fe19) Ni81Fe19 HL-Planartechnik electrical field sensor Magnetic Field Sensors wheatstone bridge sensor Resistivity sensor SM8 "Current Sensor" permalloy	PDF
KMZ20 Abstract: C12120 Ni81Fe19 KMZ20S Text: Magnetic Field Sensors KMY 20 S / KMZ 20 S Function principle Magnetoresistive materials can change their resistivity in an external magnetic field. The variation of the resistivity is determined by the rotation of magnetisation with respect to the direction of the current flow. Permalloy Ni81Fe19 is commercially used as	Original	Ni81Fe19) OT-223-S KMZ20 C12120 Ni81Fe19 KMZ20S	PDF
KMZ20M Abstract: differential magnetoresistive sensor magnetic field measuring Magnetic Field Sensor magnetic stripe Ni81Fe19 KMZ20 Text: Magnetic Field Sensors KMZ 20 M1 Function principle Magnetoresistive materials can change their resistivity in an external magnetic field. The variation of the resistivity is determined by the rotation of magnetisation with respect to the direction of the current flow. Permalloy Ni81Fe19 is commercially used as	Original	Ni81Fe19) KMZ20M differential magnetoresistive sensor magnetic field measuring Magnetic Field Sensor magnetic stripe Ni81Fe19 KMZ20	PDF
Wheatstone Bridge Abstract: KMT31 Wheatstone Bridge as a temperature sensor Ni81Fe19 Wheatstone permalloy HL-Planartechnik V/wheatstone bridge Text: Magnetic Field Sensors Angle Sensor KMT 31 Function principle Magnetoresistive materials can change their resistivity in an external magnetic field. The variation of the resistivity is determined by the rotation of magnetisation with respect to the direction of the current flow. Permalloy Ni81Fe19 is commercially used as	Original	Ni81Fe19) KMT31: Wheatstone Bridge KMT31 Wheatstone Bridge as a temperature sensor Ni81Fe19 Wheatstone permalloy HL-Planartechnik V/wheatstone bridge	PDF
differential magnetoresistive sensor Abstract: KMY20M Magnetic resistance KMY20 Magnetic Field Sensor Ni81Fe19 Differential Magnetoresistive Text: Magnetic Field Sensors KMY 20 M Function principle Magnetoresistive materials can change their resistivity in an external magnetic field. The variation of the resistivity is determined by the rotation of magnetisation with respect to the direction of the current flow. Permalloy Ni81Fe19 is commercially used as	Original	Ni81Fe19) OT-223-S differential magnetoresistive sensor KMY20M Magnetic resistance KMY20 Magnetic Field Sensor Ni81Fe19 Differential Magnetoresistive	PDF
Ni81Fe19 Abstract: KMZ20S HL-Planartechnik KMY20 Sensoren Text: Magnetfeld Sensoren KMY 20 S / KMZ 20 S Wirkungsweise Magnetoresisive Materialien ändern ihren elektrischen Widerstand bei Anwesenheit von einem externen Magnetfeld. Diese Widerstandsänderung ist abhängig von der Richtung des Magnetischen Feldes und der Richtung des elektrischen Stromflusses des	Original	Ni81Fe19) eine30 OT-223-S Ni81Fe19 KMZ20S HL-Planartechnik KMY20 Sensoren	PDF
Galvanic Skin Response Sensor Abstract: ZMY20M Wheatstone Bridge amplifier barber ZMZ20M ZMX50MT8 AMR sensor BARBER CONTROL ZMC05 Ni81Fe19 Text: Application Note 37 Basic Introduction to the use of Magnetoresistive Sensors Howard Mason, September 2003 This application note provides an introduction to the rudiments of anisotropic magnetoresistive AMR sensors for those users who may be unfamiliar with their characteristics and modes of	Original		PDF
HL-Planartechnik Abstract: Ni81Fe19 kmz 20 KMZ20S hx 36 permalloy Text: Magnetfeld Sensoren KMZ 20 M1 Wirkungsweise Magnetoresistive Materialien ändern ihren elektrischen Widerstand bei Anwesenheit von einem externen Magnetfeld. Diese Widerstandsänderung ist Abhängig von der Richtung des Magnetischen Feldes und der Richtung des elektrischen Stromflusses des	Original	Ni81Fe19) HL-Planartechnik Ni81Fe19 kmz 20 KMZ20S hx 36 permalloy	PDF
KMY20M Abstract: Ni81Fe19 KMY20 Sensoren Text: Magnetfeld Sensoren KMY 20 M Wirkungsweise Magnetoresistive Materialien ändern ihren elektrischen Widerstand bei Anwesenheit von einem externen Magnetfeld. Diese Widerstandsänderung ist Abhängig von der Richtung des Magnetischen Feldes und der Richtung des elektrischen Stromflusses des	Original	Ni81Fe19) OT-223-S KMY20M Ni81Fe19 KMY20 Sensoren	PDF
CONVENTIONAL ZENER DIODE 4V7 Abstract: Galvanic Skin Response Sensor 4.7k pot INA125 ZMC05 ZXCT1030 zxct1010 ZMC10 AN39 47k pot Text: Application Note 39 Current Measurement Applications Handbook Contents Page No. Introduction 2 Chapter 1: Resistive DC current measurement 3 Chapter 2: Zetex ZXCT product description 9 Chapter 3: ZXCT application notes 10 Chapter 4: Magnetic AC and DC current measurement	Original	implication50 CONVENTIONAL ZENER DIODE 4V7 Galvanic Skin Response Sensor 4.7k pot INA125 ZMC05 ZXCT1030 zxct1010 ZMC10 AN39 47k pot	PDF
10K preset Abstract: barber ZRA500 4066 u3a the Wheatstone Bridge magnetic stripe immobiliser Ni81Fe19 ZMY20M permalloy zmy20 Text: Application Note 20 Issue 1 April 1996 Magnetoresistive Sensors Principles of Operation and Applications Stefan Hübschmann Matthias Schneider This a pplication note provides an overview of the Zetex range of Magnetoresistive sensors. The layout of a typical magnetoresistive	Original	ZMY20 Ni81Fe19) 10K preset barber ZRA500 4066 u3a the Wheatstone Bridge magnetic stripe immobiliser Ni81Fe19 ZMY20M permalloy zmy20	PDF