Cantherm MF52A2103J3470
- Part Number:
- MF52A2103J3470
- Manufacturer:
- Cantherm
- Ventron No:
- 4869131-MF52A2103J3470
- Description:
- NTC THERMISTOR 10K OHM 5% BEAD
- Datasheet:
- MF52A2103J3470
Cantherm MF52A2103J3470 technical specifications, attributes, parameters and parts with similar specifications to Cantherm MF52A2103J3470.
- Factory Lead Time10 Weeks
- MountThrough Hole
- Mounting TypeThrough Hole
- Package / CaseBead
- Operating Temperature-55°C~125°C
- PackagingBulk
- SeriesMF52
- Published2010
- Tolerance5%
- Part StatusActive
- Moisture Sensitivity Level (MSL)Not Applicable
- Max Operating Temperature125°C
- Min Operating Temperature-55°C
- Max Power Dissipation50mW
- Power - Max50mW
- Resistance Tolerance±5%
- Resistance in Ω @ 25°C10k
- B25/503470K
- RoHS StatusROHS3 Compliant
MF52A2103J3470 Overview
It is common to find NTC thermistors packaged in the form of a Bulk. In order to make it more convenient, it has been included in the package Bead. NTC thermistors require a resistance tolerance of ±5% for them to function. Ensure that the temperature of NTC thermistors is set to -55°C~125°C in order to ensure reliable performance. NTC thermistors are designed to operate reliably at temperatures below 125°C. In order to preserve reliability, NTC thermistors should not be operated at temperatures below -55°C. A NTC thermistor can set a maximum power of 50mW. Thermistors with NTC technology have a maximum power dissipation rate of 50mW.
MF52A2103J3470 Features
Package/Case: Bulk
MF52 Series
Operating Temperature: -55°C~125°C
Mounting Type: Through Hole
5% Tolerance
MF52A2103J3470 Applications
There are a lot of Cantherm
MF52A2103J3470 NTC Thermistors applications.
Personal Computer and Peripheral Device
Personal Computer and Peripheral Device
Liquid Crystal Display
Temperature measurement and compensation
LCD compensation
Battery packs
Mobile phones
CD players
Heating systems
Air-conditioning systems
It is common to find NTC thermistors packaged in the form of a Bulk. In order to make it more convenient, it has been included in the package Bead. NTC thermistors require a resistance tolerance of ±5% for them to function. Ensure that the temperature of NTC thermistors is set to -55°C~125°C in order to ensure reliable performance. NTC thermistors are designed to operate reliably at temperatures below 125°C. In order to preserve reliability, NTC thermistors should not be operated at temperatures below -55°C. A NTC thermistor can set a maximum power of 50mW. Thermistors with NTC technology have a maximum power dissipation rate of 50mW.
MF52A2103J3470 Features
Package/Case: Bulk
MF52 Series
Operating Temperature: -55°C~125°C
Mounting Type: Through Hole
5% Tolerance
MF52A2103J3470 Applications
There are a lot of Cantherm
MF52A2103J3470 NTC Thermistors applications.
Personal Computer and Peripheral Device
Personal Computer and Peripheral Device
Liquid Crystal Display
Temperature measurement and compensation
LCD compensation
Battery packs
Mobile phones
CD players
Heating systems
Air-conditioning systems
MF52A2103J3470 More Descriptions
THERMISTOR NTC 10KOHM 3470K BEAD
The three parts on the right have similar specifications to MF52A2103J3470.
-
ImagePart NumberManufacturerFactory Lead TimeMountMounting TypePackage / CaseOperating TemperaturePackagingSeriesPublishedTolerancePart StatusMoisture Sensitivity Level (MSL)Max Operating TemperatureMin Operating TemperatureMax Power DissipationPower - MaxResistance ToleranceResistance in Ω @ 25°CB25/50RoHS StatusResistanceLead FreeLead LengthView Compare
-
MF52A2103J347010 WeeksThrough HoleThrough HoleBead-55°C~125°CBulkMF5220105%ActiveNot Applicable125°C-55°C50mW50mW±5%10k3470KROHS3 Compliant----
-
-Through HoleThrough HoleBead-55°C~125°CBulkMF52-5%ObsoleteNot Applicable--50mW-±5%33k3470KRoHS Compliant33kOhmLead Free-
-
9 WeeksThrough HoleThrough HoleBead-55°C~125°CBulkMF5220101%ActiveNot Applicable--50mW-±1%2k3470KROHS3 Compliant--7.87 200.00mm
-
9 WeeksThrough HoleThrough HoleBead-55°C~125°CBulkMF5220101%ActiveNot Applicable--50mW-±1%2.2k3470KROHS3 Compliant--7.87 200.00mm
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