Cantherm MF52C104F4150-G410
- Part Number:
- MF52C104F4150-G410
- Manufacturer:
- Cantherm
- Ventron No:
- 4869128-MF52C104F4150-G410
- Description:
- NTC THERMISTOR 100K OHM 1% BEAD
- ECAD Model:
-
- Datasheet:
- MF52C104F4150-G410
Cantherm MF52C104F4150-G410 technical specifications, attributes, parameters and parts with similar specifications to Cantherm MF52C104F4150-G410.
- Factory Lead Time10 Weeks
- MountThrough Hole
- Mounting TypeThrough Hole
- Package / CaseBead
- Operating Temperature-55°C~125°C
- PackagingBulk
- SeriesMF52
- Published2010
- Tolerance1%
- Part StatusActive
- Moisture Sensitivity Level (MSL)Not Applicable
- Max Operating Temperature125°C
- Min Operating Temperature-55°C
- Max Power Dissipation50mW
- Lead Length7.87 200.00mm
- Power - Max50mW
- Resistance Tolerance±1%
- Resistance in Ω @ 25°C100k
- B Value Tolerance±1%
- B25/504150K
- RoHS StatusROHS3 Compliant
MF52C104F4150-G410 Overview
NTC thermistors comes in the package of a Bulk. For convenience, it is included in the Bead package. The resistance tolerance for NTC thermistors is ±1% to make it work. To ensure reliable performance, the temperature of NTC thermistors should be set to -55°C~125°C. The maximum operating temperature of 125°C allows for reliable operation of NTC thermistors. For reliability, NTC thermistors can operate at a minimum temperature of -55°C. The maximum power set by the NTC thermistors is 50mW. NTC thermistors can operate at a maximum power dissipation of 50mW.
MF52C104F4150-G410 Features
Package/Case: Bulk
MF52 Series
Operating Temperature: -55°C~125°C
Mounting Type: Through Hole
1% Tolerance
MF52C104F4150-G410 Applications
There are a lot of Cantherm
MF52C104F4150-G410 NTC Thermistors applications.
Temperature compensation for crystal oscillator
Temperature compensation for semiconductor devices
Temperature detection for CPU and memory device
Temperature compensation for ink-viscosity (Inkjet Printer)
Temperature detection of battery cells
Temperature compensation of display contrast
Temperature compensation of display backlighting (CCFL)
Personal Computer and Peripheral Device
Personal Computer and Peripheral Device
Liquid Crystal Display
NTC thermistors comes in the package of a Bulk. For convenience, it is included in the Bead package. The resistance tolerance for NTC thermistors is ±1% to make it work. To ensure reliable performance, the temperature of NTC thermistors should be set to -55°C~125°C. The maximum operating temperature of 125°C allows for reliable operation of NTC thermistors. For reliability, NTC thermistors can operate at a minimum temperature of -55°C. The maximum power set by the NTC thermistors is 50mW. NTC thermistors can operate at a maximum power dissipation of 50mW.
MF52C104F4150-G410 Features
Package/Case: Bulk
MF52 Series
Operating Temperature: -55°C~125°C
Mounting Type: Through Hole
1% Tolerance
MF52C104F4150-G410 Applications
There are a lot of Cantherm
MF52C104F4150-G410 NTC Thermistors applications.
Temperature compensation for crystal oscillator
Temperature compensation for semiconductor devices
Temperature detection for CPU and memory device
Temperature compensation for ink-viscosity (Inkjet Printer)
Temperature detection of battery cells
Temperature compensation of display contrast
Temperature compensation of display backlighting (CCFL)
Personal Computer and Peripheral Device
Personal Computer and Peripheral Device
Liquid Crystal Display
MF52C104F4150-G410 More Descriptions
THERM NTC 100KOHM 4150K BEAD
The three parts on the right have similar specifications to MF52C104F4150-G410.
-
ImagePart NumberManufacturerFactory Lead TimeMountMounting TypePackage / CaseOperating TemperaturePackagingSeriesPublishedTolerancePart StatusMoisture Sensitivity Level (MSL)Max Operating TemperatureMin Operating TemperatureMax Power DissipationLead LengthPower - MaxResistance ToleranceResistance in Ω @ 25°CB Value ToleranceB25/50RoHS StatusResistanceLead FreeView Compare
-
MF52C104F4150-G41010 WeeksThrough HoleThrough HoleBead-55°C~125°CBulkMF5220101%ActiveNot Applicable125°C-55°C50mW7.87 200.00mm50mW±1%100k±1%4150KROHS3 Compliant--- -
10 WeeksThrough HoleThrough HoleBead-55°C~125°CBulkMF5220105%ActiveNot Applicable125°C-55°C50mW-50mW±5%10k-3470KROHS3 Compliant--
-
-Through HoleThrough HoleBead-55°C~125°CBulkMF5220065%ObsoleteNot Applicable125°C-55°C50mW-50mW±5%3.3k-3470KRoHS Compliant3.3kOhmLead Free
-
9 Weeks----55°C~125°CBulk-20101%ActiveNot Applicable--50mW--±1%50k-3380KROHS3 Compliant--
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
22 September 2023
Power Transistor IC LM317LZ: Symbol, Features and Package
Ⅰ. Overview of LM317LZⅡ. Symbol and Footprint of LM317LZⅢ. Technical parametersⅣ. Features of LM317LZⅤ. Pins and package of LM317LZⅥ. Advantages and disadvantages of LM317LZⅦ. How to optimize the... -
22 September 2023
LM301AN Operational Amplifier: Equivalent, Circuit and Package
Ⅰ. What is LM301AN?Ⅱ. Symbol, footprint and pin connection of LM301ANⅢ. Technical parametersⅣ. LM301AN tone control circuitⅤ. Features of LM301ANⅥ. What is the difference between LM301AN and LM709?Ⅶ.... -
25 September 2023
Get to Know the IRFB7545PBF Power MOSFET
Ⅰ. What is IRFB7545PBF?Ⅱ. Symbol and Footprint of IRFB7545PBFⅢ. Technical parametersⅣ. Features of IRFB7545PBFⅤ. Pinout and package of IRFB7545PBFⅥ. Application of IRFB7545PBFⅦ. How to use IRFB7545PBF?Ⅷ. How to... -
25 September 2023
A Comparison of 2N7000 and BS170 N-Channel Mosfet Transistors
Ⅰ. What is a MOS field effect transistor?Ⅱ. Overview of 2N7000Ⅲ. Overview of BS170Ⅳ. 2N7000 vs BS170: PCB footprintsⅤ. 2N7000 vs BS170: Technical parametersⅥ. 2N7000 vs BS170: FeaturesⅦ....
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.