Cornell Dubilier Electronics (CDE) MCH38FK471J
- Part Number:
- MCH38FK471J
- Manufacturer:
- Cornell Dubilier Electronics (CDE)
- Ventron No:
- 2581142-MCH38FK471J
- Description:
- CAP MICA 470PF 5% 2.5KV SMD
- Datasheet:
- MCH/MCHN Types Datasheet
Cornell Dubilier Electronics (CDE) MCH38FK471J technical specifications, attributes, parameters and parts with similar specifications to Cornell Dubilier Electronics (CDE) MCH38FK471J.
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / CaseNonstandard SMD
- Terminal ShapeWRAPAROUND
- Dielectric MaterialMica
- Operating Temperature-55°C~125°C
- PackagingBulk
- Published2014
- SeriesMCH
- Size / Dimension0.380Lx0.380W 9.65mmx9.65mm
- Tolerance±5%
- JESD-609 Codee3
- FeatureRF, High Q, Low Loss
- Pbfree Codeyes
- Part StatusLast Time Buy
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations2
- TerminationSMD/SMT
- ECCN CodeEAR99
- Temperature Coefficient50 ppm/°C
- Terminal FinishTin (Sn)
- Voltage - Rated2.5kV
- HTS Code8532.29.00.20
- Capacitance470pF
- Reference StandardAEC-Q200
- Rated (DC) Voltage (URdc)2500V
- Size Code4341
- Dissipation Factor0.1 %
- Height4.06mm
- Height Seated (Max)0.160 4.06mm
- Length9.65mm
- Width9.65mm
- RoHS StatusROHS3 Compliant
MCH38FK471J Overview
The surface mount of this particular product is mounted on a surface, making it easy to install and use. The packaging for this product is bulk, which means it is sold in large quantities. It was published in the year 2014, indicating that it is a relatively new product. The Pbfree code for this product is yes, meaning it is free of lead and environmentally friendly. The Moisture Sensitivity Level (MSL) is 1, meaning it can withstand unlimited exposure to moisture. This product has 2 terminations, making it easy to connect to other devices. The temperature coefficient is 50 ppm/°C, indicating its ability to maintain a stable temperature. The HTS code for this product is 8532.29.00.20, which is used for customs purposes. The size code for this product is 4341, with a width of 9.65mm. All these specifications make this product a reliable and efficient choice for any electronic application.
MCH38FK471J Features
its size/dimension is 0.380Lx0.380W 9.65mmx9.65mm
a 50 ppm/°C temperature coefficient
a voltage rating of 2.5kV
MCH38FK471J Applications
There are a lot of Cornell Dubilier Electronics (CDE)
MCH38FK471J applications of Mica & PTFE Capacitors.
RF Instruments
Power Amplifiers
Tuned LCR Circuits
CATV
Ground and Flight Mobile Radio
Lasers
Software - Defined Frequency-Hopping Radio
RF Power Amplifiers
Mobile Radio
Plasma generators
The surface mount of this particular product is mounted on a surface, making it easy to install and use. The packaging for this product is bulk, which means it is sold in large quantities. It was published in the year 2014, indicating that it is a relatively new product. The Pbfree code for this product is yes, meaning it is free of lead and environmentally friendly. The Moisture Sensitivity Level (MSL) is 1, meaning it can withstand unlimited exposure to moisture. This product has 2 terminations, making it easy to connect to other devices. The temperature coefficient is 50 ppm/°C, indicating its ability to maintain a stable temperature. The HTS code for this product is 8532.29.00.20, which is used for customs purposes. The size code for this product is 4341, with a width of 9.65mm. All these specifications make this product a reliable and efficient choice for any electronic application.
MCH38FK471J Features
its size/dimension is 0.380Lx0.380W 9.65mmx9.65mm
a 50 ppm/°C temperature coefficient
a voltage rating of 2.5kV
MCH38FK471J Applications
There are a lot of Cornell Dubilier Electronics (CDE)
MCH38FK471J applications of Mica & PTFE Capacitors.
RF Instruments
Power Amplifiers
Tuned LCR Circuits
CATV
Ground and Flight Mobile Radio
Lasers
Software - Defined Frequency-Hopping Radio
RF Power Amplifiers
Mobile Radio
Plasma generators
MCH38FK471J More Descriptions
CAP MICA 470PF 5% 2.5KV SMD
CAPACITOR; MICA CHIP 470UF;2500V
Mica RF Capacitors 470pF 2500V
MICA CHIP CAPACITANCE=470 VOLT=2500
CAPACITOR; MICA CHIP 470UF;2500V
Mica RF Capacitors 470pF 2500V
MICA CHIP CAPACITANCE=470 VOLT=2500
The three parts on the right have similar specifications to MCH38FK471J.
-
ImagePart NumberManufacturerMountMounting TypePackage / CaseTerminal ShapeDielectric MaterialOperating TemperaturePackagingPublishedSeriesSize / DimensionToleranceJESD-609 CodeFeaturePbfree CodePart StatusMoisture Sensitivity Level (MSL)Number of TerminationsTerminationECCN CodeTemperature CoefficientTerminal FinishVoltage - RatedHTS CodeCapacitanceReference StandardRated (DC) Voltage (URdc)Size CodeDissipation FactorHeightHeight Seated (Max)LengthWidthRoHS StatusFactory Lead TimeVoltage - Rated DCCase Code (Metric)Case Code (Imperial)Number of PinsMax Operating TemperatureMin Operating TemperatureView Compare
-
MCH38FK471JSurface MountSurface MountNonstandard SMDWRAPAROUNDMica-55°C~125°CBulk2014MCH0.380Lx0.380W 9.65mmx9.65mm±5%e3RF, High Q, Low LossyesLast Time Buy1 (Unlimited)2SMD/SMTEAR9950 ppm/°CTin (Sn)2.5kV8532.29.00.20470pFAEC-Q2002500V43410.1 %4.06mm0.160 4.06mm9.65mm9.65mmROHS3 Compliant--------
-
Surface MountSurface MountNonstandard SMDWRAPAROUNDMica-55°C~125°CBulk2014MCH0.380Lx0.380W 9.65mmx9.65mm±5%e3RF, High Q, Low LossyesLast Time Buy1 (Unlimited)2SMD/SMTEAR9950 ppm/°CTin (Sn)-8532.29.00.2056pFAEC-Q2004000V4341-3.05mm0.120 3.05mm9.65mm9.65mmROHS3 Compliant12 Weeks4V96963838---
-
Surface MountSurface MountNonstandard SMDWRAPAROUNDMica-55°C~125°CBulk2014MCH0.380Lx0.380W 9.65mmx9.65mm±5%e3RF, High Q, Low LossyesLast Time Buy1 (Unlimited)2SMD/SMTEAR9950 ppm/°CTin (Sn)-8532.29.00.20270pFAEC-Q2002500V4341-4.06mm0.160 4.06mm9.65mm9.65mmROHS3 Compliant-2.5V--3838--
-
Surface MountSurface MountNonstandard SMD-Mica-55°C~125°CTape & Reel (TR)2014MCH0.380Lx0.380W 9.65mmx9.65mm±5%-RF, High Q, Low Loss-Last Time Buy1 (Unlimited)-SMD/SMT-50 ppm/°C-2.5kV-1000pF---0.1 %6.86mm0.270 6.86mm9.652mm9.65mmROHS3 Compliant-----125°C-55°C
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
18 January 2024
What is the BTN8982TA Bridge and How Does it Work?
Ⅰ. Introduction to BTN8982TAⅡ. Block diagram of BTN8982TAⅢ. Specifications of BTN8982TAⅣ. Working principle of BTN8982TAⅤ. BTN8982TA symbol, footprint and pin configurationⅥ. Features of BTN8982TAⅦ. Application fields of BTN8982TABTN8982TA... -
18 January 2024
TPS51200DRCR: Advanced Regulator Solution for DDR Termination
Ⅰ. Overview of TPS51200DRCRⅡ. Technical parameters of TPS51200DRCRⅢ. What are the advantages of TPS51200DRCR?Ⅳ. Absolute maximum ratings of TPS51200DRCRⅤ. How to use TPS51200DRCR?Ⅵ. Where is TPS51200DRCR used?Ⅶ. TPS51200DRCR... -
19 January 2024
TXB0104PWR Alternatives, Package, Specifications and Applications
Ⅰ. TXB0104PWR overviewⅡ. Operating principle of TXB0104PWRⅢ. Package of TXB0104PWRⅣ. Specifications of TXB0104PWRⅤ. How to use TXB0104PWR?Ⅵ. What are the applications of TXB0104PWR?Ⅶ. How does TXB0104PWR realize automatic... -
19 January 2024
The Best Tutorial for ISO3082DWR
Ⅰ. Overview of ISO3082DWRⅡ. Technical parameters of ISO3082DWRⅢ. What are the characteristics of ISO3082DWR?Ⅳ. How does ISO3082DWR work?Ⅴ. ISO3082DWR symbol, footprint and pin configurationⅥ. Layout principles of ISO3082DWRⅦ....
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.