687SML6R3M
Cornell Dubilier ElectronicsPenerangan: | General Purpose Surface Mount Chip Aluminum Electrolytic Capacitors |
Tarikh Pengenalan: | Aug 22, 2000 |
Dikemaskini:19-DEC-2024 | |
Lihat lebih banyak Capacitor Aluminum Electrolytic oleh Cornell Dubilier Electronics |
Versi dalam talian:https://www.datasheets.com/ms/part-details/687sml6r3m-cornell-dubilier-electronics-420694757
Gambaran Keseluruhan
Kenali diri anda dengan maklumat am asas, ciri-ciri, dan sifat-sifat komponen, serta pematuhan komponen tersebut terhadap piawaian industri dan peraturan.
Kitaran hidupPremium
EU RoHS Yes
Versi RoHS2011/65/EU, 2015/863
Automotif No
Kod Kandang Pembekal00853
PPAP No
Diperakui AEC No
Laluan Kategori
Passive > Capacitors > Fixed Capacitors > Capacitor Aluminum Electrolytic
Passive > Capacitors > Fixed Capacitors > Capacitor Aluminum Electrolytic
Parametrik
Maklumat parameter menunjukkan ciri-ciri penting dan metrik prestasi komponen, yang membantu jurutera dan pengurus rantaian bekalan untuk membandingkan dan memilih komponen elektronik yang paling sesuai untuk aplikasi dan keperluan mereka.
Anda mesti log masuk untuk melihat maklumat yang terhad.
barisan produk
Number of Terminals
Maximum Storage Temperature
Minimum Storage Temperature
Package Region
Equivalent Series Inductance
Lead Diameter
Seated Plane Height
Maximum Dissipation Factor
Product Length
Product Depth
Case Code
Wire Form
Operating Temperature
Product Weight
Failure Rate
Military Standard
Test Frequency
Maximum Product Height
Maximum Product Depth
Length Tolerance
Depth Tolerance
Maximum Product Length
Fixed/Variable
Height Tolerance
Diameter Tolerance
Maximum Terminal Width
Capacitance Value
Voltage
Tolerance
Equivalent Series Resistance
Lifetime
Leakage Current
Ripple Current
Size
Polarity
Maximum Impedance
Minimum Operating Temperature
Maximum Operating Temperature
Jenis
Mounting
Termination Style
Construction
Terminal Pitch
Equivalent Series Resistance Type
Tradename
Special Features
Product Height
Product Diameter
DC Rated Voltage
AC Rated Voltage
Negative Capacitance Tolerance
Positive Capacitance Tolerance