Fairchild/ON Semiconductor BZX84C16
- Part Number:
- BZX84C16
- Manufacturer:
- Fairchild/ON Semiconductor
- Ventron No:
- 2440108-BZX84C16
- Description:
- DIODE ZENER 16.2V 350MW SOT23-3
- ECAD Model:
-
- Datasheet:
- BZX84C3V3 - 33
Fairchild/ON Semiconductor BZX84C16 technical specifications, attributes, parameters and parts with similar specifications to Fairchild/ON Semiconductor BZX84C16.
- Factory Lead Time6 Weeks
- Contact PlatingTin
- MountSurface Mount
- Mounting TypeSurface Mount
- Package / CaseTO-236-3, SC-59, SOT-23-3
- Number of Pins3
- Supplier Device PackageSOT-23-3 (TO-236)
- Weight30mg
- Operating Temperature-55°C~150°C
- PackagingTape & Reel (TR)
- Published2008
- Tolerance±6%
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- TerminationSMD/SMT
- Max Operating Temperature150°C
- Min Operating Temperature-55°C
- Capacitance105pF
- Power Rating350mW
- Voltage - Rated DC16V
- Max Power Dissipation350mW
- Base Part NumberBZX84C16
- Working Voltage16V
- Impedance40Ohm
- Element ConfigurationSingle
- Current - Reverse Leakage @ Vr50nA @ 11.2V
- Power Dissipation350mW
- Voltage - Forward (Vf) (Max) @ If900mV @ 10mA
- Power - Max350mW
- Max Reverse Leakage Current50nA
- Impedance-Max40Ohms
- Test Current5mA
- Breakdown Voltage16V
- Forward Voltage900mV
- Voltage - Zener (Nom) (Vz)16.2V
- Zener Voltage16.2V
- Peak Reverse Current50nA
- Voltage Tolerance5%
- Zener Current5mA
- Height930μm
- Length2.92mm
- Width3.05mm
- REACH SVHCNo SVHC
- Radiation HardeningNo
- RoHS StatusRoHS Compliant
- Lead FreeLead Free
BZX84C16 Overview
A reverse leakage current of 50nA @ 11.2V is required to supply this electrical device.50nA is the maximum reverse leakage current.Zener (Nom)'s maximum voltage is reduced to zero during operation.The design is highly flexible due to the zener current of 5mA.900mV @ 10mA is reached when the maximum voltage - Forward (Vf) is supplied for its operation.This device functions best with a peak reverse voltage of 50nA.
BZX84C16 Features
reverse leakage current of 50nA @ 11.2V
50nA @ 11.2V is the maximum voltage (Tol)
Reverse leakage current reaches 50nA
the zener current of 5mA
BZX84C16 Applications
There are a lot of ON Semiconductor
BZX84C16 applications of zener single diodes.
A reverse leakage current of 50nA @ 11.2V is required to supply this electrical device.50nA is the maximum reverse leakage current.Zener (Nom)'s maximum voltage is reduced to zero during operation.The design is highly flexible due to the zener current of 5mA.900mV @ 10mA is reached when the maximum voltage - Forward (Vf) is supplied for its operation.This device functions best with a peak reverse voltage of 50nA.
BZX84C16 Features
reverse leakage current of 50nA @ 11.2V
50nA @ 11.2V is the maximum voltage (Tol)
Reverse leakage current reaches 50nA
the zener current of 5mA
BZX84C16 Applications
There are a lot of ON Semiconductor
BZX84C16 applications of zener single diodes.
BZX84C16 More Descriptions
Zener Diode Single 16.2V 5% 40Ohm 300mW 3-Pin SOT-23 T/R
Diotec BZX84C16 16Volt 0.3W -5 double common anode SMD SOT23 tape
Zener Voltage V = 17.1 / Zener Current mA = 18 / Configuration = Single / Zener Impedance Ohm = 40 / Power Dissipation (Pd) mW = 300 / Reverse Current nA = 50 / Zener Tolerance % = 5 / Operating Temperature Min. °C = -50 / Operating Temperature Max. °C = 150 / Package Type = SOT-23 / Pins = 3 / Mounting Type = SMD / MSL = Level-1 / Packaging = Tape & Reel / Automotive Qualification Standard = AEC-Q101 / Reflow Temperature Max. °C = 260 / Thermal Resistance K/W = 420
Diotec BZX84C16 16Volt 0.3W -5 double common anode SMD SOT23 tape
Zener Voltage V = 17.1 / Zener Current mA = 18 / Configuration = Single / Zener Impedance Ohm = 40 / Power Dissipation (Pd) mW = 300 / Reverse Current nA = 50 / Zener Tolerance % = 5 / Operating Temperature Min. °C = -50 / Operating Temperature Max. °C = 150 / Package Type = SOT-23 / Pins = 3 / Mounting Type = SMD / MSL = Level-1 / Packaging = Tape & Reel / Automotive Qualification Standard = AEC-Q101 / Reflow Temperature Max. °C = 260 / Thermal Resistance K/W = 420
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