BZT52-B Series, Specialized ICs

Results:
10
Manufacturer
Series
Current - Reverse Leakage @ Vr
Voltage - Zener (Nom) (Vz)
Tolerance
Impedance (Max) (Zzt)
Operating Temperature
Grade
Mounting Type
Supplier Device Package
Qualification
Package / Case
Voltage - Forward (Vf) (Max) @ If
Power - Max
Results remaining10
Applied Filters:
BZT52-B
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ImageProduct DetailPriceAvailabilityECAD ModelMounting TypeTolerancePackage / CaseSupplier Device PackageOperating TemperaturePower - MaxVoltage - Zener (Nom) (Vz)Impedance (Max) (Zzt)Current - Reverse Leakage @ VrVoltage - Forward (Vf) (Max) @ IfQualificationGradeSeries
BZT52-B10,115
ZENER DIODE, 10V, 2%, 0.35W, SIL
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±2%
SOD-123
SOD-123
150°C (TJ)
350 mW
10 V
10 Ohms
200 nA @ 7 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B3V3,115
ZENER DIODE, 3.3V, 2.12%, 0.35W,
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±2.12%
SOD-123
SOD-123
150°C (TJ)
350 mW
3.3 V
95 Ohms
5 µA @ 1 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B10115
NOW NEXPERIA BZT52-B10 - SINGLE
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±2%
SOD-123
SOD-123
150°C (TJ)
350 mW
10 V
10 Ohms
200 nA @ 7 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B33,115
ZENER DIODE, 33V, 2.12%, 0.35W,
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±2.12%
SOD-123
SOD-123
150°C (TJ)
350 mW
33 V
40 Ohms
50 nA @ 23.1 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B7V5,115
ZENER DIODE, 7.5V, 2%, 0.35W, SI
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±2%
SOD-123
SOD-123
150°C (TJ)
350 mW
7.5 V
10 Ohms
1 µA @ 5 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B12,115
ZENER DIODE, 12V, 1.67%, 0.35W,
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±1.67%
SOD-123
SOD-123
150°C (TJ)
350 mW
12 V
10 Ohms
100 nA @ 8 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B6V2,115
ZENER DIODE, 6.2V, 1.94%, 0.35W,
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±1.94%
SOD-123
SOD-123
150°C (TJ)
350 mW
6.2 V
10 Ohms
3 µA @ 4 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B5V1,115
ZENER DIODE, 5.1V, 1.96%, 0.35W,
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±1.96%
SOD-123
SOD-123
150°C (TJ)
350 mW
5.1 V
60 Ohms
2 µA @ 2 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B6V2,118
SINGLE ZENER DIODES IN A SOD123
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±1.94%
SOD-123
SOD-123
150°C (TJ)
350 mW
6.2 V
10 Ohms
3 µA @ 4 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B
BZT52-B33,118
SINGLE ZENER DIODES IN A SOD123
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Quantity
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PCB Symbol, Footprint & 3D Model
Surface Mount
±2.12%
SOD-123
SOD-123
150°C (TJ)
350 mW
33 V
40 Ohms
50 nA @ 23.1 V
900 mV @ 10 mA
AEC-Q101
Automotive
BZT52-B

About  Specialized ICs

Specialized Integrated Circuits (ICs), also known as application-specific integrated circuits (ASICs), are a category of integrated circuits that are designed to perform specific functions within electronic systems. These ICs are tailored to address the unique requirements of particular applications, industries, or tasks, providing optimized performance and functionality in their specialized domains. Specialized ICs are developed with a focus on meeting the precise needs of a particular application, rather than offering general-purpose functionality. They are often custom-designed to execute specialized tasks such as signal processing, data encryption, sensor interfacing, motor control, and more. This targeted approach allows for the integration of complex functionalities onto a single chip, resulting in enhanced performance, reduced power consumption, and optimized system-level design. These ICs are commonly used in a wide range of industries, including telecommunications, automotive electronics, consumer electronics, medical devices, aerospace, and industrial automation. Examples of specialized ICs include custom microcontrollers, application-specific processors, sensor interface ICs, and custom-designed analog and digital signal processing circuits. By tailoring the functionality of the IC to the specific requirements of an application, specialized ICs can offer advantages such as improved performance, reduced system complexity, lower power consumption, and cost efficiencies. This targeted optimization makes them essential components in the development of advanced electronic systems across various industries. In summary, Specialized Integrated Circuits (ICs) are custom-designed microchips that fulfill specific functions within electronic systems, offering optimized performance and functionality for targeted applications and industries.