2N4957

Description:

Trans RF BJT PNP 30V 0.03A

Country of Origin:

United States of America

Introduction date:

Jun 22, 1999

Updated:29-OCT-2024

Overview

Familiarize yourself with the fundamental general information, properties, and characteristics of the component, along with its compliance with industry standards and regulations.

LifeCyclePremium
EU RoHS No
RoHS Version2011/65/EU, 2015/863
Automotive Unknown
Supplier Cage Code34156
AEC Qualified Unknown
Category Path
Semiconductor > Diodes, Transistors and Thyristors > Bipolar Transistors > RF BJT

Datasheet

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Manufacturing

The manufacturing information specifies the technical requirements and specifications for producing and assembling the component. This information is crucial for manufacturers to maintain the quality and reliability of the components, and ensure they are compatible with other devices and components.

Wave Temp. Source

Parametric

The parametric information displays vital features and performance metrics of the component, which helps engineers and supply chain managers to compare and choose the most appropriate electronic component for their applications and needs.

Product Line
Maximum Turn-Off Time
Maximum Rise Time
Maximum Emitter Cut-Off Current
Maximum DC Collector Current Range
Collector Current for VCE Saturation
Typical Transition Frequency
Minimum Transition Frequency
Process Technology
Maximum Collector-Emitter Voltage Range
Maximum Collector Cut-Off Current
Typical Collector Efficiency
Tradename
Supplier Temperature Grade
Minimum Storage Temperature
Maximum Storage Temperature
Type
Configuration
Number of Elements per Chip
Maximum Collector-Emitter Voltage
Maximum Collector Base Voltage
Maximum Emitter Base Voltage
Maximum DC Collector Current
Maximum Power Dissipation
Maximum Junction Ambient Thermal Resistance
Maximum Junction Case Thermal Resistance
Minimum DC Current Gain
Minimum DC Current Gain Range
Maximum Collector-Emitter Saturation Voltage
Maximum Base Emitter Saturation Voltage
Maximum Transition Frequency
Maximum Turn-On Time
Maximum Noise Figure
Typical Input Capacitance
Typical Output Capacitance
Output Power
Maximum Power 1dB Compression
Operational Bias Conditions
Typical Power Gain
Maximum 3rd Order Intercept Point
Minimum Operating Temperature
Maximum Operating Temperature
Material

Crosses

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