Specialized ICs
Results:
8,134
Manufacturer
Series
Supplier Device Package
Package / Case
Type
Applications
Voltage - Supply
Input Capacitance (Ciss) (Max) @ Vds
Rds On (Max) @ Id, Vgs
Current - Reverse Leakage @ Vr
Gate Charge (Qg) (Max) @ Vgs
Current - Continuous Drain (Id) @ 25°C
Power Dissipation (Max)
Operating Temperature
Voltage - Zener (Nom) (Vz)
DC Current Gain (hFE) (Min) @ Ic, Vce
Current - Supply
Power - Max
Voltage - Output (Min/Fixed)
Max Propagation Delay @ V, Max CL
Vgs(th) (Max) @ Id
Current - Output High, Low
Output Type
Logic Type
Vce Saturation (Max) @ Ib, Ic
Current - Quiescent (Iq)
Impedance (Max) (Zzt)
Frequency
Voltage Dropout (Max)
Function
Current - Quiescent (Max)
Frequency - Transition
Voltage - Collector Emitter Breakdown (Max)
Current - Output
Drain to Source Voltage (Vdss)
Speed
PSRR
Current - Supply (Max)
Current - Collector (Ic) (Max)
Frequency - Switching
Interface
Current - Collector Cutoff (Max)
Circuit
Output
Input Logic Level - Low
Features
Tolerance
Clock Frequency
Core Processor
Voltage - Input (Max)
Data Rate
Input Logic Level - High
Voltage - Input
Voltage - Forward (Vf) (Max) @ If
Voltage - Threshold
Vgs (Max)
Voltage - Supply (Vcc/Vdd)
Additional Interfaces
Topology
Configuration
Protocol
Transistor Type
Ethernet
Technology
Control Features
Drive Voltage (Max Rds On, Min Rds On)
Current - Output / Channel
Gain
Voltage - Clamping (Max) @ Ipp
Power - Output
Resistor - Base (R1)
Current - Peak Pulse (10/1000µs)
Number of Inputs
Voltage - DC Reverse (Vr) (Max)
Security Features
Number of Circuits
Voltage - Breakdown (Min)
Capacitance @ Frequency
Rds On (Typ)
Fault Protection
USB
RAM Controllers
Resistor - Emitter Base (R2)
Voltage - I/O
Number of Cores/Bus Width
Memory Size
Voltage - Output
Number of Outputs
Input Capacitance
Current - Average Rectified (Io)
Data Rate (Max)
Current - Output (Max)
Voltage - Input (Min)
Current - Test
Voltage - Load
Protection Features
Voltage - Rated
Operating Temperature - Junction
Max Output Power x Channels @ Load
Co-Processors/DSP
Voltage - Output (Max)
Number of Drivers/Receivers
Reset Timeout
Number of Channels
Voltage - VCCA
Voltage - VCCB
Capacitance @ Vr, F
Ratio - Input
Current Rating (Amps)
Receiver Hysteresis
Current - Gate Trigger (Igt) (Max)
Current - Hold (Ih) (Max)
Reference Type
Channels per Circuit
Input
Number of Elements
Reset
Memory Organization
Mounting Type
Reverse Recovery Time (trr)
Output Configuration
Voltage - Supply (Max)
Number of Bits per Element
Standards
Count Rate
Data Interface
Diode Configuration
Dimming
Frequency - Max
Voltage - Reverse Standoff (Typ)
Number of I/O
Peripherals
Amplifier Type
Voltage - Supply Span (Min)
Core Size
Program Memory Size
Current - Non Rep. Surge 50, 60Hz (Itsm)
FET Feature
RAM Size
Voltage - Supply (Min)
Channel Type
Data Converters
Duplex
Voltage - Test
Voltage - Supply Span (Max)
Current - Input Bias
Connectivity
Current - Average Rectified (Io) (per Diode)
Input Type
Serial Interfaces
Crosstalk
Noise - 10Hz to 10kHz
Test Frequency
Unidirectional Channels
Switch Time (Ton, Toff) (Max)
Independent Circuits
Qualification
Trigger Type
Channel-to-Channel Matching (ΔRon)
Voltage - Supply, Digital
Switch Type
-3db Bandwidth
Voltage - Supply, Single (V+)
Write Cycle Time - Word, Page
Number of Regulators
Memory Type
Schmitt Trigger Input
Memory Interface
Architecture
Triac Type
Delay Time
RF Type
Bidirectional Channels
Current - Transmitting
RF Family/Standard
Power - Peak Pulse
Channel Capacitance (CS(off), CD(off))
On-State Resistance (Max)
Number of Bits
SATA
Test Condition
Size / Dimension
Capacitance - Input
Direction
Modulation
Charge Injection
Power Line Protection
Differential - Input
FIFO's
Synchronous Rectifier
Voltage - Gate Trigger (Vgt) (Max)
Sensitivity
Switch Circuit
Voltage - Peak Reverse (Max)
Diode Type
Voltage - Supply, Analog
Current - Receiving
Current - On State (It (RMS)) (Max)
FET Type
Temperature Coefficient
Internal Switch(s)
PLL
P1dB
Memory Format
Slew Rate
GPIO
Clock Sync
Duty Cycle (Max)
With False Start Bit Detection
Frequency Stability
Voltage - On State (Vtm) (Max)
Base Resonator
Current - On State (It (AV)) (Max)
Current - Bias
Current - Peak Output (Source, Sink)
Current - Leakage (IS(off)) (Max)
Height - Seated (Max)
Access Time
Specifications
Resolution (Bits)
Digits or Characters
Propagation Delay
Sensing Temperature - Remote
Gate Type
Display Type
SCR Type
Voltage - Input Offset (Max)
Power (Watts)
Output Phases
Output Function
Voltage Supply Source
Ratio - S/H
Voltage - Start Up
Noise Figure
Display & Interface Controllers
Number of Voltages Monitored
With IrDA Encoder/Decoder
Divider/Multiplier
Sensing Temperature - Local
Current - Max
Gain Bandwidth Product
EEPROM Size
Delay Time - Propagation
Control Interface
Multiplexer/Demultiplexer Circuit
Output Isolation
Sampling Rate (Per Second)
Logic Voltage - VIL, VIH
Oscillator Type
Translator Type
Voltage - Supply, Single/Dual (±)
Timing
With Modem Control
Number of A/D Converters
Rise / Fall Time (Typ)
On-Chip RAM
Main Purpose
Differential Output
Voltage - Input Offset
Noise Figure (dB Typ @ f)
Number of D/A Converters
Noise - 0.1Hz to 10Hz
Program Memory Type
Resistance @ If, F
Voltage - Off State
Graphics Acceleration
Driven Configuration
Grade
Clock Rate
Resolution
Current - Off State (Max)
INL/DNL (LSB)
Accuracy
With Auto Flow Control
Number of Drivers
Accuracy - Highest (Lowest)
Attenuation Value
Controller Type
Voltage - Supply, Dual (V±)
S/N Ratio, ADCs / DACs (db) Typ
Signal Conditioning
IGBT Type
Hysteresis
Propagation Delay (Max)
Insertion Loss
Output Power
Number of LABs/CLBs
Bus Directional
Impedance
Current - Input Bias (Max)
Input Signal
CMRR, PSRR (Typ)
Absolute Pull Range (APR)
FWFT Support
Current - Output (Typ)
Programmable Flags Support
Interrupt Output
w/LED Driver
Sensitivity (mV/g)
Current - Cathode
Voltage - Core
Trip Temperature Threshold
Noise Floor
Load Type
Step Resolution
High Side Voltage - Max (Bootstrap)
Motor Type - Stepper
Current - Collector Pulsed (Icm)
Gate Charge
Output Signal
Number of ADCs / DACs
Programmable Type
Current - Peak Output
Bandwidth
Resistance (Ohms)
Current - Modulation
Dynamic Range, ADCs / DACs (db) Typ
NTC Thermistor
Input Capacitance (Cies) @ Vce
Values
Current - Output Source/Sink
Count
Sensor Type
w/Supervisor
LO Frequency
IIP3
Duty Cycle
Current
Non-Volatile Memory
Filter Order
Spread Spectrum Bandwidth
Center / Cutoff Frequency
Sensitivity (LSB/g)
Number of Taps
Sensing Method
Modulation or Protocol
Voltage/Current - Output 2
Voltage/Current - Output 3
Voltage/Current - Output 1
Number of Logic Elements/Cells
Motor Type - AC, DC
Acceleration Range
ESD Protection
Vce(on) (Max) @ Vge, Ic
Resistance - Wiper (Ohms) (Typ)
Temperature Coefficient (Typ)
Retransmit Capability
Ratings
Expansion Type
Total RAM Bits
Voltage - Isolation
Voltage - Breakdown
Antenna Connector
Selectable Hysteresis
Number of Macrocells
RF Frequency
Number of Gates
Resistance - Channel (Ohms)
Taper
Controller Series
Frequency Range
w/Sequencer
Switching Temperature
Td (on/off) @ 25°C
Sigma Delta
Secondary Attributes
Voltage
Supply Voltage
Height
Axis
Switching Energy
Settling Time
Isolation
Results remaining:8,134
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.
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