LF444CMX/NOPB: Features, Specifications & More
In the fast-paced realm of electronics, the Texas Instrument LF444CMX/NOPB Low Power Amplifier stands tall as a versatile and reliable component. In this comprehensive article, we will delve into its definition, key features, specifications, applications, and a closer look at its manufacturer.
LF444CMX/NOPB's Overview
The LF444CMX/NOPB is a Quad Low Power Amplifier, featuring cutting-edge BiFET process technology. This 14-pin SOIC package boasts ±18V capabilities, making it a powerhouse for a wide range of applications.
Key Features
Let's delve into the standout features that make LF444CMX/NOPB a game-changer:
· The LF444CMX/NOPB excels with four channels per chip, providing unmatched amplification capabilities for diverse electronic applications.
· With a maximum input offset voltage of 10mV at ±15V, this amplifier ensures exceptional accuracy in signal processing, thanks to its advanced BiFET process technology.
· Adaptable to various power supply setups, the LF444CMX/NOPB accepts dual supplies ranging from ±3V to ±18V, offering flexibility in design and integration.
· Striking a balance between robustness and efficiency, this amplifier boasts a maximum power dissipation of 670mW and a maximum supply current of 0.8mA at ±15V.
Specifications
Now, let's delve into the technical specifications that make the LF444CMX/NOPB a standout choice for electronic projects:
Type | Parameter |
Type | Low Power Amplifier |
Manufacturer Type | Low Power Amplifier |
Number of Channels per Chip | 4 |
Process Technology | BiFET |
Maximum Input Offset Voltage (mV) | 10@±15V |
Minimum Dual Supply Voltage (V) | ±3 |
Typical Dual Supply Voltage (V) | ±5|±12|±15|±9 |
Maximum Dual Supply Voltage (V) | ±18 |
Maximum Input Offset Current (uA) | 0.00005@±15V |
Typical Input Bias Current (uA) | 0.00001@±15V |
Maximum Input Bias Current (uA) | 0.0001@±15V |
Maximum Supply Current (mA) | 0.8@±15V |
Power Supply Type | Dual |
Maximum Power Dissipation (mW) | 670 |
Typical Slew Rate (V/us) | 1@±15V |
Typical Input Noise Voltage Density (nV/rtHz) | 35@±15V |
Typical Voltage Gain (dB) | 100 |
Typical Noninverting Input Current Noise Density (pA/rtHz) | 0.01@±15V |
Minimum PSRR (dB) | 70 |
Minimum CMRR (dB) | 70 |
Minimum CMRR Range (dB) | 70 to 71 |
Typical Gain Bandwidth Product (MHz) | 1 |
Shut Down Support | No |
Minimum Operating Temperature (°C) | 0 |
Maximum Operating Temperature (°C) | 70 |
Supplier Temperature Grade | Commercial |
Packaging | Tape and Reel |
Mounting | Surface Mount |
Package Height | 1.5(Max) |
Package Width | 4(Max) |
Package Length | 8.75(Max) |
PCB changed | 14 |
Standard Package Name | SO |
Supplier Package | SOIC |
Pin Count | 14 |
Lead Shape | Gull-wing |
Applications
The LF444CMX/NOPB finds its home in various applications, thanks to its versatile design.
· Audio Amplification: The LF444CMX/NOPB's quad amplification power makes it an excellent choice for audio circuits, delivering crisp and clear sound in electronic devices.
· Precision Signal Conditioning: With its low input offset voltage and advanced BiFET technology, this amplifier excels in applications demanding precise signal conditioning, ensuring accurate data processing.
· Sensor Interfaces: The LF444CMX/NOPB's adaptability and versatility shine in sensor interface applications, providing reliable and stable amplification for sensor signals.
· Instrumentation Systems: Ideal for instrumentation systems, where precision and reliability are paramount, the LF444CMX/NOPB ensures accurate measurement and data acquisition.
LF444CMX/NOPB's Manufacturer
Texas Instruments (TI), established in 1930, is a global leader in semiconductor and technology solutions, known for its pioneering contributions to the electronics industry. Specializing in the design and manufacture of analog and digital circuits, microcontrollers, and processors, TI has played a pivotal role in shaping technological advancements across diverse sectors, including industrial, automotive, consumer electronics, and communication.
Conclusion
In the dynamic world of electronics, the Texas Instrument LF444CMX/NOPB Low Power Amplifier emerges as a reliable and high-performance choice. Its quad amplification power, precision, and versatility make it a valuable asset for a spectrum of applications.
