OPA330AIYFFR: Features, Specs & More
In the world of electronics, precision amplifiers play a crucial role in ensuring accurate signal processing across various applications. One standout in this domain is the OPA330AIYFFR, a single precision amplifier known for its robust performance and versatile capabilities. In this comprehensive article, we'll delve into the intricacies of the OPA330AIYFFR, uncovering its definition, key features, specifications, applications, and a closer look at its manufacturer.
Catalog
OPA330AIYFFR's Overview
The TI OPA330AIYFFR is a single precision amplifier that operates with rail-to-rail input and output capabilities, making it suitable for applications where maximizing the dynamic range of signals is critical. It is built on CMOS technology, ensuring efficient operation across a wide range of supply voltages.
Key Features
Let's delve into the standout features that make the OPA330AIYFFR a standout in the world of electronics:
· It boasts an impressively low maximum input offset voltage of 0.05 mV at 5V, ensuring accurate signal processing.
· Operates efficiently with single supply voltages from 1.8V up to 5.5V, or dual supply voltages from ±0.9V to ±2.75V, making it adaptable to different power environments.
· With a maximum quiescent current of only 0.035 mA at 5.5V, it offers energy-efficient operation, crucial for battery-powered applications.
· Features a typical gain bandwidth product of 0.35 MHz, suitable for applications requiring rapid signal processing.
· Designed to operate in temperatures ranging from -40°C to 125°C, ensuring reliability in extreme environmental conditions.
Specifications
Now, let's take a closer look at the technical specifications that define the capabilities of the OPA330AIYFFR:
Type | Parameter |
Type | Precision Amplifier |
Manufacturer Type | Precision Amplifier |
Number of Channels per Chip | 1 |
Rail to Rail | Rail to Rail Input/Output |
Process Technology | CMOS |
Output Type | CMOS |
Maximum Input Offset Voltage (mV) | 0.05@5V |
Minimum Single Supply Voltage (V) | 1.8 |
Maximum Single Supply Voltage (V) | 5.5 |
Minimum Dual Supply Voltage (V) | ±0.9 |
Typical Dual Supply Voltage (V) | ±2.5 |
Maximum Dual Supply Voltage (V) | ±2.75 |
Maximum Input Offset Current (uA) | 0.001@5.5V |
Typical Input Bias Current (uA) | 0.0002@5.5V |
Maximum Input Bias Current (uA) | 0.0005@5.5V |
Maximum Quiescent Current (mA) | 0.035@5.5V@-40C to 125C |
Typical Output Resistance (Ohm) | 2 |
Power Supply Type | Single|Dual |
Typical Slew Rate (V/us) | 0.16@5.5V |
Typical Input Noise Voltage Density (nV/rtHz) | 55@5.5V |
Input Offset Voltage Drift (uV/°C) | 0.25 |
Typical Voltage Gain (dB) | 100 |
Typical Noninverting Input Current Noise Density (pA/rtHz) | 0.1@5.5V |
Minimum PSRR (dB) | 120(Typ) |
Minimum CMRR (dB) | 100(Typ) |
Minimum CMRR Range (dB) | 95 to 105 |
Typical Gain Bandwidth Product (MHz) | 0.35 |
Shut Down Support | No |
Minimum Operating Temperature (°C) | -40 |
Maximum Operating Temperature (°C) | 125 |
Packaging | Tape and Reel |
Mounting | Surface Mount |
Package Height | 0.4 |
Package Width | 1.45 |
Package Length | 1.1 |
PCB changed | 5 |
Standard Package Name | BGA |
Supplier Package | DSBGA |
Pin Count | 5 |
Lead Shape | Ball |
Applications
The versatility of the OPA330AIYFFR makes it ideal for various applications including:
· Sensor Interfaces: Precisely amplifies sensor signals in applications such as temperature or pressure sensing.
· Battery-Powered Devices: Due to its low power consumption, it is suitable for portable electronics.
· Signal Conditioning: Enhances signal integrity in data acquisition systems.
· Medical Instruments: Provides accurate amplification in medical monitoring equipment.
OPA330AIYFFR'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 conclusion, the TI OPA330AIYFFR is more than just a precision amplifier; it's a cornerstone for achieving high performance in analog signal processing applications. Its blend of low power consumption, high precision, and versatile operational capabilities makes it a preferred choice among engineers striving for excellence in their designs.
