LM7301IM5X/NOPB
Manufacturer Part Number: LM7301IM5X/NOPB | Manufacturer / Brand: Texas Instruments |
Part of Description: SoC FPGA LM7301IM5X/NOPB | Lead Free Status / RoHS Status: Lead free / RoHS Compliant |
Ship From: HK/Shen Zhen | Shipment Way: DHL/Fedex/TNT/UPS |
Datasheets: |
Product parameters
Manufacturer | Texas Instruments |
RoHS | Details |
Package | Reel |
Package / Case | SOT-23-5 |
Mounting Style | SMD/SMT |
Brand | Texas Instruments |
Maximum Operating Temperature | -40 C |
Minimum Operating Temperature | +85C |
Series | LM7301 |
Length | 2.92 mm |
Moisture Sensitive | Yes |
Factory Pack Quantity | 3000 |
Unit Weight | 0.000222 oz |
Pd – Power Dissipation | 350 mW |
Voltage Gain dB | 97.03 dB |
Width | 1.6 mm |
Height | 1.02 mm |
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What is LM7301IM5X/NOPB?
Type: Operational Amplifier (Op-Amp)
Op-amps are analog electronic devices designed to amplify voltage signals.
Single-Supply Operation:
The LM7301IM5X/NOPB is likely designed for single-supply operation, meaning it can work with a single power supply voltage.
Low Power Consumption:
The “LM7301” series is known for low power consumption, making it suitable for battery-powered or low-power applications.
Rail-to-Rail Input and Output:
The op-amp likely supports rail-to-rail input and output operation, allowing it to handle signals that swing close to both supply rails.
Low Offset Voltage:
The offset voltage is the difference in input voltage required to make the output zero. A low offset voltage is desirable for accurate amplification.
Low Input Bias Current:
Input bias current is the current that flows into the input terminals. A low input bias current is beneficial for applications where input current must be minimized.
Unity Gain Stable:
The op-amp is likely stable in unity gain configurations, which is important for applications where the gain is set to 1.
Small Package:
The “IM5X” in the part number likely indicates a small surface-mount package, making it suitable for space-constrained designs.
Applications:
Op-amps like the LM7301IM5X/NOPB can be used in a wide range of applications, including sensor interfaces, signal conditioning, active filters, and low-power amplification.
Low Distortion:
The LM7301IM5X/NOPB may exhibit low distortion characteristics, making it suitable for applications that require high-fidelity amplification.
Low Noise:
Low noise characteristics are important in applications where signal integrity is crucial, such as audio amplification or measurement systems.
LM7301IM5X/NOPB Applications:
Battery-Powered Devices:
The low power consumption of the LM7301IM5X/NOPB makes it suitable for battery-powered devices such as portable audio players, electronic gadgets, and low-power sensors.
Sensor Signal Conditioning:
Op-amps are commonly used for amplifying and conditioning signals from sensors such as temperature sensors, pressure sensors, or accelerometers.
Low-Power Instrumentation Amplifiers:
In applications where precision and low power are essential, the LM7301IM5X/NOPB can be used in instrumentation amplifier configurations.
Signal Filtering:
The op-amp can be used in active filter circuits for applications such as audio signal filtering or anti-aliasing in data acquisition systems.
Precision Voltage References:
Used in precision voltage reference circuits where a stable and accurate reference voltage is required.
Audio Preamplifiers:
The low noise and low distortion characteristics of the LM7301IM5X/NOPB make it suitable for use in audio preamplifiers for high-fidelity audio applications.
Transducer Interface:
Interfaces with transducers or transmitters to amplify weak signals and provide the necessary gain for further processing.
Portable Medical Devices:
Due to its low power consumption, it can be used in portable medical devices for amplifying bio-signals such as ECG or EEG.
Low-Power Data Acquisition Systems:
In low-power data acquisition systems where signal conditioning and amplification are required for analog sensor signals.
Voltage-to-Frequency Converters:
Used in voltage-to-frequency converter circuits where precise frequency output is proportional to the input voltage.
Active Rectifiers:
Utilized in active rectifier circuits for precision rectification of AC signals.
Low-Power Comparator Applications:
In applications where the op-amp is configured as a low-power comparator for threshold detection.
Photodiode Amplifiers:
Amplifies the weak signals generated by photodiodes in light-sensing applications.
Precision Instrumentation Systems:
Used in various precision instrumentation systems requiring low noise and high accuracy.
Current Sensing and Monitoring:
The op-amp can be part of current sensing circuits for monitoring and control applications.