LMV824Q1MAX/NOPB Integrated Circuits (ICs)

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

LMV824Q1MAX/NOPB Application Field and Working Principle

LMV824Q1MAX/NOPB is a type of linear amplifier, instrumenation OP amps, and buffer amp. It is used as an operational amplifier in industrial, automotive and other automated applications. The LMV824Q1MAX/NOPB features extremely low power consumption and high power efficiency under a wide operating temperature range.

Applications of LMV824Q1MAX/NOPB

The LMV824Q1MAX/NOPB is used in a wide range of applications, including:

• Motor control circuits
• Power supplies
• Robotic, monitoring, measurement and test systems
• Inverters and controllers
• Integrated circuits for consumer electronics, consumer appliances and industrial machinery

It is also used in automotive design, industrial machinery, consumer electronics, consumer appliances, military equipment, and embedded control systems, as well as in telecommunications equipment, computer networks and consumer equipment.

Features

• Extremely low power consumption and highly efficient, power efficient operation.
• Wide operating temperature range.
• Low output offset and high open-loop gain.
• High slew rate and high common-mode rejection ratio.
• Unity gain stable.
• Low noise.
• High voltage tolerance.
• High saturation voltage.

Working Principle of LMV824Q1MAX/NOPB

The LMV824Q1MAX/NOPB utilizes two transistors in the output stage and two capacitors in the input stage. The output stage transistors provide a high output impedance for high gain. The input stage capacitors reduce the input voltage offset and help to stabilize the amplifier.

The LMV824Q1MAX/NOPB consists of two amplifying stages: the input differential pair and the output driver. The input differential pair consists of two matched NPN transistors, one connected to the positive input and the other to the negative input. The two inputs are cross-coupled, with the differential amplifier producing an output which is the difference between the two inputs. This output is then amplified and buffered through the output stage.

The output stage consists of two transistors, one PNP and one NPN. The output of the differential amplifier is connected to one of the transistors and the other transistor is connected to the negative supply, also known as the power supply common. The two transistors are then cross-coupled, creating a high output impedance from the output of the amplifier. This output is then fed back to the input and the two transistor output is then fed back to the input, creating a feedback loop.

The LMV824Q1MAX/NOPB has a very low voltage offset at the input, which is beneficial for maintaining high-accuracy analog signal levels. It has a high open-loop gain and high slew rate, which makes it ideal for fast transient applications.

The LMV824Q1MAX/NOPB has a high common-mode rejection ratio and a low noise level. It also features an exceptionally low power consumption, making it very suitable for low-power applications such as automotive designs, consumer electronics and industrial equipment.

The specific data is subject to PDF, and the above content is for reference