Op Amps
Op Amps, short for Operational Amplifiers, are semiconductor devices commonly used in analogue electronic circuits. They work by receiving an input signal and amplifying it into a stronger output signal. Op Amps offer a very high voltage gain.
How do Op Amps work?
Op Amps provide mathematical operations such as addition, multiplication, differentiation, and integration. They are voltage amplifiers which usually have a differential input and a single-ended output.
There are two inputs into an Operational Amplifier which are called inverting (-) and non-inverting (+) inputs. If you were to increase the voltage to the inverting input, the output voltage decreases. Alternatively, if you increase the voltage to the non-inverting input, the output voltage increases. If an equal voltage is supplied to both inputs, the output will not change.
What is a differential amplifier?
Op Amps are often referred to as differential amplifiers. This is because the output of an Op-Amp is relative to the difference between the input voltages.
Where are Op Amps used?
Operational amplifiers have a wide variety of uses in electronic circuits.
Op Amp Applications
- Crystal oscillators and waveform generators
- Audio- and video-frequency pre-amplifiers and buffers
- Integrators
- Comparators
- Analogue-to-digital (ADC) and digital-to-analogue (DAC) converters
- Voltage Clamps
- Analogue Calculators
- Filters
- Differentiators
- Precision rectifiers
- Linear voltage regulators
- Current regulators
- Precision rectifiers
- Precision peak to peak detectors
제품 비교 제품 세부 사항 단가 | 제조사 | Amplifier Type | Mounting Type | Package Type | Power Supply Type | Number of Channels per Chip | Pin Count | Typical Single Supply Voltage | Typical Gain Bandwidth Product | Output Type | Typical Dual Supply Voltage | Typical Slew Rate | Maximum Operating Frequency | Maximum Operating Temperature | Minimum Operating Temperature | Automotive Standard | Maximum Input Voltage | Offset Voltage | Output Current | Rail to Rail | Typical Voltage Gain |
|---|
Apex | - | Through Hole | SIP | Dual | 1 | 12 | - | 18MHz | - | ±200V | 50V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 111 dB | |
Apex | - | Through Hole | SIP | Dual | 1 | 12 | - | 18MHz | - | ±200V | 50V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 111 dB | |
Apex | - | Through Hole | SIP | Dual | 1 | 8 | - | 140MHz | - | ±300V | 700V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 115 dB | |
Apex | - | Through Hole | SIP | Dual | 1 | 8 | - | 140MHz | - | ±300V | 700V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 115 dB | |
개당가격(10개가 1튜브안에) ₩90,631.04 | Apex | High Voltage | Surface Mount | PSOP | Dual, Single | 1 | 20 | 300 V | - | - | ±150V | 350V/µs | - | +125 °C | -40 °C | - | - | - | - | No | 120 dB |
Apex | High Voltage | Through Hole | SIP | Dual | 1 | 10 | - | 5.8MHz | - | ±150V | 20V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 111 dB | |
개당가격(5개가 1튜브안에) ₩357,147.36 | Apex | High Voltage | Through Hole | SIP | Dual | 1 | 10 | - | 5.8MHz | - | ±150V | 20V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 111 dB |
Apex | High Voltage | Surface Mount | PSOP | Dual, Single | 1 | 20 | 300 V | - | - | ±150V | 350V/µs | - | +125 °C | -40 °C | - | - | - | - | No | 120 dB | |
Apex | - | Through Hole | TO-3 | Dual | 1 | 8 | - | 100MHz | - | ±150V | 1000V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 111 dB | |
개당가격(25개가 1튜브안에) ₩41,619.44 | Apex | Power | Through Hole | TO-220 | Dual, Single | 2 | 7 | 30 V | 1.4MHz | - | ±15V | 1.4V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 100 dB |
Apex | Power | Through Hole | TO-220 | Dual, Single | 2 | 7 | 30 V | 1.4MHz | - | ±15V | 1.4V/µs | - | +85 °C | -25 °C | - | - | - | - | No | 100 dB | |
