Allicdata Part #: | CLA4169-ND |
Manufacturer Part#: |
LIA136 |
Price: | $ 1.30 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | IXYS Integrated Circuits Division |
Short Description: | IC OP AMP ISOLATION 10KHZ 8DIP |
More Detail: | Isolation Amplifier 1 Circuit 8-DIP |
DataSheet: | LIA136 Datasheet/PDF |
Quantity: | 447 |
1 +: | $ 1.17180 |
10 +: | $ 1.03509 |
25 +: | $ 0.76810 |
100 +: | $ 0.66780 |
250 +: | $ 0.60102 |
500 +: | $ 0.53424 |
1000 +: | $ 0.45911 |
2500 +: | $ 0.43407 |
5000 +: | $ 0.41738 |
Specifications
Series: | -- |
Packaging: | Tube |
Part Status: | Active |
Amplifier Type: | Isolation |
Number of Circuits: | 1 |
Output Type: | -- |
Slew Rate: | 1 V/µs |
Gain Bandwidth Product: | 10kHz |
Current - Input Bias: | 340nA |
Current - Supply: | -- |
Voltage - Supply, Single/Dual (±): | -- |
Operating Temperature: | -40°C ~ 110°C |
Mounting Type: | Through Hole |
Package / Case: | 8-DIP (0.300", 7.62mm) |
Supplier Device Package: | 8-DIP |
Description
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## Linear - Amplifiers - InstrumentationThe LIA136 application field and working principle are important elements that should be considered when designing a linear amplifier. A linear amplifier is an electronic device that converts an input signal into an output signal with no distortion, which is an essential feature of an amplifier. Linear amplifiers are commonly used in many fields such as medical, instrumentation and communication. The LIA136 is an amplifier, specifically designed for the instrumentation field, which allows users to amplify signals without any distortion.The LIA136 is a transimpedance amplifier, which converts an input voltage signal into an output current. The transimpedance amplifier has a wide bandwidth, which is ideal for instrumentation systems. It also has a low input bias current and high gain, which allows for stable signal amplification. The current output of the LIA136 is regulated by a feedback network, which prevents signal distortion due to changes in the ambient temperature.The LIA136 is composed of two transistors to produce an output current signal. The two transistors form two parallel generatours, which are connected in series. The first transistor is connected to the positive terminal of the power supply and has a current gain of two. The second transistor is connected to the negative terminal of the power supply and has a current gain of one.The LIA136 has a differential input stage with an input impedance of 50Ω. The differential input stage amplifies the signal before it is sent to the output stage. The input signal is also filtered in the input stage to remove unwanted noise. The output stage has a current gain of one and is composed of four transistors. The transistors in the output stage act as switching elements and produce a constant current signal from the input signal.The LIA136 is also equipped with two voltage regulators which are used to maintain a constant voltage across the circuit. The two voltage regulators are connected in parallel and produce a supply voltage of 12V which is then regulated by the feedback network. The feedback network is composed of a resistive voltage divider which produces a voltage that is proportional to the output current of the LIA136. This feedback voltage is then compared with the reference voltage and is used to control the magnitude of the output current.The LIA136 can be used in various instrumentation applications such as measuring temperature, pressure, flow and level. The LIA136 can also be used to interface analog and digital systems. The LIA136 is widely used in scientific instruments where precise measurements are essential.## OP Amps Operational amplifiers or "op amps" are widely used in a variety of applications such as audio amplifiers, analog-to-digital converters, analog comparators, and instrumentation amplifiers. The basics of an op amp include a differential pair of transistors, a compensating capacitor, an output stage, and a feedback loop. The differentials pair of transistors consists of two transistors which are connected in a voltage divider configuration. The two transistors form an amplifying circuit which is used to amplify the input signal. The input current is also passed through a compensating capacitor before it is sent to the output stage. The compensating capacitor helps to reduce distortion in the output signal by smoothing out any variations in the input signal.The output stage consists of two transistors which are arranged in a class A amplifier configuration. The output transistors provide gain to the output current and provide a buffered output signal. The output signals are then fed back to the input stage through a feedback loop. The feedback loop consists of resistors and capacitors which are used to control the gain of the amplifier.The op amp is mainly used as an amplifier, but it can also be used for various other purposes such as level detection and active filters. The op amp provides a high input impedance and low output impedance, which makes it ideal for use in precision instruments. The op amp is also used as an active filter, which allows the designer to easily modify the response of the filter by changing the components in the feedback loop. The op amp is also used in many other fields such as analog-to-digital converters and comparators. The op amp is used as an analog-to-digital converter in order to convert an analog signal into its digital equivalent. The op amp can also be used as a comparator to compare two signals and produce an output signal when they are equal. The op amp also has many other applications such as instrumentation and audio amplifiers.## Buffer AmpsA buffer amp is a type of amplifier which is used for several purposes. It is mainly used for isolation between two circuits, or for logic level conversion. Buffer amps are also commonly used for impedance matching between a source and a load. Additionally, buffer amps can provide gain and drive signals to a circuit. A buffer amp is composed of two transistors connected in a push-pull configuration. The two transistors can be either n-channel transistors or p-channel transistors. The transistors are connected in a push-pull fashion such that one transistor is used to supply current to the load and the other is used to turn on and off the circuit. This allows the buffer amp to provide power to a circuit when it is needed, and to shut it off when it is not.The buffer amp also provides gain to the signal. The gain of the buffer amp is determined by the value of the feedback resistor. The higher the value of the feedback resistor, the higher the gain of the buffer amp. The main application of the buffer amp is impedance matching. Impedance matching is important in order to achieve maximum power transfer between the source and the load. The buffer amp provides an intermediate impedance which allows matching of the load impedance with the source impedance. Buffer amps are also used for logic level conversion. When two circuits have different logic levels, the buffer amp can be used to convert the one logic level to the other. For example, the buffer amp can be used to convert an TTL logic level to an ECL logic level. Buffer amps are also used for isolation between two circuits. This is important for applications such as power supplies, where the source may have a large voltage which could destroy the load. The buffer amp acts as an isolation buffer between the source and the load and prevents the high voltage from reaching the load.The specific data is subject to PDF, and the above content is for reference
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