Resistor in IC are made of semiconductor structures in a manner similar to transistors and PN junctions
ic made from bjt is known as bipolar ic
A monolithic IC is a type of "integrated circuit" electronic device (commonly referred to as a "chip") that contains active and passive devices (transistors, diodes, resistors, capacitors) that are made in and on the surface of a single piece of a single crystal semiconductor, such as a Silicon (Si) wafer. A process called "planar technology" must be used in the single block (monolith), and be interconnected to the insulating layer over the same body of the semiconductor to produce a solid integral monolithic-IC. If the devices are interconnected by bonding wires dangling above the chip, is not a monolithic-IC; it is a hybrid-IC. In monolithic-ICs, the devices (transistors, diodes, resistors and capacitors) are fabricated on the same single chip of a single Silicon crystal by PLANAR technology, and have ISOLATED p-n junctions, and have interconnections adherent to the insulator layers without shorting to the adjacent areas and each other.
The total resistance of resistors in series is simply the sum of the resistance values of those resistors. If the resistors are identical, then you can multiply the resistance of one of them by the number of resistors in the circuit.
Resistors are wired in series when they are connected in a line. The current flows through the resistors one after the other.
op amp linear ic 7805 non linear ic
I am assuming you are referring to an IC in the electronics sense (Integrated circuit). If so, an IC works by utilizing a large array of resistors printed onto many layers of silicon. By using these resistors an IC can perform many functions that would normally require a large amount of components. A simple IC may have only 2 or 3 resistors on it, whereas a complex one can contain up to 10,000 (and yes more are possible)
The 555 IC is a universal timer circuit. Via the addition of external components (resistors, capacitors) the designer can generate various timing waveforms.
ic made from bjt is known as bipolar ic
no
Passive components like capacitors . resistors and coils then there are active components like amplifiers and IC. wires are not electronics anything but just conductors of electrons. rain nerves and heart capacitors resistors, transistor of course wire
you don't. you calculate resistors required for your needs then select closest available resistors made with acceptable tolerance.
Plastic, solder, and resistors.
It could do, which is why an op-amp is made with a very high open-loop gain so that the actual gain can be closely controlled by the passive feedback components.
A monolithic IC is a type of "integrated circuit" electronic device (commonly referred to as a "chip") that contains active and passive devices (transistors, diodes, resistors, capacitors) that are made in and on the surface of a single piece of a single crystal semiconductor, such as a Silicon (Si) wafer. A process called "planar technology" must be used in the single block (monolith), and be interconnected to the insulating layer over the same body of the semiconductor to produce a solid integral monolithic-IC. If the devices are interconnected by bonding wires dangling above the chip, is not a monolithic-IC; it is a hybrid-IC. In monolithic-ICs, the devices (transistors, diodes, resistors and capacitors) are fabricated on the same single chip of a single Silicon crystal by PLANAR technology, and have ISOLATED p-n junctions, and have interconnections adherent to the insulator layers without shorting to the adjacent areas and each other.
The disadvantages of integrated circuits include the limited range of IC resistors. Another disadvantage is that inductors cannot be formed using integrated circuits.
In general, using integrated circuits (ICs) decreases the amount of discrete electrical components (resistors, capacitors, inductors, diodes, transistors, etc.) needed, because IC's are a combination of multiple electrical components, put together in such a way as to provide a specific function. If an IC is not used for this function, all the components inside the IC would need t be discrete parts.Resistors and capacitors inherently take up a lot of space in fabrication. Also, resistors in particular are wasteful when it comes to creating unnecessary heat. If a transistor can be used for the same function, it will be significantly smaller in an IC, and most likely will use less energy, minimizing heat dissipation concerns.
To determine how many resistors need to be made to deliver 5,000 resistors, we must consider production losses, defects, or any other factors that affect the final count. For example, if they expect a 10% defect rate, they would need to produce 5,556 resistors (5,000 divided by 0.9). Therefore, the exact number of resistors to be made depends on the anticipated yield or defect rate in the production process.