10-V Reference - Texas Instruments
... The best way to get a 0V to +10V output from a CMOS MDAC is to use a –10V reference (see Figure 4 through Figure 6). Although Texas Instruments offers no –10V reference, the REF102 precision +10.0V reference can be accurately converted to a precision –10.0V reference. The circuit is simple and requi ...
... The best way to get a 0V to +10V output from a CMOS MDAC is to use a –10V reference (see Figure 4 through Figure 6). Although Texas Instruments offers no –10V reference, the REF102 precision +10.0V reference can be accurately converted to a precision –10.0V reference. The circuit is simple and requi ...
Integrated Circuits Lab-EE0313
... Summing Amplifier: Op-amp may be used to perform summing operation of several input signals in inverting in inverting and non-inverting mode. The input signals to be summed up are given to inverting terminal or non-inverting terminal through the input resistance to perform inverting and non-invertin ...
... Summing Amplifier: Op-amp may be used to perform summing operation of several input signals in inverting in inverting and non-inverting mode. The input signals to be summed up are given to inverting terminal or non-inverting terminal through the input resistance to perform inverting and non-invertin ...
Passive Components - Resistors, Types of Resistors, Ohm`s Law
... small adjustable resistor) or combine two or more resistors to get the required value. Trim-pots are too expensive to use for every case, but resistor combinations can cost as little as 15c but require some time with a calculator, rather than aprecision screwdriver. Below is the two basic combinatio ...
... small adjustable resistor) or combine two or more resistors to get the required value. Trim-pots are too expensive to use for every case, but resistor combinations can cost as little as 15c but require some time with a calculator, rather than aprecision screwdriver. Below is the two basic combinatio ...
Network analysis (electrical circuits)
A network, in the context of electronics, is a collection of interconnected components. Network analysis is the process of finding the voltages across, and the currents through, every component in the network. There are many different techniques for calculating these values. However, for the most part, the applied technique assumes that the components of the network are all linear.The methods described in this article are only applicable to linear network analysis, except where explicitly stated.