An operational amplifier can operates within those limits. [+5 volts and 0 zero ] it can operate as long as there is any kind of differential power supply withing the limits of the device itself.
Standard TTL (which stands for Transistor-Transistor Logic) circuits operate on a 5V power supply. The typical level for a logical "0" is between 0V and 0.8V, and the typical level for a logal "1" is somewhere between 2.2V and 5V. Typically, a value little lower than Vcc (power source voltage) is used; in case of a 5V supply, this is usually around 4.5V, but TTL devices are built to withstand full Vcc as input, just in case.
A zero volt rail is a rail that is connected to 0V... What do you think it is? The 0V rail is often used as a common ground, although obviously it relies on your ground voltage being 0V.
It is an opamp chip consisting of 8 pins
yes.you can get 5v output even when the polarity is reversed. In a 5v battery, if u reverse the polarity, then u'll get the same 5v as output , but in the opposite direction.(i.e.,)-5v(negative 5 volt
assuming 5v steady the 2 amps can be virtual zero by reducing the load present
0v zero for a ditital "0" and +5v for a digital "1"
The color code of the wires in the power supply is: Red = +5V Black = Ground (0V) White = -5V Yellow = +12V Blue = -12V Orange = +3.3V Purple = +5V Standby Gray = power is on (output) Green = Turn DC on (input)
Pin 1 is +5V, pin 2 is Ground and pin 3 is the signal. Use analog voltimeter in pin 2 and 3. Crank the engine: the pointer of the voltimeter shoud oscilate in range 0V to 5V.
there are microcontrollers(computers)that can be programmed to do some functions like writing a code to make pin in chip go to 1(5v) or 0(0v) and for ex. by making BWM we can control motors
It will act like a buffer but not the exact buffer. Since nmos conduct logic 1 weakly and pmos conduct logic 0 weakly, the output ranges from vdd-vtn to vtp. For eg. If you apply 5v then the op will be 4.3 not the complete 5v. If you apply 0v then output will be 0.7v not 0 v. Hope this works
Standard TTL (which stands for Transistor-Transistor Logic) circuits operate on a 5V power supply. The typical level for a logical "0" is between 0V and 0.8V, and the typical level for a logal "1" is somewhere between 2.2V and 5V. Typically, a value little lower than Vcc (power source voltage) is used; in case of a 5V supply, this is usually around 4.5V, but TTL devices are built to withstand full Vcc as input, just in case.
A comparator is simply an opamp with a certain configuation of external circuitry ( a few components) that make it function as a comparator.
A zero volt rail is a rail that is connected to 0V... What do you think it is? The 0V rail is often used as a common ground, although obviously it relies on your ground voltage being 0V.
By changing the polarity of the source
By changing the polarity of the source
The answer is 1 + 5v.
Look on the datasheet. But most are either TTL compatible (0V to 5V) or low voltage TTL compatible (0V to 3.3V). Some have open drain outputs that can handle higher output voltages by using a pullup resistor.The important thing is always consult the datasheet to know for certain on a specific device.