9/2/2023 0 Comments Transistor gate tablesLowering of Voltages will give the LOW state. The voltage from VCC will start flowing the current from VCC to Ground through the transistor and this will lower the voltages on the A’. When input from the “A” is HIGH then the transistor will start flowing the current. There will be two conditions in which the circuit will operate. The base of the transistor will act as input and emitter will act as output. The transistor will be attached to the power supply and resistor. The transistor act as a switch and resistor use to change the max current flow. NOT gate is designed by transistors and resistors. The single-chip provides four inverters which are smaller in size and faster in speed.IT can be used easily with any TTL device without usage on any device. The IC cost much less than a single PMOS or CMOS inverter does.It’s the max range, more could harm the IC. IC 74LS04 can draw an output current of 8mA on each gate.The operating voltage of the IC is 0 to 70 degrees.The maximum rise and fall time are faster for most of the controller the other TTL devices.The supply voltage range for IC is 4.75V to 5.25.A whole 74LS04 can be used for only one inverter without effecting the other inverter.It comes in multiple packages, SOIC, SOP and PDIP.Its speed is much faster than a simple transistor-based inverter.74LS04 gives the output in TTL logic, which makes it workable with any other TTL device and microcontroller.It will use to provide the power to the IC, to make it functional. Pin 13 will use as the input pin for the sixth inverter. Pin 12 will give the output of the sixth inverter. Pin 11 will use as an input pin for the fifth inverter. Pin 10 will give the output of the fifth inverter. Pin 9 will use as an input pin for the fourth inverter. Pin 8 will give the output of the fourth inverter. Pin 7 will be used as a common ground pin when IC will be used with other IC. Pin 6 will give the output of the third inverter. Pin 5 will be used as the input for the third inverter. Pin 4 will give the output of the second inverter. Pin 3 will be used as the input for the second inverter. Pin 2 will give the output of the first inverter. Pin 1 will be used as the input pin for the first inverter. This table lists 74ls04 NOT gate details of all pins. Other logical gates: 74LS138, 74LS00, 74LS02 74LS04 IC PIN CONFIGURATION Details In summary, 74LS04 IC is TTL/CMOS based, it makes IC much reliable to works with other microcontroller TTL devices. The inverter IC comes up in multiple packages, which make its usage in multiple devices. Every inverter uses a single power supply and it can be used individually like each other. The 74LS04 comes up with six internal inverters. To solve this problem, we use different ICs that come inverters, the 74LS04 is one of the best IC of 74LS series to use as a transistor. The basic circuit of the NOT gate by use of transistor design is larger in size which is complex and costly as compared to other solutions. The basic function of transistors is to give the opposite output with respect to input signals. Inverters are easy to design using NMOS and PMOS transistors. Inverter in logic converters is an electronics device whose basic functions are to invert the incoming logic weather it is HIGH or LOW. 74LS04 is a 2 input quadruple 8-bit NOT gate IC.
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