Lab1
... Measure the threshold voltages at which a NOT gate switches from Logical “1” to Logical “0” and vice versa. Use Fig. 2 and connect the input of Inverter U1A to a voltage between 0 to +5 V using Agilent Power Supply (0 to +6V but limit it to +5V) or through a potentiometer and the +5V Power supply av ...
... Measure the threshold voltages at which a NOT gate switches from Logical “1” to Logical “0” and vice versa. Use Fig. 2 and connect the input of Inverter U1A to a voltage between 0 to +5 V using Agilent Power Supply (0 to +6V but limit it to +5V) or through a potentiometer and the +5V Power supply av ...
Circuits #3 - Electro Tech Online
... The voltage in a circuit can be used to form a signal. For example, +5v could be used to represent the binary value ‘1’, while 0v could be used to represent the binary value ‘0’ ...
... The voltage in a circuit can be used to form a signal. For example, +5v could be used to represent the binary value ‘1’, while 0v could be used to represent the binary value ‘0’ ...
Multiple DDC Signal Input to Proportional Resistance Output
... two digital signals, one for increase and the other for decrease. The floating point full scale rate of change is 55 seconds. Some triac input signals require an accessory (see ordering information). Custom input signal types and ranges are also available. The DRN4 is supplied in an enclosure that c ...
... two digital signals, one for increase and the other for decrease. The floating point full scale rate of change is 55 seconds. Some triac input signals require an accessory (see ordering information). Custom input signal types and ranges are also available. The DRN4 is supplied in an enclosure that c ...
Document
... are the same as in single-phase circuit. Input power factor is a little higher than single-phase circuit. Harmonics in the input current is a little lower thanthe single- phase circuit due to the cancellation of some harmonics among the 3 phases. To improve the input power factor: –Use DC bias or 3k ...
... are the same as in single-phase circuit. Input power factor is a little higher than single-phase circuit. Harmonics in the input current is a little lower thanthe single- phase circuit due to the cancellation of some harmonics among the 3 phases. To improve the input power factor: –Use DC bias or 3k ...
4 ES46 LINEAR IC`s AND APPLICATIONS
... (i) Output impedance (ii) Slew rate (iii) CMRR (iv) Input oiTset voltage Design a differential amplifier for a gain o f 37. Each input has an amplitude of approximately 50mV.Using LF353 op-amp design a suitable circuit and calculate the differential and common mode input resistances. ...
... (i) Output impedance (ii) Slew rate (iii) CMRR (iv) Input oiTset voltage Design a differential amplifier for a gain o f 37. Each input has an amplitude of approximately 50mV.Using LF353 op-amp design a suitable circuit and calculate the differential and common mode input resistances. ...
EK307 Lab: Introduction to Operational Amplifiers
... d) Construct the potentiometer Voltage divider circuit shown in figures 1 and 2 on your breadboard. It will be used as the input for the non-inverting amplifier. A potentiometer is a variable resistance Voltage divider device. It is useful for making Voltage adjustments when you don‟t have enough a ...
... d) Construct the potentiometer Voltage divider circuit shown in figures 1 and 2 on your breadboard. It will be used as the input for the non-inverting amplifier. A potentiometer is a variable resistance Voltage divider device. It is useful for making Voltage adjustments when you don‟t have enough a ...
Buck-Boost Converter Enables Three Modes of
... mode (PFM) or burst mode. Maximum output-current capability in the burst mode is (0.3VIN)/(VOUT + VIN) amperes. These modes of operation are selectable. The PWM frequency is programmable up to 2MHz using a single external resistor or can be synchronized to an external clock source. It can be synchro ...
... mode (PFM) or burst mode. Maximum output-current capability in the burst mode is (0.3VIN)/(VOUT + VIN) amperes. These modes of operation are selectable. The PWM frequency is programmable up to 2MHz using a single external resistor or can be synchronized to an external clock source. It can be synchro ...
Basics of Audio Systems Audio Basic Signal Path Signal
... Drawn by designer Used by crew to build system ...
... Drawn by designer Used by crew to build system ...
LF351 WIDE-BANDWIDTH JFET-INPUT OPERATIONAL AMPLIFIER
... This device is a low-cost, high-speed, JFET-input operational amplifier with an internally trimmed input offset voltage. It requires low supply current yet maintains a large gain-bandwidth product and a fast slew rate. In addition, the matched high-voltage JFET input provides very low input bias and ...
... This device is a low-cost, high-speed, JFET-input operational amplifier with an internally trimmed input offset voltage. It requires low supply current yet maintains a large gain-bandwidth product and a fast slew rate. In addition, the matched high-voltage JFET input provides very low input bias and ...
VCC_BAR Power, either postive or negative Grounds
... The output resistance is considered to be zero ohms. (ROUT ≈ 0 ohms) The potential difference between the two input pins is considered to be zero volts. (VIN = V2 – V1 ≈ 0 volts) No current flows into the op-amp. ...
... The output resistance is considered to be zero ohms. (ROUT ≈ 0 ohms) The potential difference between the two input pins is considered to be zero volts. (VIN = V2 – V1 ≈ 0 volts) No current flows into the op-amp. ...
FOUR UA741 QUAD BIPOLAR OPERATIONAL AMPLIFIERS
... The LM148 consists of four independent, high gain internally compensated, low power operational amplifiers which have been designed to provide functional characteristics identical to those of the familiar UA741 operational amplifier. In addition the total supply current for all four amplifiers is co ...
... The LM148 consists of four independent, high gain internally compensated, low power operational amplifiers which have been designed to provide functional characteristics identical to those of the familiar UA741 operational amplifier. In addition the total supply current for all four amplifiers is co ...
Diode CH/S
... robust nature. In the past, vacuum diodes were used with a heated cathode and anode. Today, silicon isthe most important basic material. ...
... robust nature. In the past, vacuum diodes were used with a heated cathode and anode. Today, silicon isthe most important basic material. ...
LM318
... added for compensation to achieve optimum performance. When used in inverting applications, feed-forward compensation can be used to achieve slew rate in excess of 150V/µs and almost double the bandwidth. For greater stability, using overcompensation with the amplifier is possible if maximum bandwid ...
... added for compensation to achieve optimum performance. When used in inverting applications, feed-forward compensation can be used to achieve slew rate in excess of 150V/µs and almost double the bandwidth. For greater stability, using overcompensation with the amplifier is possible if maximum bandwid ...
Schmitt trigger
In electronics a Schmitt trigger is a comparator circuit with hysteresis implemented by applying positive feedback to the noninverting input of a comparator or differential amplifier. It is an active circuit which converts an analog input signal to a digital output signal. The circuit is named a ""trigger"" because the output retains its value until the input changes sufficiently to trigger a change. In the non-inverting configuration, when the input is higher than a chosen threshold, the output is high. When the input is below a different (lower) chosen threshold the output is low, and when the input is between the two levels the output retains its value. This dual threshold action is called hysteresis and implies that the Schmitt trigger possesses memory and can act as a bistable multivibrator (latch or flip-flop). There is a close relation between the two kinds of circuits: a Schmitt trigger can be converted into a latch and a latch can be converted into a Schmitt trigger.Schmitt trigger devices are typically used in signal conditioning applications to remove noise from signals used in digital circuits, particularly mechanical contact bounce. They are also used in closed loop negative feedback configurations to implement relaxation oscillators, used in function generators and switching power supplies.