3 System definition - Telecommunications Industry Association
... Significant Time Instance is the time when a time-varying signal achieves a level or range of levels that signifies a logic state change. Single-ended Mode is a signaling mode that uses a single driven line. Skew is a time difference between significant instances of different signals or the time dif ...
... Significant Time Instance is the time when a time-varying signal achieves a level or range of levels that signifies a logic state change. Single-ended Mode is a signaling mode that uses a single driven line. Skew is a time difference between significant instances of different signals or the time dif ...
ph104exp07_AC_RLC_Circuits_04
... A transformer is a combination of two inductors arranged such that (ideally) all of the magnetic flux through each of the inductors also passes through the other. The purpose of the transformer is to transform the oscillatory voltage V1 that is applied to the first inductor into an oscillatory volta ...
... A transformer is a combination of two inductors arranged such that (ideally) all of the magnetic flux through each of the inductors also passes through the other. The purpose of the transformer is to transform the oscillatory voltage V1 that is applied to the first inductor into an oscillatory volta ...
Voltmeter and Ammeter Loading Effects
... Ammeter Loading Effect Use a DMM ohmmeter to measure the actual resistance of a 4.7 Ω resistor. Use a DMM voltmeter to adjust the voltage source to 0.3 V. Calculate the unloaded current of the circuit in Figure 5. Actual resistance of the 4.7 Ω resistor = ____________Ω Unloaded current , I = _______ ...
... Ammeter Loading Effect Use a DMM ohmmeter to measure the actual resistance of a 4.7 Ω resistor. Use a DMM voltmeter to adjust the voltage source to 0.3 V. Calculate the unloaded current of the circuit in Figure 5. Actual resistance of the 4.7 Ω resistor = ____________Ω Unloaded current , I = _______ ...
LT1672/3/4 - 2µA Max, Av >=5 Single, Dual and Quad Over-The-Top Precision Rail-to-Rail Input and Output Op Amps
... (IS ≤ 2µA) decompensated (AV ≥ 5) op amps with precision specifications. The extremely low supply current is combined with excellent amplifier specifications: input offset voltage is 375µV maximum with a typical drift of only 0.4µV/°C, input offset current is 100pA maximum. A minimum open-loop gain ...
... (IS ≤ 2µA) decompensated (AV ≥ 5) op amps with precision specifications. The extremely low supply current is combined with excellent amplifier specifications: input offset voltage is 375µV maximum with a typical drift of only 0.4µV/°C, input offset current is 100pA maximum. A minimum open-loop gain ...
Very Low-Power, High-Speed, Rail-to
... Very Low Quiescent Current: 750 μA (at 5 V) Rail-to-Rail Input and Output: – Common-Mode Input Voltage Extends 400 mV Beyond the Rails – Output Swings Within 150 mV From the Rails Wide –3-dB Bandwidth at 5 V: – 90 MHz at Gain = +1, 40 MHz at Gain = +2 High Slew Rate: 35 V/μs Fast Settling Time (2-V ...
... Very Low Quiescent Current: 750 μA (at 5 V) Rail-to-Rail Input and Output: – Common-Mode Input Voltage Extends 400 mV Beyond the Rails – Output Swings Within 150 mV From the Rails Wide –3-dB Bandwidth at 5 V: – 90 MHz at Gain = +1, 40 MHz at Gain = +2 High Slew Rate: 35 V/μs Fast Settling Time (2-V ...
AN1318 Interfacing Semiconductor Pressure Sensors
... INSTRUMENTATION AMPLIFIER INTERFACES Instrumentation amplifiers are by far the most common interface circuits that are used with pressure sensors. An example of an inexpensive instrumentation amplifier based interface circuit is shown in Figure 2. It uses an MC33274 quad operational amplifier and se ...
... INSTRUMENTATION AMPLIFIER INTERFACES Instrumentation amplifiers are by far the most common interface circuits that are used with pressure sensors. An example of an inexpensive instrumentation amplifier based interface circuit is shown in Figure 2. It uses an MC33274 quad operational amplifier and se ...
Department of Electronics and Communication
... • This variation in base current is amplified beta times to get variation in collector current iC • Output voltage vout is VCC – iC RC • Note that if vin increases, there is proportional decrease in vout, but of greater magnitude • Similarly if vin decreases, vout increases proportionally • Thus out ...
... • This variation in base current is amplified beta times to get variation in collector current iC • Output voltage vout is VCC – iC RC • Note that if vin increases, there is proportional decrease in vout, but of greater magnitude • Similarly if vin decreases, vout increases proportionally • Thus out ...
LTC1666/LTC1667/LTC1668 - 12-Bit, 14-Bit, 16
... be 0.1µF or more. The reference control loop small-signal bandwidth is approximately 1/(2π) • CCOMP1 • 80 or 20kHz for CCOMP1 = 0.1µF. Reference Operation The onboard 2.5V bandgap voltage reference drives the REFOUT pin. It is trimmed and specified to drive a 2k resistor tied from REFOUT to IREFIN, ...
... be 0.1µF or more. The reference control loop small-signal bandwidth is approximately 1/(2π) • CCOMP1 • 80 or 20kHz for CCOMP1 = 0.1µF. Reference Operation The onboard 2.5V bandgap voltage reference drives the REFOUT pin. It is trimmed and specified to drive a 2k resistor tied from REFOUT to IREFIN, ...
U04504127132
... comparator change its biasing scheme from class B to class AB. Another approach using resistor feedback to detect small currents shown in fig.2 [6].A simple current-source inverting amplifier seems attractive for many applications, but its large output resistance prevents its use at high speed, espe ...
... comparator change its biasing scheme from class B to class AB. Another approach using resistor feedback to detect small currents shown in fig.2 [6].A simple current-source inverting amplifier seems attractive for many applications, but its large output resistance prevents its use at high speed, espe ...
Source Transformations
... The circuits in this set of problems consist of independent sources, resistors and a meter. In particular, these circuits do not contain dependent sources. Each of these circuits has a seriesparallel structure that makes it possible to simplify the circuit by repeatedly ...
... The circuits in this set of problems consist of independent sources, resistors and a meter. In particular, these circuits do not contain dependent sources. Each of these circuits has a seriesparallel structure that makes it possible to simplify the circuit by repeatedly ...
SMP08
... associated with external buffers; outputs are stable with capacitive loads up to 500 pF. However, since the SMP08’s buffer outputs are not short-circuit protected, care should be taken to avoid shorting any output to the supplies or ground. ...
... associated with external buffers; outputs are stable with capacitive loads up to 500 pF. However, since the SMP08’s buffer outputs are not short-circuit protected, care should be taken to avoid shorting any output to the supplies or ground. ...
AD8251 数据手册DataSheet 下载
... The AD8251 is an instrumentation amplifier with digitally programmable gains that has GΩ input impedance, low output noise, and low distortion, making it suitable for interfacing with sensors and driving high sample rate analog-to-digital converters (ADCs). It has a high bandwidth of 10 MHz, low THD ...
... The AD8251 is an instrumentation amplifier with digitally programmable gains that has GΩ input impedance, low output noise, and low distortion, making it suitable for interfacing with sensors and driving high sample rate analog-to-digital converters (ADCs). It has a high bandwidth of 10 MHz, low THD ...
ADCLK954 数据手册DataSheet 下载
... microstrip/stripline transmission lines terminated with 50 Ω referenced to VCC − 2 V, as shown in Figure 14. The LVPECL output stage is shown in Figure 13. The outputs are designed for best transmission line matching. If high speed signals must be routed more than a centimeter, either the microstrip ...
... microstrip/stripline transmission lines terminated with 50 Ω referenced to VCC − 2 V, as shown in Figure 14. The LVPECL output stage is shown in Figure 13. The outputs are designed for best transmission line matching. If high speed signals must be routed more than a centimeter, either the microstrip ...
MAX5084/MAX5085 65V, 200mA, Low-Quiescent-Current Linear Regulators in TDFN General Description
... deliver up to 200mA of output current. These devices consume only 50µA (typ) of quiescent current with no load and 6µA (typ) in shutdown (EN pulled low). Both devices include a SET input, which when connected to ground, selects a preset output voltage of 5V (MAX5084) or 3.3V (MAX5085). Alternatively ...
... deliver up to 200mA of output current. These devices consume only 50µA (typ) of quiescent current with no load and 6µA (typ) in shutdown (EN pulled low). Both devices include a SET input, which when connected to ground, selects a preset output voltage of 5V (MAX5084) or 3.3V (MAX5085). Alternatively ...
