INA133 数据资料 dataSheet 下载
... The INA133 and INA2133 are laser trimmed for low offset voltage and drift. Most applications require no external offset adjustment. Figure 2 shows an optional circuit for trimming the output offset voltage. The output is referred to the output reference terminal (pin 1), which is normally grounded. ...
... The INA133 and INA2133 are laser trimmed for low offset voltage and drift. Most applications require no external offset adjustment. Figure 2 shows an optional circuit for trimming the output offset voltage. The output is referred to the output reference terminal (pin 1), which is normally grounded. ...
Lab 3.8 Impedance of test instruments (p79)
... 3) How does the oscilloscope input impedance change when you increase the input signal frequency to 10 kHz? Your scope input can be modeled as an R and C in parallel: what are the values of R and C? Show your calculation. 4) What is the output impedance of your signal generator when it outputs a 1V ...
... 3) How does the oscilloscope input impedance change when you increase the input signal frequency to 10 kHz? Your scope input can be modeled as an R and C in parallel: what are the values of R and C? Show your calculation. 4) What is the output impedance of your signal generator when it outputs a 1V ...
AD22057 数据手册DataSheet 下载
... resistor, plus an optional potentiometer if gain adjustment is required (for example, to absorb a calibration error in a transducer). Decreasing the Gain. See Figure 4. Since the output of the preamplifier has an output resistance of 100 kΩ, an external resistor connected from Pin 4 to ground will p ...
... resistor, plus an optional potentiometer if gain adjustment is required (for example, to absorb a calibration error in a transducer). Decreasing the Gain. See Figure 4. Since the output of the preamplifier has an output resistance of 100 kΩ, an external resistor connected from Pin 4 to ground will p ...
Homework 1 Solution
... source? How much? Ans: Since the 1A from the current source is gone, the 5V would have to supply this current to maintain KVL in the right mesh. The current would flow OUT from the source: P5v Source=5V(-1A)= -5W, generating. 9) In the circuit below, the voltage source, V1, will burn up if it has to ...
... source? How much? Ans: Since the 1A from the current source is gone, the 5V would have to supply this current to maintain KVL in the right mesh. The current would flow OUT from the source: P5v Source=5V(-1A)= -5W, generating. 9) In the circuit below, the voltage source, V1, will burn up if it has to ...
Surface DC Voltmeter Model SVM2 Quick Start Instructions Surface
... case, repeat the "Reset" step. (If the disc is physically touched by a solid, charge transfer of this type may occur. This does not harm the meter, but it will require a "Reset" to continue to make accurate readings. Therefore, avoid touching the disc.) To test a large area, begin as above, but sca ...
... case, repeat the "Reset" step. (If the disc is physically touched by a solid, charge transfer of this type may occur. This does not harm the meter, but it will require a "Reset" to continue to make accurate readings. Therefore, avoid touching the disc.) To test a large area, begin as above, but sca ...
MA3421622167
... inverter in which the switching devices have limited ratings .So that these cannot used effectively in high power and high voltage applications. And also at high switching frequencies these two level inverter has high switching losses that leads to decrease in the efficiency. If we consider the Mult ...
... inverter in which the switching devices have limited ratings .So that these cannot used effectively in high power and high voltage applications. And also at high switching frequencies these two level inverter has high switching losses that leads to decrease in the efficiency. If we consider the Mult ...
AD823 Dual 16 MHz, Rail-to-Rail FET Input Amplifier Data Sheet
... 600 MHz to 800 MHz region. In addition, the process also features N-Channel JFETs, which are used in the input stage of the AD823. These process features allow the construction of high frequency, low distortion op amps with pico-ampere input currents. This design uses a differential output input sta ...
... 600 MHz to 800 MHz region. In addition, the process also features N-Channel JFETs, which are used in the input stage of the AD823. These process features allow the construction of high frequency, low distortion op amps with pico-ampere input currents. This design uses a differential output input sta ...
Delta Modulation For Voice Transmission
... a continuous NRZ digital data stream. This digital data is also integrated and fed back to the comparator. The feedback system is such that the integrator ramps up and down to produce a rough approximation of the input waveform. An identical integrator in the demodulator produces the same waveform, ...
... a continuous NRZ digital data stream. This digital data is also integrated and fed back to the comparator. The feedback system is such that the integrator ramps up and down to produce a rough approximation of the input waveform. An identical integrator in the demodulator produces the same waveform, ...
Datasheet - SHF Communication Technologies AG
... For permanent mounting remove the heat sink from the amplifier. In that case please ensure that adequate cooling of the amplifier is guaranteed. It is recommended to use thermal paste or a thermal gap pad for the mounting. In order to separate the heat sink from the amplifier, remove the four screws ...
... For permanent mounting remove the heat sink from the amplifier. In that case please ensure that adequate cooling of the amplifier is guaranteed. It is recommended to use thermal paste or a thermal gap pad for the mounting. In order to separate the heat sink from the amplifier, remove the four screws ...
MT-087 TUTORIAL Voltage References
... Voltage references and linear regulators have much in common. In fact, the latter could be functionally described as a reference circuit, but with greater current (or power) output. Accordingly, almost all of the specifications of the two circuit types have great commonality (even though the perform ...
... Voltage references and linear regulators have much in common. In fact, the latter could be functionally described as a reference circuit, but with greater current (or power) output. Accordingly, almost all of the specifications of the two circuit types have great commonality (even though the perform ...
II. Space vector modulation for csc
... Figure 19 shows the determined grid voltage angle, which is synchronization angle and it is used in Parke transformations (rotating transformation) in the control algorithm. Conventional PLL was used, which is feedback system that consists of a comparator, low-pass filter and integrator, and generat ...
... Figure 19 shows the determined grid voltage angle, which is synchronization angle and it is used in Parke transformations (rotating transformation) in the control algorithm. Conventional PLL was used, which is feedback system that consists of a comparator, low-pass filter and integrator, and generat ...
4.25Gbps Transimpedance Amplifier with AGC
... application by choosing the external resistor. However, for proper operation of the ONET4291T, ensure that the voltage at RSSI never exceeds VCC – 0.65 V. The minimum small-signal bandwidth is specified over process corners, temperature, and supply voltage variation. The assumed photodiode capacitan ...
... application by choosing the external resistor. However, for proper operation of the ONET4291T, ensure that the voltage at RSSI never exceeds VCC – 0.65 V. The minimum small-signal bandwidth is specified over process corners, temperature, and supply voltage variation. The assumed photodiode capacitan ...
Simulation Tool for
... vg = Ve | sin ωt |, where Vg is the peak value of the mains input voltage (ve), ω = 2πf and f is the line voltage frequency. In a S.F. period we consider v g constant and its value is vg = Vg |sin ω t1i|. We can make this simplification because the line voltage has a frequency (50 - 60 Hz) which is ...
... vg = Ve | sin ωt |, where Vg is the peak value of the mains input voltage (ve), ω = 2πf and f is the line voltage frequency. In a S.F. period we consider v g constant and its value is vg = Vg |sin ω t1i|. We can make this simplification because the line voltage has a frequency (50 - 60 Hz) which is ...
Integrating ADC
An integrating ADC is a type of analog-to-digital converter that converts an unknown input voltage into a digital representation through the use of an integrator. In its most basic implementation, the unknown input voltage is applied to the input of the integrator and allowed to ramp for a fixed time period (the run-up period). Then a known reference voltage of opposite polarity is applied to the integrator and is allowed to ramp until the integrator output returns to zero (the run-down period). The input voltage is computed as a function of the reference voltage, the constant run-up time period, and the measured run-down time period. The run-down time measurement is usually made in units of the converter's clock, so longer integration times allow for higher resolutions. Likewise, the speed of the converter can be improved by sacrificing resolution.Converters of this type can achieve high resolution, but often do so at the expense of speed. For this reason, these converters are not found in audio or signal processing applications. Their use is typically limited to digital voltmeters and other instruments requiring highly accurate measurements.