Clippers And Clampers
... of the input, the RC time constant must be large. A design rule of thumb is to make the RC time constant at least five times the half-period of the input signal, which results in approximately an 18% error over a half-period due to capacitor discharge. If this error is too large, the RC time constan ...
... of the input, the RC time constant must be large. A design rule of thumb is to make the RC time constant at least five times the half-period of the input signal, which results in approximately an 18% error over a half-period due to capacitor discharge. If this error is too large, the RC time constan ...
Sensors and amplifiers Chapter 13 13.1 Basic properties of sensors
... voltage−current product at the amplifier's input. Since power = voltage × current this ensures the highest possible input power for a given signal emf, V ′s . This result is a general one which arises because the amount of power generated by a source can never be infinite. All signal sources will ha ...
... voltage−current product at the amplifier's input. Since power = voltage × current this ensures the highest possible input power for a given signal emf, V ′s . This result is a general one which arises because the amount of power generated by a source can never be infinite. All signal sources will ha ...
低噪声、低静态电流、高精度运算放大器 ™ 系列 e-trim OPA376-Q1
... required. As with all op amps, there may be specific instances where the OPAx376 can become unstable, leading to oscillation. The particular op amp circuit configuration, layout, gain, and output loading are some of the factors to consider when establishing whether an amplifier will be stable in ope ...
... required. As with all op amps, there may be specific instances where the OPAx376 can become unstable, leading to oscillation. The particular op amp circuit configuration, layout, gain, and output loading are some of the factors to consider when establishing whether an amplifier will be stable in ope ...
CLASS A AMPLIFIERS
... AC Load Line From the ac viewpoint, the circuit in Figure 6 looks different than it does from the dc viewpoint. The collector resistance is different because RL is in parallel with Rc due to the coupling capacitor C3, and the emitter resistance is zero due to the bypass capacitor C2; therefore, th ...
... AC Load Line From the ac viewpoint, the circuit in Figure 6 looks different than it does from the dc viewpoint. The collector resistance is different because RL is in parallel with Rc due to the coupling capacitor C3, and the emitter resistance is zero due to the bypass capacitor C2; therefore, th ...
LM321 数据资料 dataSheet 下载
... Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is intended to be functional, but specific performance is not guaranteed. For guaranteed specifications and the test conditions, see the Electrical ...
... Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is intended to be functional, but specific performance is not guaranteed. For guaranteed specifications and the test conditions, see the Electrical ...
Buck Current/Voltage Fed Push-Pull PWM Controllers
... SYNC: SYNC is a bidirectional pin for the oscillator. This pin can be used to synchronize several chips to the fastest oscillator. Its input synchronization threshold is 1.4V. The SYNC voltage is 3.6V when the oscillator capacitor, CT, is discharged. Otherwise it is 0V. If the recommended synchroniz ...
... SYNC: SYNC is a bidirectional pin for the oscillator. This pin can be used to synchronize several chips to the fastest oscillator. Its input synchronization threshold is 1.4V. The SYNC voltage is 3.6V when the oscillator capacitor, CT, is discharged. Otherwise it is 0V. If the recommended synchroniz ...
A Multi-Channel Discriminator IC George Engel IC Design Research Laboratory
... ”fast” shaper output is applied to the inverting input of the zero-cross discriminator circuit along with a delayed version of the input pulse connected to the non-inverting input. It is well-known that the time at which the differential voltage crosses through zero is independent of the input pulse ...
... ”fast” shaper output is applied to the inverting input of the zero-cross discriminator circuit along with a delayed version of the input pulse connected to the non-inverting input. It is well-known that the time at which the differential voltage crosses through zero is independent of the input pulse ...
AD8553 数据手册DataSheet 下载
... performance. The continuous autocorrection provides great CMR and PSR performances over the entire operating temperature range (−40°C to +85°C). The parasitic resistance in series with R2 does not degrade CMR but causes a small gain error and a very small offset error. Therefore, an external buffer ...
... performance. The continuous autocorrection provides great CMR and PSR performances over the entire operating temperature range (−40°C to +85°C). The parasitic resistance in series with R2 does not degrade CMR but causes a small gain error and a very small offset error. Therefore, an external buffer ...
HMC383LC4
... The HMC383LC4 is a general purpose GaAs PHEMT MMIC Driver Amplifier housed in a leadless RoHS compliant SMT package. The amplifier provides 15 dB of gain and +18 dBm of saturated power from a single +5V supply. Consistent gain and output power across the operating band make it possible to use a comm ...
... The HMC383LC4 is a general purpose GaAs PHEMT MMIC Driver Amplifier housed in a leadless RoHS compliant SMT package. The amplifier provides 15 dB of gain and +18 dBm of saturated power from a single +5V supply. Consistent gain and output power across the operating band make it possible to use a comm ...
HMC564LC4 数据资料DataSheet下载
... The HMC564LC4 is a high dynamic range GaAs pHEMT MMIC Low Noise Amplifier housed in a leadless RoHS compliant 4x4 mm SMT package. Operating from 7 to 14 GHz, the HMC564LC4 features extremely flat small signal gain of 17 dB as well as 1.8 dB noise figure and +25 dBm output IP3 across the operating ba ...
... The HMC564LC4 is a high dynamic range GaAs pHEMT MMIC Low Noise Amplifier housed in a leadless RoHS compliant 4x4 mm SMT package. Operating from 7 to 14 GHz, the HMC564LC4 features extremely flat small signal gain of 17 dB as well as 1.8 dB noise figure and +25 dBm output IP3 across the operating ba ...
Chapter 6: Transistors and Gain
... The emitter follower is extremely useful because it transforms impedance. The current amplification of the transistor means that it can drive a low impedance, while ...
... The emitter follower is extremely useful because it transforms impedance. The current amplification of the transistor means that it can drive a low impedance, while ...