LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp
... rail-to-rail output swing and rail-to-rail input commonmode range (CMR); the input CMR actually extends beyond either rail by about 0.3V. This allows unity-gain buffer circuits to operate with any input signal within the power supply rails; input signal swing is limited only by the output stage swin ...
... rail-to-rail output swing and rail-to-rail input commonmode range (CMR); the input CMR actually extends beyond either rail by about 0.3V. This allows unity-gain buffer circuits to operate with any input signal within the power supply rails; input signal swing is limited only by the output stage swin ...
MAX9945 Evaluation Kit Evaluates: General Description Features
... defined as photodiode current, and VOS is the input offset voltage of the op amp. When the photodiode is located at a distance from the op amp (e.g., at the end of a cable), it is sometimes advantageous to place the photodiode between the IN+ and IN- terminals of the op amp, instead of referencing i ...
... defined as photodiode current, and VOS is the input offset voltage of the op amp. When the photodiode is located at a distance from the op amp (e.g., at the end of a cable), it is sometimes advantageous to place the photodiode between the IN+ and IN- terminals of the op amp, instead of referencing i ...
General Specifications MODEL UM350 Digital Indicator with Alarms
... Either PV or target setpoint is outputs. Either this or the 15V DC loop power supply is available. Number of output points: 1 Output signal: 4 to 20 mA DC On-load resistance: 600 Ω or less Output accuracy: ±0.3% of span Performance in the standard operating conditions (at 23±2°C, 55±10% RH, and 50/ ...
... Either PV or target setpoint is outputs. Either this or the 15V DC loop power supply is available. Number of output points: 1 Output signal: 4 to 20 mA DC On-load resistance: 600 Ω or less Output accuracy: ±0.3% of span Performance in the standard operating conditions (at 23±2°C, 55±10% RH, and 50/ ...
TS1005 - Silicon Labs
... design requires high accuracy. In these situations, it is necessary for the input signal to avoid the crossover point. In addition, amplifier parameters such as PSRR and CMRR which involve the input offset voltage will also be affected by changes in the input common-mode voltage across the different ...
... design requires high accuracy. In these situations, it is necessary for the input signal to avoid the crossover point. In addition, amplifier parameters such as PSRR and CMRR which involve the input offset voltage will also be affected by changes in the input common-mode voltage across the different ...
LMC7221 Tiny CMOS Comparator with Rail-To-Rail Input
... power supply, and compare it to a reference voltage which is close to the power supply voltage. The wide input range can also be useful for sensing the voltage drop across a current sense resistor for battery chargers. Zero Crossing Detector. Since the LMC7221’s common mode input range extends below ...
... power supply, and compare it to a reference voltage which is close to the power supply voltage. The wide input range can also be useful for sensing the voltage drop across a current sense resistor for battery chargers. Zero Crossing Detector. Since the LMC7221’s common mode input range extends below ...
MAX750A/MAX758A Adjustable, Step-Down, Current-Mode PWM Regulators _______________General Description
... The MAX750A/MAX758A switch-mode regulators use a current-mode pulse-width-modulation (PWM) control system coupled with a simple step-down (buck) regulator topography. Input voltages range from 4V to 11V for the MAX750A, and from 4V to 16V for the MAX758A. The current-mode PWM architecture provides c ...
... The MAX750A/MAX758A switch-mode regulators use a current-mode pulse-width-modulation (PWM) control system coupled with a simple step-down (buck) regulator topography. Input voltages range from 4V to 11V for the MAX750A, and from 4V to 16V for the MAX758A. The current-mode PWM architecture provides c ...
MAX8860 低噪声、低压差300mA (确保)稳压器,µMAX封装
... this reference to the selected feedback voltage and amplifies the difference. The MOSFET driver reads the error signal and applies the appropriate drive to the Pchannel pass transistor. If the feedback voltage is lower than the reference voltage, the pass-transistor gate is pulled lower, allowing mo ...
... this reference to the selected feedback voltage and amplifies the difference. The MOSFET driver reads the error signal and applies the appropriate drive to the Pchannel pass transistor. If the feedback voltage is lower than the reference voltage, the pass-transistor gate is pulled lower, allowing mo ...
AN9 - Application Considerations and Circuits for a New Chopper-Stabilized Op Amp
... sets front-end switching frequency at a few hundred hertz. The chart details circuit performance. High Performance Isolation Amplifier Instrumentation amplifiers cannot be used to signal condition all differential signals. In factory and process control environments, severe grounding and common mode v ...
... sets front-end switching frequency at a few hundred hertz. The chart details circuit performance. High Performance Isolation Amplifier Instrumentation amplifiers cannot be used to signal condition all differential signals. In factory and process control environments, severe grounding and common mode v ...
Power Quality Analyzer Class A Accuracy Certified MC784
... implementation of a PQ system itself will not prevent disturbances in network but rather help diagnose their origins and effects by comparing and scrutinizing data from multiple time synchronized measurement points. Therefore the most extensive benefits are achieved when the MC784 is used as a part ...
... implementation of a PQ system itself will not prevent disturbances in network but rather help diagnose their origins and effects by comparing and scrutinizing data from multiple time synchronized measurement points. Therefore the most extensive benefits are achieved when the MC784 is used as a part ...
Or, How to Design a Differential Signaling Circuit
... In the case of the twin lead transmission line, the electromagnetic field travels between the two wires and the impedance is measured one with respect to the other. This is often referred to as differential impedance, but in truth, it’s just the impedance. Whether the wires or twisted or not, this i ...
... In the case of the twin lead transmission line, the electromagnetic field travels between the two wires and the impedance is measured one with respect to the other. This is often referred to as differential impedance, but in truth, it’s just the impedance. Whether the wires or twisted or not, this i ...
5.5 Fault analysis of distribution networks with DG
... (18) sin ϕ is positive for a lagging power factor of the transformer (absorbing VAr from the feeder). In Eqs. (19)–(21) sin ϕ is positive for a leading power factor of the generator (generating VAr). The impedance correction factors of Eqs. (17)–(21) are derived by comparing the calculation results ...
... (18) sin ϕ is positive for a lagging power factor of the transformer (absorbing VAr from the feeder). In Eqs. (19)–(21) sin ϕ is positive for a leading power factor of the generator (generating VAr). The impedance correction factors of Eqs. (17)–(21) are derived by comparing the calculation results ...
A Novel High Speed Differential Ultra Low-Voltage
... reduced. In Figure 4 3) a differential input master latch is shown where we use the D input to turn off the most active evaluate transistor. This configuration will not be as robust as the master latch in 2). The master latch shown in Figure 4 4) resembles the circuit in 2). The effect of the keeper ...
... reduced. In Figure 4 3) a differential input master latch is shown where we use the D input to turn off the most active evaluate transistor. This configuration will not be as robust as the master latch in 2). The master latch shown in Figure 4 4) resembles the circuit in 2). The effect of the keeper ...
Three-Terminal Linear Regulator
... the 1.25-V reference voltage, making it unsuitable for powering low-voltage integrated circuits that were emerging in the market based on low-geometry complementary metal–oxide–semiconductor processes. A new architecture was needed to end the low-voltage limitation of three-terminal linear regulator ...
... the 1.25-V reference voltage, making it unsuitable for powering low-voltage integrated circuits that were emerging in the market based on low-geometry complementary metal–oxide–semiconductor processes. A new architecture was needed to end the low-voltage limitation of three-terminal linear regulator ...