34 Electric Current
... Consider a long pipe filled with water. • Water will flow through the pipe if there is a difference in pressure across the pipe or between its ends. • Water flows from high pressure to low pressure. Similarly, charges flow through a circuit because of an applied voltage across the circuit. • You don ...
... Consider a long pipe filled with water. • Water will flow through the pipe if there is a difference in pressure across the pipe or between its ends. • Water flows from high pressure to low pressure. Similarly, charges flow through a circuit because of an applied voltage across the circuit. • You don ...
AN7 - Some Techniques for Direct Digitization of Transducer Outputs
... Trace B. Its position in time identifies it as a second bounce return from the tube’s far end. Also, note the increased detected noise level after the return of the first bounce. This is due to sonic energy dispersion inside the tube. The transducer picks up energy deflected from the tube walls, which ...
... Trace B. Its position in time identifies it as a second bounce return from the tube’s far end. Also, note the increased detected noise level after the return of the first bounce. This is due to sonic energy dispersion inside the tube. The transducer picks up energy deflected from the tube walls, which ...
Reduction of Harmonics Contained in the Input Power Supply
... PRZEGLĄD ELEKTROTECHNICZNY, ISSN 0033-2097, R. 91 NR 4/2015 ...
... PRZEGLĄD ELEKTROTECHNICZNY, ISSN 0033-2097, R. 91 NR 4/2015 ...
MAX3480EA/MAX3480EB ±15kV ESD-Protected, Isolated, 3.3V RS-485/RS-422 Data Interfaces General Description
... Note 1: All currents into device pins are positive; all currents out of device pins are negative. All voltages are referenced to logic-side ground (GND1, GND2), unless otherwise specified. Note 2: For DE´ and DI´ pin descriptions, see the Block Diagram and the Typical Application Circuit (Figure 1 f ...
... Note 1: All currents into device pins are positive; all currents out of device pins are negative. All voltages are referenced to logic-side ground (GND1, GND2), unless otherwise specified. Note 2: For DE´ and DI´ pin descriptions, see the Block Diagram and the Typical Application Circuit (Figure 1 f ...
meg ohmmeter
... is lowered and the low internal body resistance is controlling. When the MULTIPLIER switch of the Type 1862-A Megohmmeter is in an operating position, touching the two UNKNOWN terminals .with one finger is painful and can cause a slight burn. The amount of direct current that will flow for various v ...
... is lowered and the low internal body resistance is controlling. When the MULTIPLIER switch of the Type 1862-A Megohmmeter is in an operating position, touching the two UNKNOWN terminals .with one finger is painful and can cause a slight burn. The amount of direct current that will flow for various v ...
AD797 Ultralow Distortion, Ultralow Noise Op Amp Data Sheet
... The architecture of the AD797 was developed to overcome inherent limitations in previous amplifier designs. Previous precision amplifiers used three stages to ensure high open-loop gain (Figure 30) at the expense of additional frequency compensation components. Slew rate and settling performance are ...
... The architecture of the AD797 was developed to overcome inherent limitations in previous amplifier designs. Previous precision amplifiers used three stages to ensure high open-loop gain (Figure 30) at the expense of additional frequency compensation components. Slew rate and settling performance are ...
MADR-009190-000100 Quad Driver for GaAs FET or PIN Diode Switches and Attenuators
... maximum of ± 35 mA into a load. In addition, with proper capacitor selection (C3 & C4) used in parallel with the current setting resistor (R1 & R2), additional spiking current can be achieved. To achieve the Non-Inverting and Inverting complementary voltages, each output is switched between two inte ...
... maximum of ± 35 mA into a load. In addition, with proper capacitor selection (C3 & C4) used in parallel with the current setting resistor (R1 & R2), additional spiking current can be achieved. To achieve the Non-Inverting and Inverting complementary voltages, each output is switched between two inte ...
FPF2213-FPF2215 Integrated Load Switch with Adjustable High Precision Current Limit FP F2
... The ON pin is active high, and controls the state of the switch. Applying a continuous high signal will hold the switch in the on state. The switch will move into the OFF state when the active high is removed, or if a fault is encountered. For all versions, an undervoltage on VIN or a junction tempe ...
... The ON pin is active high, and controls the state of the switch. Applying a continuous high signal will hold the switch in the on state. The switch will move into the OFF state when the active high is removed, or if a fault is encountered. For all versions, an undervoltage on VIN or a junction tempe ...
Transmission Line Terminations: It`s the End That Counts
... The voltage pattern we expect to see is a single, positive reflection from the far end of the trace which travels to the front of the trace and is completely absorbed in the source resistor and driver. That means that we have to know the output impedance of the driver. That isn’t too serious a probl ...
... The voltage pattern we expect to see is a single, positive reflection from the far end of the trace which travels to the front of the trace and is completely absorbed in the source resistor and driver. That means that we have to know the output impedance of the driver. That isn’t too serious a probl ...
FAN3111 — Single 1A High-Speed, Low-Side Gate Driver
... Two input options are offered: FAN3111C has dual CMOS inputs with thresholds referenced to VDD for use with PWM controllers and other input-signal sources that operate from the same supply voltage as the driver. For use with low-voltage controllers and other input-signal sources that operate from a ...
... Two input options are offered: FAN3111C has dual CMOS inputs with thresholds referenced to VDD for use with PWM controllers and other input-signal sources that operate from the same supply voltage as the driver. For use with low-voltage controllers and other input-signal sources that operate from a ...
TOPIC 3.1: ELECTRIC CIRCUITS
... Notes to the Teacher Series circuits have only one path so all devices are connected end-to-end. The same current passes through each component in the circuit. Ammeters, used to measure current, must always be connected in series. Analogue meters (containing moving needles) must be used very careful ...
... Notes to the Teacher Series circuits have only one path so all devices are connected end-to-end. The same current passes through each component in the circuit. Ammeters, used to measure current, must always be connected in series. Analogue meters (containing moving needles) must be used very careful ...
LTC6101/LTC6101HV - High Voltage, High
... provides accurate monitoring of current through a userselected sense resistor. The sense voltage is amplified by a user-selected gain and level shifted from the positive power supply to a ground-referred output. The output signal is analog and may be used as is or processed with an output filter. Theo ...
... provides accurate monitoring of current through a userselected sense resistor. The sense voltage is amplified by a user-selected gain and level shifted from the positive power supply to a ground-referred output. The output signal is analog and may be used as is or processed with an output filter. Theo ...
LTC3827-1 - Low IQ, Dual, 2-Phase
... ESR of the input capacitor ESR are minimized by operating the two controller output stages out of phase. The 80μA no-load quiescent current extends operating life in battery-powered systems. OPTI-LOOP compensation allows the transient response to be optimized over a wide range of output capacitance ...
... ESR of the input capacitor ESR are minimized by operating the two controller output stages out of phase. The 80μA no-load quiescent current extends operating life in battery-powered systems. OPTI-LOOP compensation allows the transient response to be optimized over a wide range of output capacitance ...
Experiment E2 DETERMINATION OF SCALE
... zero resistance so that the current being measured is not altered. In real circuits the resistance of the ammeter should be much less than total resistance of the circuit. An ideal voltmeter has infinite resistance so that no current exists in it. In practice, this condition requires that the voltme ...
... zero resistance so that the current being measured is not altered. In real circuits the resistance of the ammeter should be much less than total resistance of the circuit. An ideal voltmeter has infinite resistance so that no current exists in it. In practice, this condition requires that the voltme ...
AN14 - Designs for High Performance Voltage-to-Frequency Converters
... The 100MHz full-scale frequency sets stringent restrictions on oscillator cycle time. At this frequency only 10ns is available for a complete ramp-and-reset sequence. The ultimate limitation on speed in the circuit is the time required to reset the varactor integrator. Figure 3 shows high speed deta ...
... The 100MHz full-scale frequency sets stringent restrictions on oscillator cycle time. At this frequency only 10ns is available for a complete ramp-and-reset sequence. The ultimate limitation on speed in the circuit is the time required to reset the varactor integrator. Figure 3 shows high speed deta ...