NEW: Read important application notes on page 4 ff.
... Our polycrystalline UV photodiodes are designed for photovoltaic operation. This operation mode is necessary to minimize the dark current of large area photo detectors which otherwise needs to be considered in the commonly used photoconductive mode. First we want to show the implementation of photov ...
... Our polycrystalline UV photodiodes are designed for photovoltaic operation. This operation mode is necessary to minimize the dark current of large area photo detectors which otherwise needs to be considered in the commonly used photoconductive mode. First we want to show the implementation of photov ...
LTC1151 - Dual ±15V Zero-Drift Operational Amplifier
... Gain-Bandwidth Product Supply Current per Amplifier ...
... Gain-Bandwidth Product Supply Current per Amplifier ...
ZXCT1051 Precision wide input range current monitor datasheet
... Description The ZXCT1051 is a wide input range current monitor, which operates over a range of input voltages from ground up to VCC-2V. As a result the ZXCT1051 can be used on the high or low side of the load. ...
... Description The ZXCT1051 is a wide input range current monitor, which operates over a range of input voltages from ground up to VCC-2V. As a result the ZXCT1051 can be used on the high or low side of the load. ...
ADA4665-2 数据手册DataSheet 下载
... The ADA4665 family features an extended operating range with supply voltages from 5V up to 16 V for low power operation with ISY of 500 μA typically and 900 μΑ over the extended industrial temperature. These devices offer 3MHz unity gain bandwidth. They also feature low input bias currents of 1pA an ...
... The ADA4665 family features an extended operating range with supply voltages from 5V up to 16 V for low power operation with ISY of 500 μA typically and 900 μΑ over the extended industrial temperature. These devices offer 3MHz unity gain bandwidth. They also feature low input bias currents of 1pA an ...
AC Circuits
... In a capacitor, during one-half of a cycle, energy is stored and during the other half the energy is returned to the circuit and no power losses occur in the capacitor In an inductor, the source does work against the back emf of the inductor and energy is stored in the inductor, but when the current ...
... In a capacitor, during one-half of a cycle, energy is stored and during the other half the energy is returned to the circuit and no power losses occur in the capacitor In an inductor, the source does work against the back emf of the inductor and energy is stored in the inductor, but when the current ...
Natural Response Series RLC Circuit
... current through the capacitor and the voltages and currents for the inductor and resistor can be calculated. ...
... current through the capacitor and the voltages and currents for the inductor and resistor can be calculated. ...
ohm`s law
... supply with the ammeter in series and the voltmeter in parallel with it. Do not connect an ammeter to the power supply without a resistor in series or you will destroy it! 2. Before the power supply is turned on, have your instructor inspect the circuit. Turn on the power supply and slowly increase ...
... supply with the ammeter in series and the voltmeter in parallel with it. Do not connect an ammeter to the power supply without a resistor in series or you will destroy it! 2. Before the power supply is turned on, have your instructor inspect the circuit. Turn on the power supply and slowly increase ...
Kirchhoff`s Rules The sum of
... The safest plugs are those with three prongs; they have a separate ground line. Here is an example of household wiring – colors can vary, though! Be sure you know which is the hot wire before you do anything. ...
... The safest plugs are those with three prongs; they have a separate ground line. Here is an example of household wiring – colors can vary, though! Be sure you know which is the hot wire before you do anything. ...
Programmable AC/DC Electronic load MODEL 63800 SERIES
... controls power factor by shifting the current relative to the input voltage to generate a displacement power factor. If the PF programmed is positive it will be a leading PF, negative programmed values result in a lagging PF. The CF & PF control is only used while in CC or CP modes with the operatin ...
... controls power factor by shifting the current relative to the input voltage to generate a displacement power factor. If the PF programmed is positive it will be a leading PF, negative programmed values result in a lagging PF. The CF & PF control is only used while in CC or CP modes with the operatin ...
Review 6 unlike poles cause the magnets to attract. like poles cause
... Lines of flux always leave the enter the pole. ...
... Lines of flux always leave the enter the pole. ...
Voltmeter, Ammeter and Resistance
... Conductors A conductor is a substance that carries electrical energy without much resistance. In other words, electrons move EASILY through a conductor and lose little energy. ? Copper is a good conductor There is a relationship between CURRENT and VOLTAGE DROP. It is called OHM’s LAW. OHM’s LAW The ...
... Conductors A conductor is a substance that carries electrical energy without much resistance. In other words, electrons move EASILY through a conductor and lose little energy. ? Copper is a good conductor There is a relationship between CURRENT and VOLTAGE DROP. It is called OHM’s LAW. OHM’s LAW The ...
ZNBG3113Q20TC Datasheet
... temperature range with the associated FETs and gate and drain capacitors in circuit. Capacitors CD and CG ensure that residual power supply and substrate generator noise is not allowed to affect other external circuits which may be sensitive to RF interference. They also serve to suppress any potent ...
... temperature range with the associated FETs and gate and drain capacitors in circuit. Capacitors CD and CG ensure that residual power supply and substrate generator noise is not allowed to affect other external circuits which may be sensitive to RF interference. They also serve to suppress any potent ...
EXP 4
... characterized as a trans-resistance type (the input current controls the output voltages). The OTA is a transconductance type device, which means that the input voltage controls the output current by means of the device transconductance g m . This classifies the OTA as a voltage-controlled current s ...
... characterized as a trans-resistance type (the input current controls the output voltages). The OTA is a transconductance type device, which means that the input voltage controls the output current by means of the device transconductance g m . This classifies the OTA as a voltage-controlled current s ...
Thevenin
... State Thévenin’s and Norton Theorems. Chapter 4.5 and 4.6 Fundamentals of Electric Circuits Demonstrate how Thévenin’s and Norton theorems ca ...
... State Thévenin’s and Norton Theorems. Chapter 4.5 and 4.6 Fundamentals of Electric Circuits Demonstrate how Thévenin’s and Norton theorems ca ...
Source-Free Parallel RLC Circuit
... frequency o to a. Coefficients are found by evaluating the equation and its first derivation at t = to- and t = ∞s. The voltage across the capacitor is equal to the initial condition when t < to ...
... frequency o to a. Coefficients are found by evaluating the equation and its first derivation at t = to- and t = ∞s. The voltage across the capacitor is equal to the initial condition when t < to ...
OP400 - Soemtron.org
... 48 V p-p when operated with ± 15 V supplies. The extended output swing is due to the opposite polarity of the outputs. Both outputs will swing 24 V p-p but with opposite polarity, for a total output voltage swing of 48 V p-p. The reference input can be used to set a common-mode output voltage over t ...
... 48 V p-p when operated with ± 15 V supplies. The extended output swing is due to the opposite polarity of the outputs. Both outputs will swing 24 V p-p but with opposite polarity, for a total output voltage swing of 48 V p-p. The reference input can be used to set a common-mode output voltage over t ...
circular powerpoint
... • The size of the current flowing in a circuit depends on the voltage of the cell and the resistance of the circuit. • This means that the size of the resistance can be found if we know the current and voltage in a circuit ...
... • The size of the current flowing in a circuit depends on the voltage of the cell and the resistance of the circuit. • This means that the size of the resistance can be found if we know the current and voltage in a circuit ...
Parallel Circuits
... d. For the student to determine, for a parallel circuit, the effects of changing a single resistor value, upon total resistance, total current and the distribution of branch ...
... d. For the student to determine, for a parallel circuit, the effects of changing a single resistor value, upon total resistance, total current and the distribution of branch ...
Ohm`s Law
... If the resistor in Example 1 was changed to a 5kW resistor and we wanted the current flowing through the resistor to remain equal to 2mA, then the magnitude of the voltage source would have to increase to: ...
... If the resistor in Example 1 was changed to a 5kW resistor and we wanted the current flowing through the resistor to remain equal to 2mA, then the magnitude of the voltage source would have to increase to: ...
MPP_Orbit_07052008
... On 14/04/2008, AB/PO can not power this circuit, they have a fault on the PC. On 16/04/2008, EE811 (cold voltage tap) is found open, directly from the feed through pin coming from the cover flange => NC 908215 opened. ...
... On 14/04/2008, AB/PO can not power this circuit, they have a fault on the PC. On 16/04/2008, EE811 (cold voltage tap) is found open, directly from the feed through pin coming from the cover flange => NC 908215 opened. ...
Josephson voltage standard
A Josephson voltage standard is a complex system that uses a superconductive integrated circuit chip operating at 4 K to generate stable voltages that depend only on an applied frequency and fundamental constants. It is an intrinsic standard in the sense that it does not depend on any physical artifact. It is the most accurate method to generate or measure voltage and, by international agreement, is the basis for voltage standards around the World.