TPS22918-Q1 5.5-V, 2-A, 52-mΩ On-Resistance
... Maximum pulsed switch current, pulse < 300 µs, 2% duty cycle ...
... Maximum pulsed switch current, pulse < 300 µs, 2% duty cycle ...
Igniter Continuity Tests (Rev2)
... Four Estes igniters were selected at random and tested. The load curves were plotted and the associated chart can be found in Figure 2. The average flash resistance of the four tested igniters was 0.711 Ω, and the average flash current was found to be 1.059 A. Of interest is the variance in the flas ...
... Four Estes igniters were selected at random and tested. The load curves were plotted and the associated chart can be found in Figure 2. The average flash resistance of the four tested igniters was 0.711 Ω, and the average flash current was found to be 1.059 A. Of interest is the variance in the flas ...
Analyse interconnected systems
... phase has a different impedance and a widely different phase angle. You will not be examined with this type of problem, but it will help you to understand what the effect of an unbalanced load is. Work through the example step by step. The end result provides a good reason why threephase loads shoul ...
... phase has a different impedance and a widely different phase angle. You will not be examined with this type of problem, but it will help you to understand what the effect of an unbalanced load is. Work through the example step by step. The end result provides a good reason why threephase loads shoul ...
OpenModelica for Analog IC Design Examiner
... Also we have included length and width as parameters in most of the components, what is not included in SPICELib. Another difference is the way voltage and current sources are edited which we have tried to do it easier than in SPICELib. However we have decided to keep the model used for NMOS and PMO ...
... Also we have included length and width as parameters in most of the components, what is not included in SPICELib. Another difference is the way voltage and current sources are edited which we have tried to do it easier than in SPICELib. However we have decided to keep the model used for NMOS and PMO ...
A Study on Super Threshold FinFET Current Mode Logic Circuits
... voltage than the threshold voltage of NMOS transistors, resulting in that a large power source voltage must be used in the MCML circuits. Compared with bulk MOS transistors, FinFET transistors operating on super-threshold regions (medium strong inversion regions) provide stronger turn-on current. Th ...
... voltage than the threshold voltage of NMOS transistors, resulting in that a large power source voltage must be used in the MCML circuits. Compared with bulk MOS transistors, FinFET transistors operating on super-threshold regions (medium strong inversion regions) provide stronger turn-on current. Th ...
Power Supply with Programmable Output
... This design is intended to supply position encoders with different input voltage requirements, as outlined in Table 1. Thanks to the programmable output voltage from 5 to 15 V, the design does not need to provide multiple power supplies and load switches. This design offers additional safety feature ...
... This design is intended to supply position encoders with different input voltage requirements, as outlined in Table 1. Thanks to the programmable output voltage from 5 to 15 V, the design does not need to provide multiple power supplies and load switches. This design offers additional safety feature ...
Institutionen för systemteknik High-Speed Hybrid Current mode Sigma-Delta Modulator
... provides high accuracy but occupies a larger area. Unlike the SC integrator, the SI integrator offers low input impedance and parasitic capacitance. This makes the SI integrator suitable for low supply voltage and high frequency applications. From a detailed literature study on the multi-bit sigma d ...
... provides high accuracy but occupies a larger area. Unlike the SC integrator, the SI integrator offers low input impedance and parasitic capacitance. This makes the SI integrator suitable for low supply voltage and high frequency applications. From a detailed literature study on the multi-bit sigma d ...
Parallel Circuits
... For example, in Fig. 5–5b, the total current in the line from point G to point A is 3 A. The total current at branch point A subdivides into its component branch currents for each of the branch resistances. Through the path of R1 from A to B the current is 1 A. The other branch path ACDB through R2 ...
... For example, in Fig. 5–5b, the total current in the line from point G to point A is 3 A. The total current at branch point A subdivides into its component branch currents for each of the branch resistances. Through the path of R1 from A to B the current is 1 A. The other branch path ACDB through R2 ...
3 Assignments using Workboard 12-200-B
... 3.1.9 Practical Considerations and Applications Both the 1N4007 and the power diode are made of Silicon and the forward conduction voltage of about 0.6 V is typical of silicon junctions. Also typical of silicon diodes is the very small reverse current. The power diode passes a greater reverse curren ...
... 3.1.9 Practical Considerations and Applications Both the 1N4007 and the power diode are made of Silicon and the forward conduction voltage of about 0.6 V is typical of silicon junctions. Also typical of silicon diodes is the very small reverse current. The power diode passes a greater reverse curren ...
BM1Q001FJ
... VCC UVLO function is the protection for VCC (pin) voltage is low. VCC OVP function is the protection for VCC (6pin) voltage is high. They are for preventing MOSFET from destroying for switching in VCC voltage low or high. VCC charge function is stable for output voltage in VCC pin voltage low, becau ...
... VCC UVLO function is the protection for VCC (pin) voltage is low. VCC OVP function is the protection for VCC (6pin) voltage is high. They are for preventing MOSFET from destroying for switching in VCC voltage low or high. VCC charge function is stable for output voltage in VCC pin voltage low, becau ...
Thevenin & Norton Equivalent
... When working with real electric sources, such as typical household power supplies, the actual circuit behind the terminals is unknown It should be unknown! Unreasonable to expect users to know what exactly is behind the electric terminal! We only know 1.) that there is a source of constant vol ...
... When working with real electric sources, such as typical household power supplies, the actual circuit behind the terminals is unknown It should be unknown! Unreasonable to expect users to know what exactly is behind the electric terminal! We only know 1.) that there is a source of constant vol ...
Guide to Fuse Selection
... and vice versa. > Sufficient airflow and ventilation should be considered when designing fuses in the application. > Schurter fuseholder and fused module datasheets have power acceptance ratings which show how much heat dissipation it can withstand safely. > If a fuse dissipates more heat than the f ...
... and vice versa. > Sufficient airflow and ventilation should be considered when designing fuses in the application. > Schurter fuseholder and fused module datasheets have power acceptance ratings which show how much heat dissipation it can withstand safely. > If a fuse dissipates more heat than the f ...
TRIAC
TRIAC, from triode for alternating current, is a genericized tradename for an electronic component that can conduct current in either direction when it is triggered (turned on), and is formally called a bidirectional triode thyristor or bilateral triode thyristor.TRIACs are a subset of thyristors and are closely related to silicon controlled rectifiers (SCR). However, unlike SCRs, which are unidirectional devices (that is, they can conduct current only in one direction), TRIACs are bidirectional and so allow current in either direction. Another difference from SCRs is that TRIAC current can be enabled by either a positive or negative current applied to its gate electrode, whereas SCRs can be triggered only by positive current into the gate. To create a triggering current, a positive or negative voltage has to be applied to the gate with respect to the MT1 terminal (otherwise known as A1).Once triggered, the device continues to conduct until the current drops below a certain threshold called the holding current.The bidirectionality makes TRIACs very convenient switches for alternating-current (AC) circuits, also allowing them to control very large power flows with milliampere-scale gate currents. In addition, applying a trigger pulse at a controlled phase angle in an AC cycle allows control of the percentage of current that flows through the TRIAC to the load (phase control), which is commonly used, for example, in controlling the speed of low-power induction motors, in dimming lamps, and in controlling AC heating resistors.