BDTIC www.BDTIC.com/infineon Application Note No. 058
... Third-order distortion increases much more rapidly than described by relation (6) (see Figure 3). Above this power, the AC-modulation of the carrier concentration leads to a depletion of the intrinsic zone in the negative halfcycle and thus to an even stronger non-linear i-v-characteristic. In this ...
... Third-order distortion increases much more rapidly than described by relation (6) (see Figure 3). Above this power, the AC-modulation of the carrier concentration leads to a depletion of the intrinsic zone in the negative halfcycle and thus to an even stronger non-linear i-v-characteristic. In this ...
LM 7805 VOLTAGE REGULATOR
... We use the experimental assembly in Fig. 6. The input voltage is applied from a regulated dc power supply or a signal generator. We measure the dc voltages with a digital multimeter, and we use the dual channel oscilloscope to visualize the voltages in the circuit. ...
... We use the experimental assembly in Fig. 6. The input voltage is applied from a regulated dc power supply or a signal generator. We measure the dc voltages with a digital multimeter, and we use the dual channel oscilloscope to visualize the voltages in the circuit. ...
Amateur Extra Licensing Class
... The most appropriate use of an op-amp RC active filter is as an audio receiving filter. E7G07… ...
... The most appropriate use of an op-amp RC active filter is as an audio receiving filter. E7G07… ...
AD8682
... The circuit shown in Figure 34 can be used to accurately program the Q factor; the cutoff frequency, fC; and the gain of a 2-pole state variable filter. The AD8684 has been used in this design because of its high bandwidth, low power, and low noise. This circuit takes only three packages to build be ...
... The circuit shown in Figure 34 can be used to accurately program the Q factor; the cutoff frequency, fC; and the gain of a 2-pole state variable filter. The AD8684 has been used in this design because of its high bandwidth, low power, and low noise. This circuit takes only three packages to build be ...
ALTV1224C220 AC/DC Dual Output Power Supply
... 6. When batteries are being used, the DC output voltage must be adjusted by turning the trim pot VR1 (Fig. 1) clockwise to increase the output voltage to 13.7 VDC. Connect battery to the terminals marked [- BAT +] (Fig. 1) on the unit (battery leads included). CAUTION: Determine the maximum o ...
... 6. When batteries are being used, the DC output voltage must be adjusted by turning the trim pot VR1 (Fig. 1) clockwise to increase the output voltage to 13.7 VDC. Connect battery to the terminals marked [- BAT +] (Fig. 1) on the unit (battery leads included). CAUTION: Determine the maximum o ...
Evaluates: MAX1637 MAX1637 Evaluation Kit General Description ____________________________Features
... The MAX1637 evaluation kit (EV kit) contains two separate switching-regulator circuits. The first circuit converts high-voltage battery power into a low-voltage supply rail for next-generation notebook CPU cores. Its output is fixed at 1.7V and delivers up to 7A output current with greater than 87% ...
... The MAX1637 evaluation kit (EV kit) contains two separate switching-regulator circuits. The first circuit converts high-voltage battery power into a low-voltage supply rail for next-generation notebook CPU cores. Its output is fixed at 1.7V and delivers up to 7A output current with greater than 87% ...
Opto-isolated High Voltage Meter (OHVM) - hot
... headroom (2V recommended) to drive to full value. Therefore 10.7+2 = 12.7V +/as a minimum powering voltage (I’m using +/-15 for both LV and ISO-HV side powering). This also means at 20.4kV peak, the output voltage to an analog meter would be 20.4/50*10 or ~4.00V. The Vmeter output and the full-scale ...
... headroom (2V recommended) to drive to full value. Therefore 10.7+2 = 12.7V +/as a minimum powering voltage (I’m using +/-15 for both LV and ISO-HV side powering). This also means at 20.4kV peak, the output voltage to an analog meter would be 20.4/50*10 or ~4.00V. The Vmeter output and the full-scale ...
9.Diodes Notes - WordPress.com
... Generally, it is the DC part of a rectified signal that is of interest, and the un-welcomed AC component is described as ripple. It is desirable to move the ripple to high frequencies where it is easier to remove by a low-pass filter. "When diodes are used in small-signal applications - a few volts ...
... Generally, it is the DC part of a rectified signal that is of interest, and the un-welcomed AC component is described as ripple. It is desirable to move the ripple to high frequencies where it is easier to remove by a low-pass filter. "When diodes are used in small-signal applications - a few volts ...
Circuits
... An S-R latch stores a single binary digit (1 or 0) There are several ways an S-R latch circuit can be designed using various kinds of gates Figure 4.12 An S-R latch ...
... An S-R latch stores a single binary digit (1 or 0) There are several ways an S-R latch circuit can be designed using various kinds of gates Figure 4.12 An S-R latch ...
Using Complex Numbers in Circuit Analysis and Review
... Voltage and current are always real, observable quantities. In a linear A/C circuit with a sinusoidal stimulus, they will always have a form like V (t ) V0 cos( t ) . The algebraic complexities come in when we introduce capacitors and inductors, which produce 90 changes in phase. Adding si ...
... Voltage and current are always real, observable quantities. In a linear A/C circuit with a sinusoidal stimulus, they will always have a form like V (t ) V0 cos( t ) . The algebraic complexities come in when we introduce capacitors and inductors, which produce 90 changes in phase. Adding si ...
Orcad Pspice Tutorial
... 7) Now go to “PSpice” on the top tool bar and select “New simulation analysis”. From there just name it and click “create”. Then select “Dc Sweep” from the drop down box and select “Primary Sweep”. 8) At this time the name of the sweep variable must be specified. In this case the voltage source is t ...
... 7) Now go to “PSpice” on the top tool bar and select “New simulation analysis”. From there just name it and click “create”. Then select “Dc Sweep” from the drop down box and select “Primary Sweep”. 8) At this time the name of the sweep variable must be specified. In this case the voltage source is t ...
Asymmetrical Interrupting Current Rating of Medium-Voltage
... revision of the circuit breaker standards utilized the “S factor” as a multiplying factor that defined the total current a breaker was rated to interrupt at contact part. The newest revision of C37.04 replaced the S factor with the % dc as the method of evaluating the asymmetrical current offset. Th ...
... revision of the circuit breaker standards utilized the “S factor” as a multiplying factor that defined the total current a breaker was rated to interrupt at contact part. The newest revision of C37.04 replaced the S factor with the % dc as the method of evaluating the asymmetrical current offset. Th ...
Chapter 22-23 Assignment Solutions
... overheating. A fuse is simply a short length of wire that will melt from the heating effect if the current exceeds a certain maximum. This opens the circuit and stops the current from flowing. 44) What is a short circuit? Why is a short circuit dangerous? (23.2) A short circuit is a circuit that has ...
... overheating. A fuse is simply a short length of wire that will melt from the heating effect if the current exceeds a certain maximum. This opens the circuit and stops the current from flowing. 44) What is a short circuit? Why is a short circuit dangerous? (23.2) A short circuit is a circuit that has ...