Voltage Multipliers.pdf
... Click here to order Electronic Components Online VOLTAGE MULTIPLIERS You may already know how a transformer functions to increase or decrease voltages. You may also have learned that a transformer secondary may provide one or several ac voltage outputs which may be greater or less than the input vol ...
... Click here to order Electronic Components Online VOLTAGE MULTIPLIERS You may already know how a transformer functions to increase or decrease voltages. You may also have learned that a transformer secondary may provide one or several ac voltage outputs which may be greater or less than the input vol ...
LTC3201 - 100mA Ultralow Noise Charge Pump LED Supply with
... maintains constant LED output current by monitoring the voltage at the FB pin. The device has a novel internal filter that, along with an external 0.22µF capacitor, significantly reduces input current ripple. An internal 7-state DAC allows the user to lower the regulation voltage at the FB pin, thus ...
... maintains constant LED output current by monitoring the voltage at the FB pin. The device has a novel internal filter that, along with an external 0.22µF capacitor, significantly reduces input current ripple. An internal 7-state DAC allows the user to lower the regulation voltage at the FB pin, thus ...
HMC346AMS8GE (v01.0117) - Preliminary Data
... The HMC346AMS8GE is absorptive Voltage Variable Attenuators (VVA) in 8 lead surface-mount packages operating from DC - 8 GHz. It features an on-chip reference attenuator for use with an external op-amp to provide simple single voltage attenuation control, 0 to -5V. The device is ideal in designs whe ...
... The HMC346AMS8GE is absorptive Voltage Variable Attenuators (VVA) in 8 lead surface-mount packages operating from DC - 8 GHz. It features an on-chip reference attenuator for use with an external op-amp to provide simple single voltage attenuation control, 0 to -5V. The device is ideal in designs whe ...
Heating effect of el. currents (PPT)
... same way as the resistors in the external circuit. This INTERNAL RESISTANCE (r ) has an important effect on the total resistance and current in the circuit. When electrons flow around a circuit, they gain potential energy in the cell and then lose the energy in the resistors and in the cell as well. ...
... same way as the resistors in the external circuit. This INTERNAL RESISTANCE (r ) has an important effect on the total resistance and current in the circuit. When electrons flow around a circuit, they gain potential energy in the cell and then lose the energy in the resistors and in the cell as well. ...
MAX9150 - Maxim Part Number Search
... The MAX9150 outputs use a current-steering configuration to generate a 5mA to 9mA output current. This current-steering approach induces less ground bounce and no shoot-through current, enhancing noise margin and system speed performance. The driver outputs are short-circuit current limited, and are ...
... The MAX9150 outputs use a current-steering configuration to generate a 5mA to 9mA output current. This current-steering approach induces less ground bounce and no shoot-through current, enhancing noise margin and system speed performance. The driver outputs are short-circuit current limited, and are ...
Very wide input voltage range 6 W SMPS for metering
... as well. It is very important to provide a base current to the device that is correlated with the collector current in order to avoid the over saturation of the device at low load and to optimize its performance in terms of power dissipation. This implies the use of a driving network which allows ge ...
... as well. It is very important to provide a base current to the device that is correlated with the collector current in order to avoid the over saturation of the device at low load and to optimize its performance in terms of power dissipation. This implies the use of a driving network which allows ge ...
AD8671-4, 1-2-4, 75uV 12nA, 10MHz, 2.8nVhz.pdf
... load of 1 nF. If heavier loads are used in low closed-loop gain or unity-gain configurations, it is recommended to use external compensation as shown in the circuit in Figure 37. This technique reduces the overshoot and prevents the op amp from oscillation. The trade-off of this circuit is a reducti ...
... load of 1 nF. If heavier loads are used in low closed-loop gain or unity-gain configurations, it is recommended to use external compensation as shown in the circuit in Figure 37. This technique reduces the overshoot and prevents the op amp from oscillation. The trade-off of this circuit is a reducti ...
Electric review
... Recall from an earlier chapter that the battery has a potential difference, or voltage, across its ends. One end of the battery is positive, and the other end is negative. We say that the movement of positive charge from the positive end of the battery through the circuit to the negative end of the ...
... Recall from an earlier chapter that the battery has a potential difference, or voltage, across its ends. One end of the battery is positive, and the other end is negative. We say that the movement of positive charge from the positive end of the battery through the circuit to the negative end of the ...
4 Electricity and Magnetism Chapter 2 Electric Circuit 2 Electric
... through both the resistor and the voltmeter. (1A) The resistance of the resistor and the internal resistance of the voltmeter are comparable, so the measured current is much larger than the actual one, leading to (Correct connection of ammeter.) ...
... through both the resistor and the voltmeter. (1A) The resistance of the resistor and the internal resistance of the voltmeter are comparable, so the measured current is much larger than the actual one, leading to (Correct connection of ammeter.) ...
Learning Outcome 14: Identify and describe LRC circuits. Analyze and
... alternating current. Generally, students will begin their learning with AC measurements, then the use of AC measuring tools, and progressing into analyzing & troubleshooting various components commonly used in filter circuits, time constant operations, and resonant circuits. The course of study also ...
... alternating current. Generally, students will begin their learning with AC measurements, then the use of AC measuring tools, and progressing into analyzing & troubleshooting various components commonly used in filter circuits, time constant operations, and resonant circuits. The course of study also ...
Lesson One
... anode when the ac diode voltage is positive and away from the anode when the ac voltage is negative. The ac voltage and current are said to be in phase since when one waveform is positive the other is positive. If they were out of phase they would have opposite polarities at the same time. The conce ...
... anode when the ac diode voltage is positive and away from the anode when the ac voltage is negative. The ac voltage and current are said to be in phase since when one waveform is positive the other is positive. If they were out of phase they would have opposite polarities at the same time. The conce ...
MIC2860-D - Microchip
... capacitor of 1µF. Low ESR ceramic capacitors provide optimal performance at a minimum amount of space. Additional high-frequency capacitors, such as small valued NPO dielectric type capacitors, help filter out high frequency noise and are good practice in any noise sensitive circuit. X5R or X7R diel ...
... capacitor of 1µF. Low ESR ceramic capacitors provide optimal performance at a minimum amount of space. Additional high-frequency capacitors, such as small valued NPO dielectric type capacitors, help filter out high frequency noise and are good practice in any noise sensitive circuit. X5R or X7R diel ...
Ohm`s Law 1 Object 2 Apparatus 3 Theory
... Figure 6: The schematic now with Req in place for the three parallel resistors. B) in series on both the top path and the bottom path. We can calculate the equivalent resistance for the top (Req = R1 + R1 + 11 Ω = 31 Ω) and the bottom (Req = 7.7 Ω + R1 + R2 = 37.7 Ω) and replace the series resistanc ...
... Figure 6: The schematic now with Req in place for the three parallel resistors. B) in series on both the top path and the bottom path. We can calculate the equivalent resistance for the top (Req = R1 + R1 + 11 Ω = 31 Ω) and the bottom (Req = 7.7 Ω + R1 + R2 = 37.7 Ω) and replace the series resistanc ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.