LT8613 – 42V, 6A Synchronous Step-Down
... The internal power drivers and control circuits are powered from this voltage. INTVCC maximum output current is 20mA. Do not load the INTVCC pin with external circuitry. INTVCC current will be supplied from BIAS if VBIAS > 3.1V, otherwise current will be drawn from VIN. Voltage on INTVCC will vary b ...
... The internal power drivers and control circuits are powered from this voltage. INTVCC maximum output current is 20mA. Do not load the INTVCC pin with external circuitry. INTVCC current will be supplied from BIAS if VBIAS > 3.1V, otherwise current will be drawn from VIN. Voltage on INTVCC will vary b ...
Impacts of Various Representations of Core Saturation Curve
... The two-term polynomial-based saturation curve is deduced based on a function with a linear term and a term with the order of n. The reported ferroresonance studies recommend lower order of the polynomial, e.g. 5th or 7th order, for the representation of voltage transformer (VT) core [1] and higher ...
... The two-term polynomial-based saturation curve is deduced based on a function with a linear term and a term with the order of n. The reported ferroresonance studies recommend lower order of the polynomial, e.g. 5th or 7th order, for the representation of voltage transformer (VT) core [1] and higher ...
similarities to that of an electromagnetic guitar pickup
... The pickup coil consists of two distributed components that are rather easy to measure with a fairly good degree of accuracy (about +/- 1%) and these are the internal resistance (R Int.) and the internal Inductance (L Int.), and these can be shown as lumped components in the Thevenin Equivalent cir ...
... The pickup coil consists of two distributed components that are rather easy to measure with a fairly good degree of accuracy (about +/- 1%) and these are the internal resistance (R Int.) and the internal Inductance (L Int.), and these can be shown as lumped components in the Thevenin Equivalent cir ...
Magnetism
... atoms of the magnetic material. This effect is called hysteresis. The word hysteresis means "to lag behind," which describes how the change in B lags behind the change in H. We can now reverse the current through the coil [see part (e) of the figure]. Since the current is flowing through the coil in ...
... atoms of the magnetic material. This effect is called hysteresis. The word hysteresis means "to lag behind," which describes how the change in B lags behind the change in H. We can now reverse the current through the coil [see part (e) of the figure]. Since the current is flowing through the coil in ...
Diodes
... • The resistance depends on the amount of current (ID) in the diode. • The voltage across the diode is fairly constant (26mV for 25C). • rB ranges from a typical 0.1 for high power devices to 2 for low power, general purpose diodes. In some cases rB can be ignored. Reverse Bias region: ...
... • The resistance depends on the amount of current (ID) in the diode. • The voltage across the diode is fairly constant (26mV for 25C). • rB ranges from a typical 0.1 for high power devices to 2 for low power, general purpose diodes. In some cases rB can be ignored. Reverse Bias region: ...
Schneider Electric Surge Protection Devices
... against surge-related damage and are suitable for use in Category C locations, as shown in the figure below. The overvoltage risk at these locations is defined in ANSI/IEEE Standard C62.41-1991 as a 20,000 Vac potential and a 10,000 A current. However, secondary surge arresters may not protect solid ...
... against surge-related damage and are suitable for use in Category C locations, as shown in the figure below. The overvoltage risk at these locations is defined in ANSI/IEEE Standard C62.41-1991 as a 20,000 Vac potential and a 10,000 A current. However, secondary surge arresters may not protect solid ...
MAX17582 Dual-Phase, Quick-PWM Controller for IMVP-6.5 CPU Core Power Supplies General Description
... VCC, VDD, V3P3 to GND ...........................................-0.3V to +6V D0–D6 to GND..........................................................-0.3V to +6V PGDIN, DPRSLPVR, PSI to GND..............................-0.3V to +6V SLOW to GND ......................................................... ...
... VCC, VDD, V3P3 to GND ...........................................-0.3V to +6V D0–D6 to GND..........................................................-0.3V to +6V PGDIN, DPRSLPVR, PSI to GND..............................-0.3V to +6V SLOW to GND ......................................................... ...
Energy Saving of Conservation Voltage Reduction Based on Load
... than 5 miles long and long feeders are more than 5 miles. Short feeders consist of 60% constant power 5 miles long and long feeders are more than 5 miles. Short feeders consist of 60% constant power (40% constant impedance) during the summer, while during the winter the same feeders behave with (40% ...
... than 5 miles long and long feeders are more than 5 miles. Short feeders consist of 60% constant power 5 miles long and long feeders are more than 5 miles. Short feeders consist of 60% constant power (40% constant impedance) during the summer, while during the winter the same feeders behave with (40% ...
MAX1365/MAX1367 Stand-Alone, 4.5-/3.5
... Note 1: Integral nonlinearity is the deviation of the analog value at any code from its theoretical value after nulling the gain error and offset error. Note 2: Offset calibrated. Note 3: Offset nulled. Note 4: Drift error is eliminated by recalibration at the new temperature. Note 5: The input volt ...
... Note 1: Integral nonlinearity is the deviation of the analog value at any code from its theoretical value after nulling the gain error and offset error. Note 2: Offset calibrated. Note 3: Offset nulled. Note 4: Drift error is eliminated by recalibration at the new temperature. Note 5: The input volt ...
Synchro and Resolver Engineering Handbook
... θ is the rotor position angle. VS1-3 is the voltage from the S1 terminal to the S3 terminal. All other voltages are similarly defined throughout this discussion. These stator voltages are either approximately in time phase or 180° out of time-phase with the applied voltage. The amount by which the o ...
... θ is the rotor position angle. VS1-3 is the voltage from the S1 terminal to the S3 terminal. All other voltages are similarly defined throughout this discussion. These stator voltages are either approximately in time phase or 180° out of time-phase with the applied voltage. The amount by which the o ...
Working With LED Display Drivers
... source up to 3 milliamps, so the maximum current through each LED is 30 milliamps, set by R1, b u t the LED current doesn't normally get that high. The nominal value of 1.25 volts DC can also be varied between 1.20 and 1.32 volts DC, or its value can be externally programmed to produce up to 12 volt ...
... source up to 3 milliamps, so the maximum current through each LED is 30 milliamps, set by R1, b u t the LED current doesn't normally get that high. The nominal value of 1.25 volts DC can also be varied between 1.20 and 1.32 volts DC, or its value can be externally programmed to produce up to 12 volt ...
BH1603FVC
... On the inspection with the set PCB, if a capacitor is connected to a low-impedance IC terminal, the IC can suffer stress. Therefore, be sure to discharge from the set PCB by each process. Furthermore, in order to mount or dismount the set PCB to/from the jig for the inspection process, be sure to tu ...
... On the inspection with the set PCB, if a capacitor is connected to a low-impedance IC terminal, the IC can suffer stress. Therefore, be sure to discharge from the set PCB by each process. Furthermore, in order to mount or dismount the set PCB to/from the jig for the inspection process, be sure to tu ...
Luttinger liquid theory as a model of the gigahertz electrical
... in a multiwalled nanotube. In both of these discussions, the distributed inductance and capacitance per unit length form a transmission line, which is again an electrical engineer’s description of a 1-D plasmon. It is the goal of this manuscript to describe how we can excite 1-D plasmons directly wi ...
... in a multiwalled nanotube. In both of these discussions, the distributed inductance and capacitance per unit length form a transmission line, which is again an electrical engineer’s description of a 1-D plasmon. It is the goal of this manuscript to describe how we can excite 1-D plasmons directly wi ...
IR3550 - Infineon
... 2. VIN=12V, VOUT=1.2V, ƒSW = 300kHz, L=210nH (0.2mΩ), VCC=6.8V, CIN=47uF x 4, COUT =470uF x3, 400LFM airflow, no heat sink, 25°C ambient temperature, and 8-layer PCB of 3.7” (L) x 2.6” (W). PWM controller loss and inductor loss are not included. 3. VIN=12V, VOUT=1.2V, ƒSW = 400kHz, L=150nH (0.29mΩ), ...
... 2. VIN=12V, VOUT=1.2V, ƒSW = 300kHz, L=210nH (0.2mΩ), VCC=6.8V, CIN=47uF x 4, COUT =470uF x3, 400LFM airflow, no heat sink, 25°C ambient temperature, and 8-layer PCB of 3.7” (L) x 2.6” (W). PWM controller loss and inductor loss are not included. 3. VIN=12V, VOUT=1.2V, ƒSW = 400kHz, L=150nH (0.29mΩ), ...
NCV7356 - CAN Transceiver, Single Wire
... or a bus high voltage dominant state depending on the transceiver mode state (high bus voltage) If the TxD pin is driven to a logic low state while the sleep mode (Mode 0 = 0 and Mode 1 = 0) is activated, the transceiver can not drive the CANH pin to the dominant state. The transceiver provides an i ...
... or a bus high voltage dominant state depending on the transceiver mode state (high bus voltage) If the TxD pin is driven to a logic low state while the sleep mode (Mode 0 = 0 and Mode 1 = 0) is activated, the transceiver can not drive the CANH pin to the dominant state. The transceiver provides an i ...
EUP9261 LI-ION/POLYMER ONE CELL PROTECTOR
... connected reversely since the current flows from the charger to the IC. Insert a resistor of 300Ω or higher as R1 for ESD protection. *4 If a capacitor of less than 0.022µF is installed as C1,DO may oscillate when load short-circuiting is detected. Be sure to install a capacitor of 0.022µF or higher ...
... connected reversely since the current flows from the charger to the IC. Insert a resistor of 300Ω or higher as R1 for ESD protection. *4 If a capacitor of less than 0.022µF is installed as C1,DO may oscillate when load short-circuiting is detected. Be sure to install a capacitor of 0.022µF or higher ...
Performance of Transmission Lines
... A transmission line has *three constants R, L and C distributed uniformly along the whole length of the line. The resistance and inductance form the series impedance. The capacitance existing between conductors for 1-phase line or from a conductor to neutral for a 3-phase line forms a shunt path thr ...
... A transmission line has *three constants R, L and C distributed uniformly along the whole length of the line. The resistance and inductance form the series impedance. The capacitance existing between conductors for 1-phase line or from a conductor to neutral for a 3-phase line forms a shunt path thr ...