Troubleshooting Techniques
... input voltage will never exceed the output, the device will remain in one of its saturated states. ...
... input voltage will never exceed the output, the device will remain in one of its saturated states. ...
HMC855LC5 数据资料DataSheet下载
... The HMC855LC5 is a 1:4 demultiplexer designed for data deserialization up to 28 Gbps. The device uses both rising and falling edges of the half-rate clock to sample the input data in sequence, D0-D3 and latches the data onto the differential outputs. A quarter-rate clock output generated on chip can ...
... The HMC855LC5 is a 1:4 demultiplexer designed for data deserialization up to 28 Gbps. The device uses both rising and falling edges of the half-rate clock to sample the input data in sequence, D0-D3 and latches the data onto the differential outputs. A quarter-rate clock output generated on chip can ...
introduction
... systems. FACTS solutions enable power grid owners to increase existing transmission network capacity while maintaining or improving the operating margins necessary for grid stability. Supply of reliable, high-quality electrical energy at a reasonable cost is at the heart of the nation's economy. The ...
... systems. FACTS solutions enable power grid owners to increase existing transmission network capacity while maintaining or improving the operating margins necessary for grid stability. Supply of reliable, high-quality electrical energy at a reasonable cost is at the heart of the nation's economy. The ...
Advantages in Application-Design by using Direct-Light-Triggered Thyristors J. Przybilla , R. Keller
... plasma region, recombining there at a certain rate. When large regions of the thyristor have completely recovered and an uncontrolled forward voltage pulse appears, the remaining small region with excess carriers in the main cathode area may turn on. This may result in current filamentation, self-he ...
... plasma region, recombining there at a certain rate. When large regions of the thyristor have completely recovered and an uncontrolled forward voltage pulse appears, the remaining small region with excess carriers in the main cathode area may turn on. This may result in current filamentation, self-he ...
Datasheet - GaN Systems
... The recommended gate drive voltage for optimal RDS(on) performance and long life is +5 to 6 V. The absolute maximum gate-to-source voltage rating is +7.0 V maximum DC. The gate drive can survive transients up to +10 V and – 20 V for pulses up to 1 µs and duty cycle, D, < 0.1. These specifications al ...
... The recommended gate drive voltage for optimal RDS(on) performance and long life is +5 to 6 V. The absolute maximum gate-to-source voltage rating is +7.0 V maximum DC. The gate drive can survive transients up to +10 V and – 20 V for pulses up to 1 µs and duty cycle, D, < 0.1. These specifications al ...
PN junction, diodes, transistors, circuits
... A reverse biased PN junction conducts almost no current. The applied reverse bias adds to the built-in potential barrier, impeding current flow. It also increases the thickness of the non-conducting depletion region. Reverse biased PN junctions show a temperature dependent reverse leakage current. T ...
... A reverse biased PN junction conducts almost no current. The applied reverse bias adds to the built-in potential barrier, impeding current flow. It also increases the thickness of the non-conducting depletion region. Reverse biased PN junctions show a temperature dependent reverse leakage current. T ...
THE CURRENT STATUS OF POWER SEMICONDUCTORS Jan
... At the beginning of 1980s´, the on-state resistance of silicon unipolar devices has been found too high above the breakdown voltage of 600 V. This stimulated the invention of a MOS-controlled power device with a carrier injection from the side opposite to that of the MOS control. The original design ...
... At the beginning of 1980s´, the on-state resistance of silicon unipolar devices has been found too high above the breakdown voltage of 600 V. This stimulated the invention of a MOS-controlled power device with a carrier injection from the side opposite to that of the MOS control. The original design ...
768A - Data Device Corporation
... DAC Current Output. Full-scale current when all data bits are 1. Noise Reduction Node. add capacitor for noise reduction. Reference Output Voltage. Nominal value is 2.5V. No Connection. Reserved for internal use. Reference Ground. Reference Input Current. Nominal is 5 mA. DAC full-scale is 4X this c ...
... DAC Current Output. Full-scale current when all data bits are 1. Noise Reduction Node. add capacitor for noise reduction. Reference Output Voltage. Nominal value is 2.5V. No Connection. Reserved for internal use. Reference Ground. Reference Input Current. Nominal is 5 mA. DAC full-scale is 4X this c ...
OKI-78SR Series
... operate with no additional external capacitance if these conditions are met. For best performance, we recommend installing a low-ESR capacitor immediately adjacent to the converter’s input terminals. The capacitor should be a ceramic type such as the Murata GRM32 series or a polymer type. Initial su ...
... operate with no additional external capacitance if these conditions are met. For best performance, we recommend installing a low-ESR capacitor immediately adjacent to the converter’s input terminals. The capacitor should be a ceramic type such as the Murata GRM32 series or a polymer type. Initial su ...
Chap 22 PPT notes
... and a voltmeter measures voltages. The current in the circuit must flow through the ammeter; therefore the ammeter should have as low a resistance as possible, for the least ...
... and a voltmeter measures voltages. The current in the circuit must flow through the ammeter; therefore the ammeter should have as low a resistance as possible, for the least ...
V o - s3.amazonaws.com
... Note that this systematic transformation allows us to reduce the network to a simpler equivalent form with respect to some other circuit elements. Although this technique is applicable to networks containing dependent sources, it may not be as useful as other techniques and care must be taken not tr ...
... Note that this systematic transformation allows us to reduce the network to a simpler equivalent form with respect to some other circuit elements. Although this technique is applicable to networks containing dependent sources, it may not be as useful as other techniques and care must be taken not tr ...
MAX6969 16-Port, 5.5V Constant-Current LED Driver General Description Features
... For applications requiring LED fault detection, refer to the MAX6984*, which automatically detects open-circuit LEDs. For safety-related applications requiring a watchdog timer, refer to the MAX6979, which includes a fail-safe feature that blanks the display if the serial interface becomes inactive ...
... For applications requiring LED fault detection, refer to the MAX6984*, which automatically detects open-circuit LEDs. For safety-related applications requiring a watchdog timer, refer to the MAX6979, which includes a fail-safe feature that blanks the display if the serial interface becomes inactive ...
Powering a Dust Mote from a Piezoelectric Transducer
... Increasing the level of remote monitoring and control of industrial environments—such as factories, plants and refineries—enables process engineers and managers to see the overall health of a system or factory, ultimately improving decision making. The easiest way to increase monitoring and control ...
... Increasing the level of remote monitoring and control of industrial environments—such as factories, plants and refineries—enables process engineers and managers to see the overall health of a system or factory, ultimately improving decision making. The easiest way to increase monitoring and control ...
three phase scr control and regulation board
... frequency changes too fast for the circuit to remain locked, an out of lock condition is detected. In such a case, the PHASE LOSS LED is illuminated and a fast turn off is initiated which inhibits all gate signals within 20µS. When lock is restored, the unit will ramp up to the programmed delay angl ...
... frequency changes too fast for the circuit to remain locked, an out of lock condition is detected. In such a case, the PHASE LOSS LED is illuminated and a fast turn off is initiated which inhibits all gate signals within 20µS. When lock is restored, the unit will ramp up to the programmed delay angl ...
A Forward-Body-Bias Tuned 450MHz Gm-C 3rd-Order Low
... Without body biasing, Gm changes and linearity is degraded. For high VDD, the inverter behavior is compressive (mobility reduction), while for low VDD it is expansive (exponential region). Only one V DD results in a flat Gm-curve, which means that it produces little 3rd order distortion. Body biasin ...
... Without body biasing, Gm changes and linearity is degraded. For high VDD, the inverter behavior is compressive (mobility reduction), while for low VDD it is expansive (exponential region). Only one V DD results in a flat Gm-curve, which means that it produces little 3rd order distortion. Body biasin ...
Read More
... imprecise controls, such as mechanical pressure regulators and variacs. Also, with more immediate concerns in the realm of defense, a pulsed-power system must become rugged, compact, reliable, and constructed so that an operator is able to work it in any environment. Timing, repeatability of results ...
... imprecise controls, such as mechanical pressure regulators and variacs. Also, with more immediate concerns in the realm of defense, a pulsed-power system must become rugged, compact, reliable, and constructed so that an operator is able to work it in any environment. Timing, repeatability of results ...
Ch6 MOSFETS HSD_LSD PART 1 - Bridging Theory into Practice
... • Lamps and RC networks can experience significant “in-rush” current when they are initially turned on • When a lamp initially turns on, the filament is cold, and has a relatively low resistance • As the filament warms up, the resistance increases dramatically (often by an order of magnitude) ...
... • Lamps and RC networks can experience significant “in-rush” current when they are initially turned on • When a lamp initially turns on, the filament is cold, and has a relatively low resistance • As the filament warms up, the resistance increases dramatically (often by an order of magnitude) ...
R36100108
... Figure 7 illustrates the various switching states of the proposed converter. If the turn on duration of M1 is longer than M2, then the switching states will be state I, II, IV. Similarly, the switching states will be state I, III, IV if the switch conduction periods are vice versa. To provide a bett ...
... Figure 7 illustrates the various switching states of the proposed converter. If the turn on duration of M1 is longer than M2, then the switching states will be state I, II, IV. Similarly, the switching states will be state I, III, IV if the switch conduction periods are vice versa. To provide a bett ...
BME 317 Medical Electronics Lab
... The frequency at which the output voltage equals 0.707 times the input voltage is referred to as the high or low frequency roll-off point. This point is also defined as the frequency at which the output voltage has dropped by 3 dB. Each kind of filter's response can be customized slightly by changin ...
... The frequency at which the output voltage equals 0.707 times the input voltage is referred to as the high or low frequency roll-off point. This point is also defined as the frequency at which the output voltage has dropped by 3 dB. Each kind of filter's response can be customized slightly by changin ...
ADN4667 数据手册DataSheet 下载
... Active High Enable and Power-Down Input (3 V TTL/CMOS). If EN is held low or open circuit, EN enables the drivers when high and disables the drivers when low. Driver Channel 1 Logic Input. Driver Channel 2 Logic Input. Power Supply Input. These parts can be operated from 3.0 V to 3.6 V. The supply s ...
... Active High Enable and Power-Down Input (3 V TTL/CMOS). If EN is held low or open circuit, EN enables the drivers when high and disables the drivers when low. Driver Channel 1 Logic Input. Driver Channel 2 Logic Input. Power Supply Input. These parts can be operated from 3.0 V to 3.6 V. The supply s ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.