spirit 2 - Mechatronics
... Putting “Ohm’s Law” in Recognizable Terms: Ohm’s Law is a mathematical relationship that is present in electric circuits. The version discussed here is for direct current but it is possible to modify Ohm’s Law to work for alternating current. Putting “Ohm’s Law” in Conceptual Terms: Ohm’s Law shows ...
... Putting “Ohm’s Law” in Recognizable Terms: Ohm’s Law is a mathematical relationship that is present in electric circuits. The version discussed here is for direct current but it is possible to modify Ohm’s Law to work for alternating current. Putting “Ohm’s Law” in Conceptual Terms: Ohm’s Law shows ...
MAX1658/MAX1659 350mA, 16.5V Input, Low-Dropout Linear Regulators _______________General Description
... The IN pins of the MAX1658/MAX1659 package perform the dual function of providing an electrical connection to IN and channeling heat away. Connect all IN pins to the input voltage using a large pad or power plane on the surface. Where this is impossible, connect to a copper plane on an adjacent laye ...
... The IN pins of the MAX1658/MAX1659 package perform the dual function of providing an electrical connection to IN and channeling heat away. Connect all IN pins to the input voltage using a large pad or power plane on the surface. Where this is impossible, connect to a copper plane on an adjacent laye ...
LNK64x4-64x8 - Mouser Electronics
... In the event the FEEDBACK pin voltage during the flyback period falls below 0.7 V before the FEEDBACK pin sampling delay (~2.5 ms) for a duration in excess of ~300 ms (auto-restart on-time (t AR-ON) the converter enters into auto-restart, wherein the power MOSFET is disabled for 1500 ms. The auto-re ...
... In the event the FEEDBACK pin voltage during the flyback period falls below 0.7 V before the FEEDBACK pin sampling delay (~2.5 ms) for a duration in excess of ~300 ms (auto-restart on-time (t AR-ON) the converter enters into auto-restart, wherein the power MOSFET is disabled for 1500 ms. The auto-re ...
“Comparison Analysis of AC Voltage Controllers Based on
... Effective rms Value and the DC Offset: These values are calculated in per unit for the supply voltage taken as a base voltage and for a certain delay angle α=108º and the load impedance is the base for current calculation. Due to the presence of diodes in configurations (a, d, f, h) or the possible ...
... Effective rms Value and the DC Offset: These values are calculated in per unit for the supply voltage taken as a base voltage and for a certain delay angle α=108º and the load impedance is the base for current calculation. Due to the presence of diodes in configurations (a, d, f, h) or the possible ...
Low Power Processor --
... enabled and disables via aggressive power gating based on work load. (aka when they're needed, they're fired up.) • First four cores are not aware of the fifth, but automatically take advantage of it - this saving both software efforts and new coding requirements as it flows. ...
... enabled and disables via aggressive power gating based on work load. (aka when they're needed, they're fired up.) • First four cores are not aware of the fifth, but automatically take advantage of it - this saving both software efforts and new coding requirements as it flows. ...
SASO_GFCINov2014
... interruption depend on line supply voltage • Differential current detection and energy for operation typically by current transformer GE Industrial Solutions | November 2014 ...
... interruption depend on line supply voltage • Differential current detection and energy for operation typically by current transformer GE Industrial Solutions | November 2014 ...
21.6 - A 60GHz Direct-Conversion CMOS Receiver
... 0.9mA from the supply. It is exceedingly difficult to generate external differential signals at 60GHz. For test purposes, a single-ended to differential converter is included on the chip. As shown in Fig. 21.6.5, the converter consists of two equal coupling capacitors (realized as metal sandwiches) ...
... 0.9mA from the supply. It is exceedingly difficult to generate external differential signals at 60GHz. For test purposes, a single-ended to differential converter is included on the chip. As shown in Fig. 21.6.5, the converter consists of two equal coupling capacitors (realized as metal sandwiches) ...
Trigonometry Notes on the Applications of Sine and Cosine Functions.
... root-mean-square”. This is a type of average voltage. The actual maximum voltage is actually 2 times this. Therefore, ...
... root-mean-square”. This is a type of average voltage. The actual maximum voltage is actually 2 times this. Therefore, ...
external connections dukane model 1a803 100
... INPUT LEVEL - Not more than 0.4 volt rms (sine wave) input is required to obtain full 100 However, it is recommended that, in order to watts of output power with this amplifier. should be lowered 8 dB accommodate the complex wave form of program material th e input ...
... INPUT LEVEL - Not more than 0.4 volt rms (sine wave) input is required to obtain full 100 However, it is recommended that, in order to watts of output power with this amplifier. should be lowered 8 dB accommodate the complex wave form of program material th e input ...
SASO_GFCINov2014
... interruption depend on line supply voltage • Differential current detection and energy for operation typically by current transformer GE Industrial Solutions | November 2014 ...
... interruption depend on line supply voltage • Differential current detection and energy for operation typically by current transformer GE Industrial Solutions | November 2014 ...
Introduction to Digital Multimeters
... resistance is called a multimeter, As voltage is always relative between two points, a voltage-measuring meter ("voltmeter") must be connected to two points in a circuit in order to obtain a good reading. Be careful not to touch the bare probe tips together while measuring voltage, as this will crea ...
... resistance is called a multimeter, As voltage is always relative between two points, a voltage-measuring meter ("voltmeter") must be connected to two points in a circuit in order to obtain a good reading. Be careful not to touch the bare probe tips together while measuring voltage, as this will crea ...
Inductive and Magnetic Sensors
... measuring rotational velocity. In this device, the air gap, and hence the reluctance changes as the gear teeth pass by the stator pole. Again, a permanent magnet provides the source of mmf. The resulting periodic variations in flux linkage produce a periodic output voltage whose frequency correspond ...
... measuring rotational velocity. In this device, the air gap, and hence the reluctance changes as the gear teeth pass by the stator pole. Again, a permanent magnet provides the source of mmf. The resulting periodic variations in flux linkage produce a periodic output voltage whose frequency correspond ...
First Oscillators Sheet
... we have R = 1/(C) and = 1/(RC) = 1377 rad/s = 219 Hz. For the inductor circuit, X = L, so = R/L = 2200/.05 = 44000 rad/s = 7003 Hz. In either case, when the j terms have vanished, V 2/V1 = XR/(3XR) = 1/3, so the amp. needs a gain of 3 at least. This means R1 > 3R2. A problem is that if the gai ...
... we have R = 1/(C) and = 1/(RC) = 1377 rad/s = 219 Hz. For the inductor circuit, X = L, so = R/L = 2200/.05 = 44000 rad/s = 7003 Hz. In either case, when the j terms have vanished, V 2/V1 = XR/(3XR) = 1/3, so the amp. needs a gain of 3 at least. This means R1 > 3R2. A problem is that if the gai ...
Product shee Date: USB The USB protection de It consists of the
... It’s intended to be used in industrial environments where the host computer needs to be isolated and protected from external surges and electrical interference. The isolator is equipped with USB-A USB A type connector and transient protection diodes for both the host and device side. Since it’s stri ...
... It’s intended to be used in industrial environments where the host computer needs to be isolated and protected from external surges and electrical interference. The isolator is equipped with USB-A USB A type connector and transient protection diodes for both the host and device side. Since it’s stri ...
Power electronics
Power electronics is the application of solid-state electronics to the control and conversion of electric power. It also refers to a subject of research in electronic and electrical engineering which deals with the design, control, computation and integration of nonlinear, time-varying energy-processing electronic systems with fast dynamics.The first high power electronic devices were mercury-arc valves. In modern systems the conversion is performed with semiconductor switching devices such as diodes, thyristors and transistors, pioneered by R. D. Middlebrook and others beginning in the 1950s. In contrast to electronic systems concerned with transmission and processing of signals and data, in power electronics substantial amounts of electrical energy are processed. An AC/DC converter (rectifier) is the most typical power electronics device found in many consumer electronic devices, e.g. television sets, personal computers, battery chargers, etc. The power range is typically from tens of watts to several hundred watts. In industry a common application is the variable speed drive (VSD) that is used to control an induction motor. The power range of VSDs start from a few hundred watts and end at tens of megawatts.The power conversion systems can be classified according to the type of the input and output power AC to DC (rectifier) DC to AC (inverter) DC to DC (DC-to-DC converter) AC to AC (AC-to-AC converter)