7 Results and analysis - Revistas UNAL
... consider the random behavior of generation dispatch and flat voltage profiles in the faulted bus bar and the bus bar of interest when this behavior is studied. In this paper, an extended fault positions technique and Monte Carlo Method to evaluate the voltage sags is proposed. Random faults, changes ...
... consider the random behavior of generation dispatch and flat voltage profiles in the faulted bus bar and the bus bar of interest when this behavior is studied. In this paper, an extended fault positions technique and Monte Carlo Method to evaluate the voltage sags is proposed. Random faults, changes ...
Note: Self-characterizing ultrafast pulse shaper for rapid pulse switching
... “shaped” and “reference” pulses. Upon return to the AOM, the shaped output beam once again undergoes diffraction, as it again satisfies the Bragg condition. Furthermore, any spectral dispersion from the AOM, or variation of diffraction angle with wavelength, in the diffracted beam due to the large f ...
... “shaped” and “reference” pulses. Upon return to the AOM, the shaped output beam once again undergoes diffraction, as it again satisfies the Bragg condition. Furthermore, any spectral dispersion from the AOM, or variation of diffraction angle with wavelength, in the diffracted beam due to the large f ...
CT281 Manual
... Depending upon your application, you may not have to change the setpoint. The accuracy of the setpoint, as received from the factory, depends to a large degree on the resistance tolerance of the heater. A typical tolerance is ±10% for a Thermofoil etched-foil heater, and ±2% for a Minco wire heater. ...
... Depending upon your application, you may not have to change the setpoint. The accuracy of the setpoint, as received from the factory, depends to a large degree on the resistance tolerance of the heater. A typical tolerance is ±10% for a Thermofoil etched-foil heater, and ±2% for a Minco wire heater. ...
Chapter 5 - Capacitors & Inductors (PowerPoint Format)
... • Capacitor, also called electrical condenser, device for storing an electrical charge. • In its simplest form a capacitor is two metal plates separated by a non-conducting layer called the dielectric. Air, mica, ceramics, paper, oil, and vacuums are used as dielectrics. • When one plate is charged ...
... • Capacitor, also called electrical condenser, device for storing an electrical charge. • In its simplest form a capacitor is two metal plates separated by a non-conducting layer called the dielectric. Air, mica, ceramics, paper, oil, and vacuums are used as dielectrics. • When one plate is charged ...
AD5625R/AD5645R/AD5665R, AD5625/AD5665 (Rev. C)
... Low power, smallest pin-compatible, quad nanoDACs AD5625R/AD5645R/AD5665R 12-/14-/16-bit nanoDACs On-chip, 2.5 V, 5 ppm/°C reference in TSSOP On-chip, 2.5 V, 10 ppm/°C reference in LFCSP On-chip, 1.25 V, 10 ppm/°C reference in LFCSP AD5625/AD5665 12-/16-bit nanoDACs External reference only 3 mm × 3 ...
... Low power, smallest pin-compatible, quad nanoDACs AD5625R/AD5645R/AD5665R 12-/14-/16-bit nanoDACs On-chip, 2.5 V, 5 ppm/°C reference in TSSOP On-chip, 2.5 V, 10 ppm/°C reference in LFCSP On-chip, 1.25 V, 10 ppm/°C reference in LFCSP AD5625/AD5665 12-/16-bit nanoDACs External reference only 3 mm × 3 ...
Lect21
... • For 0 < t < t0, the capacitor is charging with time constant t = RC • For t > t0, the capacitor is discharging with time constant t = 2RC • (a) has equal charging and discharging time constants • (b) has a larger discharging t than a charging t • (c) has a smaller discharging t than a charging t ...
... • For 0 < t < t0, the capacitor is charging with time constant t = RC • For t > t0, the capacitor is discharging with time constant t = 2RC • (a) has equal charging and discharging time constants • (b) has a larger discharging t than a charging t • (c) has a smaller discharging t than a charging t ...
DS28CM00 - Maxim Part Number Search
... For I²C systems, the rise time and fall time are measured from 30% to 70% of the pullup voltage. The maximum bus capacitance CB is 400pF. The maximum rise time must not exceed 300ns. Assuming maximum rise time, the maximum resistor value at any given capacitance CB is calculated as: RPMAX = 300ns/(C ...
... For I²C systems, the rise time and fall time are measured from 30% to 70% of the pullup voltage. The maximum bus capacitance CB is 400pF. The maximum rise time must not exceed 300ns. Assuming maximum rise time, the maximum resistor value at any given capacitance CB is calculated as: RPMAX = 300ns/(C ...
IOSR Journal of Applied Physics (IOSRJAP)
... signal. This tunability is obtained by varying the transconductance (gm) of the OTA which in turn is controlled by the bias current or voltage. However, tunability is restricted by the limited bandwidth of gm, which depends on the bias current. OTA is a commercially available active component which ...
... signal. This tunability is obtained by varying the transconductance (gm) of the OTA which in turn is controlled by the bias current or voltage. However, tunability is restricted by the limited bandwidth of gm, which depends on the bias current. OTA is a commercially available active component which ...
1. WHAT IS METER
... Metering Management Initial/one time activities Choose the category of meter Selection of meter Installation of meters in strategic locations Deciding status of meters as Main, Check and Stand-by meters ...
... Metering Management Initial/one time activities Choose the category of meter Selection of meter Installation of meters in strategic locations Deciding status of meters as Main, Check and Stand-by meters ...
DNECOMZR062A00
... 9. Remove the tape securing the relief dampers in place. 10. Remove and save the 12-pin jumper plug from the unit wiring harness (located in the upper left corner of the unit). Insert the Economizer plug into the unit wiring harness. Refer to Fig. 7 for wiring diagram. NOTE: If the power exhaust acc ...
... 9. Remove the tape securing the relief dampers in place. 10. Remove and save the 12-pin jumper plug from the unit wiring harness (located in the upper left corner of the unit). Insert the Economizer plug into the unit wiring harness. Refer to Fig. 7 for wiring diagram. NOTE: If the power exhaust acc ...
ORIGA™ Product Brief - Infineon Technologies
... cryptographic solution, designed to assist system manufacturers to ensure the authenticity and safety of their original products, and protection of their investments against aftermarket replacements. It leverages Infineon’s market leading security knowhow into the battery and accessory authenticatio ...
... cryptographic solution, designed to assist system manufacturers to ensure the authenticity and safety of their original products, and protection of their investments against aftermarket replacements. It leverages Infineon’s market leading security knowhow into the battery and accessory authenticatio ...
Electrical Power Technology Using Data
... The hands-on exercises guide students through circuit setup and operation, and explore many of the measurement and observation capabilities of the virtual instrumentation system. Much detailed information about circuit parameters (voltage and current levels, waveforms, phase angles, etc.) can be vis ...
... The hands-on exercises guide students through circuit setup and operation, and explore many of the measurement and observation capabilities of the virtual instrumentation system. Much detailed information about circuit parameters (voltage and current levels, waveforms, phase angles, etc.) can be vis ...
Lecture 10 - web page for staff
... semiconductor device. • Generally, the transistor is used with other circuit elements for current gain, voltage gain, or even signal-power gain. • There are many types of transistors, but all of them are biased on 2 major kinds: bipolar transistor and unipolar transistor. ...
... semiconductor device. • Generally, the transistor is used with other circuit elements for current gain, voltage gain, or even signal-power gain. • There are many types of transistors, but all of them are biased on 2 major kinds: bipolar transistor and unipolar transistor. ...
RMS2071ME68FAF-1600-MH0
... 1. Maximum DC value may not be greater than 1.425V. The DC value is the linear average of VDD/VDDQ(t) over a very long period of time (e.g., 1 sec). 2. If maximum limit is exceeded, input levels shall be governed by DDR3 specifications. 3. Under these supply voltages, the device operates to this DDR ...
... 1. Maximum DC value may not be greater than 1.425V. The DC value is the linear average of VDD/VDDQ(t) over a very long period of time (e.g., 1 sec). 2. If maximum limit is exceeded, input levels shall be governed by DDR3 specifications. 3. Under these supply voltages, the device operates to this DDR ...
Lecture 2: More on I/O and Memory
... signal levels High-resolution counters are used to generate a square wave The duty cycle of the square wave is modulated to encode an analog signal Typical applications: switching power supplies, motor control Power loss in the switching devices is very low: “on” no current, “off” not voltag ...
... signal levels High-resolution counters are used to generate a square wave The duty cycle of the square wave is modulated to encode an analog signal Typical applications: switching power supplies, motor control Power loss in the switching devices is very low: “on” no current, “off” not voltag ...
Opto-isolator
In electronics, an opto-isolator, also called an optocoupler, photocoupler, or optical isolator, is a component that transfers electrical signals between two isolated circuits by using light. Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 10 kV/μs.A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.