MAX16128/MAX16129 Evaluate: MAX16128/MAX16129 Evaluation Kits General Description
... EV kit includes a zener diode (D1) between the input supply (IN) of the device and COM. To increase the negative input-voltage protection range, a diode between COM (ground of the protection device) and SYSGND (ground carrying load current), D5, must be installed. A series surface-mount resistor (R5 ...
... EV kit includes a zener diode (D1) between the input supply (IN) of the device and COM. To increase the negative input-voltage protection range, a diode between COM (ground of the protection device) and SYSGND (ground carrying load current), D5, must be installed. A series surface-mount resistor (R5 ...
MTL MA15 Surge Protectors Manual PDF
... “UNPROTECTED” side of the MA15 device, as indicated on the product labeling. This will install the SPD in parallel with the supply and it will not be subjected to any load current. Install 15A overcurrent protection (fuse or circuit breaker) in the LINE wire. The Live wire must be connected to the “ ...
... “UNPROTECTED” side of the MA15 device, as indicated on the product labeling. This will install the SPD in parallel with the supply and it will not be subjected to any load current. Install 15A overcurrent protection (fuse or circuit breaker) in the LINE wire. The Live wire must be connected to the “ ...
7th-grade - "Current and Voltage"
... The students will construct both a series and parallel circuit. They will then measure the current at various points in both the series and parallel circuit using a Current Probe. Students will also use a Voltage Probe to measure the voltage at different locations within the circuits. We have assume ...
... The students will construct both a series and parallel circuit. They will then measure the current at various points in both the series and parallel circuit using a Current Probe. Students will also use a Voltage Probe to measure the voltage at different locations within the circuits. We have assume ...
Robin LOBEL Adrien MATTA
... Indeed, any periodic signal can be considered as the sum of sinusoidal signals, and consequently, the high-pass filter can "remove" the components whose frequencies are lower than the cut frequency as follows: When it is subjected to a sinusoidal voltage, the capacitor takes care, then during the ch ...
... Indeed, any periodic signal can be considered as the sum of sinusoidal signals, and consequently, the high-pass filter can "remove" the components whose frequencies are lower than the cut frequency as follows: When it is subjected to a sinusoidal voltage, the capacitor takes care, then during the ch ...
FSQ500N Green Mode Fairchild Power Switch (FPS™) FSQ500N — Green M
... the senseFET. When the temperature exceeds ~140°C, the thermal shutdown triggers. When TSD triggers, delay current is disabled, switching operation stops, and VCC through the internal high-voltage current source is set to 5.7V from 6.5V, as shown in Figure 19. Since the TSD signal prohibits the sens ...
... the senseFET. When the temperature exceeds ~140°C, the thermal shutdown triggers. When TSD triggers, delay current is disabled, switching operation stops, and VCC through the internal high-voltage current source is set to 5.7V from 6.5V, as shown in Figure 19. Since the TSD signal prohibits the sens ...
Automotive Power-Management IC with Three Step-Down Converters and Linear Regulator MAX16920 Features
... high-voltage linear regulator, and an overvoltage protection block. The three step-down converters deliver up to 150mA, 600mA, and 1.5A, while the linear regulator is capable of up to 150mA. The MAX16920 is designed to operate with input voltages between 5.5V to 28V and survive voltage transients to ...
... high-voltage linear regulator, and an overvoltage protection block. The three step-down converters deliver up to 150mA, 600mA, and 1.5A, while the linear regulator is capable of up to 150mA. The MAX16920 is designed to operate with input voltages between 5.5V to 28V and survive voltage transients to ...
Instructions - Precision Lighting
... adjustable coupler [BT-513] power bolt [BT-507] end cap [BT-808] ...
... adjustable coupler [BT-513] power bolt [BT-507] end cap [BT-808] ...
Description AP67-FWLC-C6LA Transceiver Pluggable OC-24 WDM-PON OLT SFP Transceiver with Fiber Pigtail
... If labeling is not affixed to the module due to size constraints; then rather, labeling is placed on the outside of the shipping box. This product is not shipped with a power supply. ...
... If labeling is not affixed to the module due to size constraints; then rather, labeling is placed on the outside of the shipping box. This product is not shipped with a power supply. ...
STP 3 & 4 2.12 Station Electrical Systems
... Instrument and Control Power Supply Design Description STD DEP T1 2.12-2 The Class 1E Instrument and Control Power Supply consists of three four divisions (Division I, II, and III, and IV) of interruptible power supplies with their respective distribution panels. Each Class 1E power supply provides ...
... Instrument and Control Power Supply Design Description STD DEP T1 2.12-2 The Class 1E Instrument and Control Power Supply consists of three four divisions (Division I, II, and III, and IV) of interruptible power supplies with their respective distribution panels. Each Class 1E power supply provides ...
Exam 3 review
... 1. Turn off all independent sources except one. Find the output (voltage or current) due to the active source. 2. Repeat step 1 for each of the other independent sources. 3. Find the total output by adding algebraically all of the results found in steps 1 & 2 above. ...
... 1. Turn off all independent sources except one. Find the output (voltage or current) due to the active source. 2. Repeat step 1 for each of the other independent sources. 3. Find the total output by adding algebraically all of the results found in steps 1 & 2 above. ...
EET 114 PowerPoint Slides - Sinclair Community College
... given the schematic diagram of a circuit, to compute the voltages and currents in the circuit. For some circuits, such as this one, the math is simple (basic algebra). More complicated circuits require more powerful math (trig, complex numbers, calculus, differential equations…). ...
... given the schematic diagram of a circuit, to compute the voltages and currents in the circuit. For some circuits, such as this one, the math is simple (basic algebra). More complicated circuits require more powerful math (trig, complex numbers, calculus, differential equations…). ...
Calculating the Time Constant of an RC Circuit
... wiper speed settings in modern cars are controlled by RC circuits. They allow a lower voltage to reach the windshield wipers which makes them move slower. Electronic instruments, washing machines, children’s toys, and many other pieces of technology all contain RC circuits. ...
... wiper speed settings in modern cars are controlled by RC circuits. They allow a lower voltage to reach the windshield wipers which makes them move slower. Electronic instruments, washing machines, children’s toys, and many other pieces of technology all contain RC circuits. ...
CT800001EN
... Continuous Current Temperature Rise Test Background Secondary low voltage bushings will experience the same continuous current as the transformer they are mounted on. Therefore, they must be tested in accordance with IEEE Std C57.12.00, which limits the temperature rise of the top level of oil to 65 ...
... Continuous Current Temperature Rise Test Background Secondary low voltage bushings will experience the same continuous current as the transformer they are mounted on. Therefore, they must be tested in accordance with IEEE Std C57.12.00, which limits the temperature rise of the top level of oil to 65 ...
Data Sheet 数据手册下载_BDTIC 代理RFMD
... Product Description RFMD's RFVC1835 is a 5V InGaP MMIC VCO with an integrated frequency divider providing additional Fo/2 and Fo/4 outputs. With an Fo frequency range of 9.6GHz to 10.8GHz its monolithic structure provides excellent temperature, shock, and vibration performance. Output power (Fo) is ...
... Product Description RFMD's RFVC1835 is a 5V InGaP MMIC VCO with an integrated frequency divider providing additional Fo/2 and Fo/4 outputs. With an Fo frequency range of 9.6GHz to 10.8GHz its monolithic structure provides excellent temperature, shock, and vibration performance. Output power (Fo) is ...
A 40 meters CW QRP Transceiver
... A particular care was dedicated to the filter design, in fact I wanted to obtain a device suited also for SSB reception. I chose a ladder 4 poles design, employing some cheap 4.433 MHz crystals for TV use. In this manner I obtained a 1.8 KHz bandpass, an acceptable compromise to receive both the CW ...
... A particular care was dedicated to the filter design, in fact I wanted to obtain a device suited also for SSB reception. I chose a ladder 4 poles design, employing some cheap 4.433 MHz crystals for TV use. In this manner I obtained a 1.8 KHz bandpass, an acceptable compromise to receive both the CW ...
Technical Series, Edition 1
... be protected against the immediate effects of electric current during treatment. Indirectly, patients must be protected in terms of minimum medical treatment available to them at any time, also in case normal power supply is interrupted, even if this extends to a period of several days. DIN VDE 0100 ...
... be protected against the immediate effects of electric current during treatment. Indirectly, patients must be protected in terms of minimum medical treatment available to them at any time, also in case normal power supply is interrupted, even if this extends to a period of several days. DIN VDE 0100 ...
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No Slide Title
... Produces a single timed pulse. The length depends on the value of the capacitor and resistor(s) connected to pin 6&7. This monostable uses the 555 I.C. Pin 2 starts the timing cycle when it is connected to 0v. This must be only a short pulse as timing will begin when pin 2 returns high. Pin 3 is the ...
... Produces a single timed pulse. The length depends on the value of the capacitor and resistor(s) connected to pin 6&7. This monostable uses the 555 I.C. Pin 2 starts the timing cycle when it is connected to 0v. This must be only a short pulse as timing will begin when pin 2 returns high. Pin 3 is the ...
A6220 - PROFESS, spol. s ro
... Shaft Eccentricity Monitor Specifications The Shaft Eccentricity Monitor is designed for high reliability for the plant’s most critical rotating machinery. This 1-slot monitor is used together with other CSI 6500 monitors to build a complete API 670 machinery protection monitor. Applications include ...
... Shaft Eccentricity Monitor Specifications The Shaft Eccentricity Monitor is designed for high reliability for the plant’s most critical rotating machinery. This 1-slot monitor is used together with other CSI 6500 monitors to build a complete API 670 machinery protection monitor. Applications include ...
NCP102MBGEVB NCP102 4 W Motherboard Evaluation Board User's Manual
... of output capacitors (such as electrolytic and ceramic), zeros at different frequencies are generated. The external pass transistor contributes a zero and affects the poles of the system. The frequency response from VDRV to Vout is given by Equation 4. ...
... of output capacitors (such as electrolytic and ceramic), zeros at different frequencies are generated. The external pass transistor contributes a zero and affects the poles of the system. The frequency response from VDRV to Vout is given by Equation 4. ...
Switched-mode power supply
A switched-mode power supply (switching-mode power supply, switch-mode power supply, SMPS, or switcher) is an electronic power supply that incorporates a switching regulator to convert electrical power efficiently. Like other power supplies, an SMPS transfers power from a source, like mains power, to a load, such as a personal computer, while converting voltage and current characteristics. Unlike a linear power supply, the pass transistor of a switching-mode supply continually switches between low-dissipation, full-on and full-off states, and spends very little time in the high dissipation transitions, which minimizes wasted energy. Ideally, a switched-mode power supply dissipates no power. Voltage regulation is achieved by varying the ratio of on-to-off time. In contrast, a linear power supply regulates the output voltage by continually dissipating power in the pass transistor. This higher power conversion efficiency is an important advantage of a switched-mode power supply. Switched-mode power supplies may also be substantially smaller and lighter than a linear supply due to the smaller transformer size and weight.Switching regulators are used as replacements for linear regulators when higher efficiency, smaller size or lighter weight are required. They are, however, more complicated; their switching currents can cause electrical noise problems if not carefully suppressed, and simple designs may have a poor power factor.