How to Design With TPS65560/TPS65561 Photo Flash Charger and IGBT Driver ..................................................................................
... internal FET switch turns on, current, which is programmable by the I_PEAK pin voltage, flows into the primary side of the transformer and, thus, stores energy in the primary winding. When the internal FET switch turns off, the stored energy is transferred to the secondary side of the transformer. A ...
... internal FET switch turns on, current, which is programmable by the I_PEAK pin voltage, flows into the primary side of the transformer and, thus, stores energy in the primary winding. When the internal FET switch turns off, the stored energy is transferred to the secondary side of the transformer. A ...
On the Cause and Control of Residual Voltage Generated by
... traditionally performed with symmetric cathodic-first biphasic pulses of current through an electrode/electrolyte interface. When the interface is modeled by a series R-C circuit, as is sometimes done for stimulator circuit design, the appearance of a net residual voltage across the electrode cannot ...
... traditionally performed with symmetric cathodic-first biphasic pulses of current through an electrode/electrolyte interface. When the interface is modeled by a series R-C circuit, as is sometimes done for stimulator circuit design, the appearance of a net residual voltage across the electrode cannot ...
SN65HVD179 数据资料 dataSheet 下载
... The differential bus driver and receiver are monolithic, integrated circuits designed for full-duplex bi-directional data communication on multipoint bus-transmission lines at signaling rates (1) up to 25 Mbps. The SN65HVD179 is fully enabled with no external enabling pins. The 1/2 unit load receive ...
... The differential bus driver and receiver are monolithic, integrated circuits designed for full-duplex bi-directional data communication on multipoint bus-transmission lines at signaling rates (1) up to 25 Mbps. The SN65HVD179 is fully enabled with no external enabling pins. The 1/2 unit load receive ...
Ch1 RLC Load - Bridging Theory into Practice
... transferred in a certain period of time: I = Q / t dq i or dq i dt dt ...
... transferred in a certain period of time: I = Q / t dq i or dq i dt dt ...
BD9060F-C
... the duty will be small, and output voltage will decrease. However, this protection circuit is only effective in preventing destruction from sudden accident. It does not support for continuous operation of the protection circuit (e.g. if a load, which significantly exceeds the output current capacita ...
... the duty will be small, and output voltage will decrease. However, this protection circuit is only effective in preventing destruction from sudden accident. It does not support for continuous operation of the protection circuit (e.g. if a load, which significantly exceeds the output current capacita ...
How You Can Build Your Own SCR/TRIAC Tester
... exceeds a certain threshold, the device will turns "on" and conducts current. The device will remain in the "on" state even after gate current is removed so long as current through the device remains above the holding current. Once the current falls below the holding current for an appropriate perio ...
... exceeds a certain threshold, the device will turns "on" and conducts current. The device will remain in the "on" state even after gate current is removed so long as current through the device remains above the holding current. Once the current falls below the holding current for an appropriate perio ...
AC generator theory This worksheet and all related files are licensed
... Hint: how many cycles of AC are produced for every revolution of the rotor? file 00819 Question 9 How fast must a 12-pole alternator spin in order to produce 60 Hz AC power? Write a mathematical equation solving for speed (S) in terms of frequency (f ) and the number of poles (N ). file 00821 Questi ...
... Hint: how many cycles of AC are produced for every revolution of the rotor? file 00819 Question 9 How fast must a 12-pole alternator spin in order to produce 60 Hz AC power? Write a mathematical equation solving for speed (S) in terms of frequency (f ) and the number of poles (N ). file 00821 Questi ...
MAX9163 Bus LVDS 3.3V Single Transceiver General Description Features
... The transceiver consists of one differential BLVDS line driver and one LVDS receiver. The driver outputs and receiver inputs are connected internally to minimize bus loading. The driver and receiver can be enabled or disabled individually or simultaneously by the use of enable logic inputs (DE, RE). ...
... The transceiver consists of one differential BLVDS line driver and one LVDS receiver. The driver outputs and receiver inputs are connected internally to minimize bus loading. The driver and receiver can be enabled or disabled individually or simultaneously by the use of enable logic inputs (DE, RE). ...
Self Study Unit 1.1
... One thousand volts are equal to one kilovolt. (T5B03) One one-millionth of a volt is equal to one microvolt. (T5B04) 0.5 watts is equivalent to 500 milliwatts. (T5B05) If an ammeter (a meter that measures current) calibrated in amperes is used to measure a 3000-milliampere current, the readi ...
... One thousand volts are equal to one kilovolt. (T5B03) One one-millionth of a volt is equal to one microvolt. (T5B04) 0.5 watts is equivalent to 500 milliwatts. (T5B05) If an ammeter (a meter that measures current) calibrated in amperes is used to measure a 3000-milliampere current, the readi ...
Advanced Electrical Design Models
... forward current and a constant ambient temperature. Equation #3.9A models the thermally stabilized luminous flux at any forward current compared to the thermally stabilized luminous flux at test conditions of IF TEST, VF TEST, and RθJA TEST at a constant ambient temperature. A good example of an app ...
... forward current and a constant ambient temperature. Equation #3.9A models the thermally stabilized luminous flux at any forward current compared to the thermally stabilized luminous flux at test conditions of IF TEST, VF TEST, and RθJA TEST at a constant ambient temperature. A good example of an app ...
Article PDF - Power Transmission Engineering
... use of both types of this control—i.e., indirect field-oriented control for standstill and low-speed range, and direct fieldoriented control for high-speed range is a classical way of modern control, given the fact that present-day microprocessors are robust enough to do computations for both method ...
... use of both types of this control—i.e., indirect field-oriented control for standstill and low-speed range, and direct fieldoriented control for high-speed range is a classical way of modern control, given the fact that present-day microprocessors are robust enough to do computations for both method ...
TPS780xxEVM-301 User`s Guide
... It is important to operate this EVM within the input voltage range of 2.2 V to 5.5 V and the output voltage range of 0.8 V to 5.5 V. Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are questions concerning the input range, please con ...
... It is important to operate this EVM within the input voltage range of 2.2 V to 5.5 V and the output voltage range of 0.8 V to 5.5 V. Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are questions concerning the input range, please con ...
Dual Power-Supply Supervisors
... Power-On Reset Generator Automatic Reset Generation After Voltage ...
... Power-On Reset Generator Automatic Reset Generation After Voltage ...
analog multiplexer/demultiplexer
... transition time, if the transition time is less than 12 ms. When the inhibit signal turns a channel off, there is no change dumping of VSS. Rather, there is a slight rise in the channel voltage level (65 mV typ.) due to the capacitance coupling from inhibit input to channel input or output. Address ...
... transition time, if the transition time is less than 12 ms. When the inhibit signal turns a channel off, there is no change dumping of VSS. Rather, there is a slight rise in the channel voltage level (65 mV typ.) due to the capacitance coupling from inhibit input to channel input or output. Address ...
Calibrating Power Meters with the 5500A /5522A
... Power, voltage, and current Most power meters measure voltage and current separately and display the power value in Watts. Most voltmeters use either electromechanical or analog-to-digital conversion techniques to determine voltage amplitude. Current is measured in amperes (A), which can be measured ...
... Power, voltage, and current Most power meters measure voltage and current separately and display the power value in Watts. Most voltmeters use either electromechanical or analog-to-digital conversion techniques to determine voltage amplitude. Current is measured in amperes (A), which can be measured ...
VISHAY TCLT1 datasheet
... Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of ODSs listed in the following documents. 1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively 2 . Class I and II ozone depleting su ...
... Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of ODSs listed in the following documents. 1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively 2 . Class I and II ozone depleting su ...
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.