MAX5073 2.2MHz, Dual-Output Buck or Boost Converter with Internal Power MOSFETs General Description
... 5.5V to 23V input voltage range. Each output is programmable down to 0.8V in the buck mode and up to 28V in the boost mode with an output voltage accuracy of ±1%. In the buck mode, converter 1 and converter 2 can deliver 2A and 1A, respectively. The output switching frequency of each converter can b ...
... 5.5V to 23V input voltage range. Each output is programmable down to 0.8V in the buck mode and up to 28V in the boost mode with an output voltage accuracy of ±1%. In the buck mode, converter 1 and converter 2 can deliver 2A and 1A, respectively. The output switching frequency of each converter can b ...
TM-11-5099 - Liberated Manuals
... The direct reporting, by the individual user, of errors, omissions, and recommendations for improving this manual is authorized and encouraged. DA Form 2028 (Recommended changes to DA technical manual parts lists or supply manual 7, 8, or 9) will be used for reporting these improvements. This form w ...
... The direct reporting, by the individual user, of errors, omissions, and recommendations for improving this manual is authorized and encouraged. DA Form 2028 (Recommended changes to DA technical manual parts lists or supply manual 7, 8, or 9) will be used for reporting these improvements. This form w ...
Principles of Electronic Communication Systems
... At high frequencies, a resistor’s leads have inductance. A resistor’s lead inductance and stray capacitance cause the resistor to act like a complex RLC circuit. Tiny resistor chips used in surface mount circuits minimize inductance and stray capacitance. Film resistors minimize thermal effect noise ...
... At high frequencies, a resistor’s leads have inductance. A resistor’s lead inductance and stray capacitance cause the resistor to act like a complex RLC circuit. Tiny resistor chips used in surface mount circuits minimize inductance and stray capacitance. Film resistors minimize thermal effect noise ...
UFC 3-540-01 Engine-Driven Generator Systems for
... contracts. Project conditions may dictate the need for a design that exceeds these minimum requirements. ...
... contracts. Project conditions may dictate the need for a design that exceeds these minimum requirements. ...
LABORATORY MANUAL P242 (Basic Electronics Lab) (2013‐2014)
... and/or an additional band indicating temperature coefficient, in units of ppm/K. For large power resistors and potentiometers, the value is usually written out implicitly as "10 kΩ", for instance. Capacitors: You will mostly use electrolytic and ceramic capacitors for your experiments. Electrolytic ...
... and/or an additional band indicating temperature coefficient, in units of ppm/K. For large power resistors and potentiometers, the value is usually written out implicitly as "10 kΩ", for instance. Capacitors: You will mostly use electrolytic and ceramic capacitors for your experiments. Electrolytic ...
Interconnect Protection of IPP Generators Using Digital Technology
... The Utility Industry Today: Acquisition and Consolidation ...
... The Utility Industry Today: Acquisition and Consolidation ...
Fuel Cell Specification Notes
... (0.5kW to 15kW) 1.0 Scope. This specification covers the technical requirements for general purpose military mobile power sources from 0.5kW to 15kW, with 50/60 Hz AC & DC outputs. Configurations include skid or trailer mounted systems; the power sources are fueled with JP-8 or DoD diesel fuels used ...
... (0.5kW to 15kW) 1.0 Scope. This specification covers the technical requirements for general purpose military mobile power sources from 0.5kW to 15kW, with 50/60 Hz AC & DC outputs. Configurations include skid or trailer mounted systems; the power sources are fueled with JP-8 or DoD diesel fuels used ...
Utility frequency
The utility frequency, (power) line frequency (American English) or mains frequency (British English) is the frequency of the oscillations of alternating current (AC) in an electric power grid transmitted from a power plant to the end-user. In large parts of the world this is 50 Hz, although in the Americas and parts of Asia it is typically 60 Hz. Current usage by country or region is given in the list of mains power around the world.During the development of commercial electric power systems in the late 19th and early 20th centuries, many different frequencies (and voltages) had been used. Large investment in equipment at one frequency made standardization a slow process. However, as of the turn of the 21st century, places that now use the 50 Hz frequency tend to use 220–240 V, and those that now use 60 Hz tend to use 100–127 V. Both frequencies coexist today (Japan uses both) with no great technical reason to prefer one over the other and no apparent desire for complete worldwide standardization.Unless specified by the manufacturer to operate on both 50 and 60 Hz, appliances may not operate efficiently or even safely if used on anything other than the intended frequency.