LT5557 - 400MHz to 3.8GHz 3.3V Active Downconverting Mixer.
... Enable Voltage..................................–0.3V to VCC + 0.3V LO Input Power (380MHz to 4.2GHz).................. +10dBm LO Input DC Voltage................................ –1V to VCC + 1V RF Input Power (400MHz to 3.8GHz).................. +15dBm Continuous RF Input Power (400MHz to 3.8GHz).. ...
... Enable Voltage..................................–0.3V to VCC + 0.3V LO Input Power (380MHz to 4.2GHz).................. +10dBm LO Input DC Voltage................................ –1V to VCC + 1V RF Input Power (400MHz to 3.8GHz).................. +15dBm Continuous RF Input Power (400MHz to 3.8GHz).. ...
A Digitally Controlled Oscillator System for SAW
... voltage headroom, low inductor , and reduced gate oxide reliability. Furthermore, to eliminate transmitter (TX) surfaceacoustic-wave (SAW) filters, the stringent requirement such as GSM TX noise emission in receiver (RX) bands is now directly applied to the TX local oscillator (LO). To alleviate the ...
... voltage headroom, low inductor , and reduced gate oxide reliability. Furthermore, to eliminate transmitter (TX) surfaceacoustic-wave (SAW) filters, the stringent requirement such as GSM TX noise emission in receiver (RX) bands is now directly applied to the TX local oscillator (LO). To alleviate the ...
Comparison Study of Singly-Fed Electric Machine with Doubly
... excessive copper losses, resulting in lower energy efficiency and overheat problems. The higher speed and larger demagnetizing current the more copper losses and lower efficiency, and at the more reduced torque. For IM in the higher speed flux weakening operation, the situation is similar except tha ...
... excessive copper losses, resulting in lower energy efficiency and overheat problems. The higher speed and larger demagnetizing current the more copper losses and lower efficiency, and at the more reduced torque. For IM in the higher speed flux weakening operation, the situation is similar except tha ...
Neptune - Simplex
... acquisition. V2.0 is designed for local or remote control, including multi-station control, using a standard digital, color touchscreen HMI. Remote control connection is simplified through use of RS-485 over shielded/twisted pair network cable (1000m). Local/remote HMI is housed in a weather/tamper ...
... acquisition. V2.0 is designed for local or remote control, including multi-station control, using a standard digital, color touchscreen HMI. Remote control connection is simplified through use of RS-485 over shielded/twisted pair network cable (1000m). Local/remote HMI is housed in a weather/tamper ...
Alberta Reliability Standard Cyber Security – BES Cyber System Categorization CIP-002-AB-5.1
... commissioned generation, by each group of generating units or aggregated generating facilities at a single plant location, with an aggregate highest rated net maximum authorized real power capabilityrating of each of the preceding 12 monthsgenerating units minus the station service load equal to or ...
... commissioned generation, by each group of generating units or aggregated generating facilities at a single plant location, with an aggregate highest rated net maximum authorized real power capabilityrating of each of the preceding 12 monthsgenerating units minus the station service load equal to or ...
lecture1431325554
... control for multi-machine system, reliability evaluation, operation in competitive environment, are important factors in operation and control of the power system. Generation, transmission, distribution, and loads make up the fundamental structure of a power system. Generators, substations, transmis ...
... control for multi-machine system, reliability evaluation, operation in competitive environment, are important factors in operation and control of the power system. Generation, transmission, distribution, and loads make up the fundamental structure of a power system. Generators, substations, transmis ...
P. Cantillon-Murphy, T.C. Neugebauer, C. Brasca, and D.J. Perreault, “An Active Ripple Filtering Technique for Improving Common-Mode Inductor Performance,” IEEE Power Electronics Letters , Vol. 2, No. 2, June 2004, pp. 45-50.
... The choke should be capable of carrying a dc current of 20 A with a ripple voltage whose amplitude does not exceed 50 mV. It should present a common-mode impedance of greater than 1 to the windshield antenna over the entire AM range. This requires a minimum common-mode inductance of 1 mH, in order t ...
... The choke should be capable of carrying a dc current of 20 A with a ripple voltage whose amplitude does not exceed 50 mV. It should present a common-mode impedance of greater than 1 to the windshield antenna over the entire AM range. This requires a minimum common-mode inductance of 1 mH, in order t ...
TGA2512 数据资料DataSheet下载
... The TGA2512 is designed for maximum ease of use. The large input FETs can handle up to 21dBm input power reliably, while the build-in gain control provides 15dB of typical gain control range. The part is also assembled in self-biased mode, using a single +5V supply connection from either side of the ...
... The TGA2512 is designed for maximum ease of use. The large input FETs can handle up to 21dBm input power reliably, while the build-in gain control provides 15dB of typical gain control range. The part is also assembled in self-biased mode, using a single +5V supply connection from either side of the ...
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.