MAX13170E +5V Multiprotocol, 3Tx/3Rx, Software- Selectable Clock/Data Transceiver General Description
... The MAX13170E is a three-driver/three-receiver multiprotocol transceiver that operates from a +5V single supply. The MAX13170E, along with the MAX13172E and the MAX13174E, form a complete software-selectable data terminal equipment (DTE) or data communication equipment (DCE) interface port that supp ...
... The MAX13170E is a three-driver/three-receiver multiprotocol transceiver that operates from a +5V single supply. The MAX13170E, along with the MAX13172E and the MAX13174E, form a complete software-selectable data terminal equipment (DTE) or data communication equipment (DCE) interface port that supp ...
Institutionen för systemteknik Department of Electrical Engineering Harvested Stray Electric Field Energy
... temperatures and at the same time be able to produce accurate results with short reaction time as well as being small in physical size and have a low power consumption. As a wireless system with the main task of monitoring the occurrence of some events in areas that are hard to get reach, a desirabl ...
... temperatures and at the same time be able to produce accurate results with short reaction time as well as being small in physical size and have a low power consumption. As a wireless system with the main task of monitoring the occurrence of some events in areas that are hard to get reach, a desirabl ...
AN-116 Use the LM158/LM258/LM358 Dual
... RL could also be returned to the positive supply with the advantage that Vo max would never exceed (VS − 1.5V). Then with ±15V supplies RL MIN would be 0.12 RF. The disadvantage would be that the LM358 can source twice as much current as it can sink, therefore RL to negative supply can be one-half t ...
... RL could also be returned to the positive supply with the advantage that Vo max would never exceed (VS − 1.5V). Then with ±15V supplies RL MIN would be 0.12 RF. The disadvantage would be that the LM358 can source twice as much current as it can sink, therefore RL to negative supply can be one-half t ...
UCC2808A-1Q1 数据资料 dataSheet 下载
... the two outputs, along with a slower output rise time than fall time, insures that the two outputs can not be on at the same time. This dead time is typically 60 ns to 200 ns and depends upon the values of the timing capacitor and resistor. The high-current-output drivers consist of MOSFET output de ...
... the two outputs, along with a slower output rise time than fall time, insures that the two outputs can not be on at the same time. This dead time is typically 60 ns to 200 ns and depends upon the values of the timing capacitor and resistor. The high-current-output drivers consist of MOSFET output de ...
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67am, g él/éhw
... FIG. 1) to produce a positive pulse coincident with the front edge of the signal (FIG. 10, wave form I). The The output of photocell 72 which scans the sprocket positive pulse so produced triggers a control system 109 holes 55 is fed to a pulse generating circuit 82, to be having a square wave outpu ...
... FIG. 1) to produce a positive pulse coincident with the front edge of the signal (FIG. 10, wave form I). The The output of photocell 72 which scans the sprocket positive pulse so produced triggers a control system 109 holes 55 is fed to a pulse generating circuit 82, to be having a square wave outpu ...
AD8137 (Rev. E)
... common-mode feedback architecture allows its output commonmode voltage to be controlled by the voltage applied to one pin. The internal feedback loop also provides inherently balanced outputs as well as suppression of even-order harmonic distortion products. Fully differential and single-ended-to-di ...
... common-mode feedback architecture allows its output commonmode voltage to be controlled by the voltage applied to one pin. The internal feedback loop also provides inherently balanced outputs as well as suppression of even-order harmonic distortion products. Fully differential and single-ended-to-di ...
MAX2059 1700MHz to 2200MHz High-Linearity, SPI-Controlled DVGA with Integrated Loopback Mixer General Description
... (DVGA) is designed to provide 56dB of total gain range and typical output IP3 and output P1dB levels of +31.8dBm and +18.4dBm, respectively. The device is ideal for a variety of applications, including single and multicarrier 1700MHz to 2200MHz DCS 1800/PCS 1900 EDGE, cdma2000®, WCDMA/UMTS, and TD-S ...
... (DVGA) is designed to provide 56dB of total gain range and typical output IP3 and output P1dB levels of +31.8dBm and +18.4dBm, respectively. The device is ideal for a variety of applications, including single and multicarrier 1700MHz to 2200MHz DCS 1800/PCS 1900 EDGE, cdma2000®, WCDMA/UMTS, and TD-S ...
Resonant Circuits (Power Point)
... In the following example, three cases for the about transfer function will be considered. We will keep wo the same for all three cases. The numerator gain,k, will (a) first be set k to 2 for the three cases, then (b) the value of k will be set so that each response is 1 at resonance. ...
... In the following example, three cases for the about transfer function will be considered. We will keep wo the same for all three cases. The numerator gain,k, will (a) first be set k to 2 for the three cases, then (b) the value of k will be set so that each response is 1 at resonance. ...
299 8.1 COMBINED ANALOG/DIGITAL COMPUTING ELEMENTS
... product XY is now expressed as the sum of four products. At first this may not ~eem to be a very elegant solution but it will soon become apparent The hybrid computing system described employs that the circuits required for the individual multiplier elements are relatively simple and that only pure ...
... product XY is now expressed as the sum of four products. At first this may not ~eem to be a very elegant solution but it will soon become apparent The hybrid computing system described employs that the circuits required for the individual multiplier elements are relatively simple and that only pure ...
MAX16841 Controller IC for Dimmable Offline LED Lamps EVALUATION KIT AVAILABLE General Description
... buck configuration, the VTH falling threshold should be set in such a way so that the input voltage exceeds the maximum forward voltage of the LED string. In the case of the buck-boost or flyback configuration, this threshold can be set lower. The device also uses a proprietary current-sense scheme ...
... buck configuration, the VTH falling threshold should be set in such a way so that the input voltage exceeds the maximum forward voltage of the LED string. In the case of the buck-boost or flyback configuration, this threshold can be set lower. The device also uses a proprietary current-sense scheme ...
Unique design accomplishes superb performance.
... Width is 17-1/2" (44.45cm) Height is 6" (15.24cm) including feet Depth is 24" (61.00cm) including the Front Panel, Knobs and interconnect cables* Overall Dimensions C500P: Width is 17-1/2" (44.45cm) Height is 6" (15.24cm) including feet Depth is 23" (58.42cm) including the Front Panel and interc ...
... Width is 17-1/2" (44.45cm) Height is 6" (15.24cm) including feet Depth is 24" (61.00cm) including the Front Panel, Knobs and interconnect cables* Overall Dimensions C500P: Width is 17-1/2" (44.45cm) Height is 6" (15.24cm) including feet Depth is 23" (58.42cm) including the Front Panel and interc ...
Regenerative circuit
The regenerative circuit (or regen) allows an electronic signal to be amplified many times by the same active device. It consists of an amplifying vacuum tube or transistor with its output connected to its input through a feedback loop, providing positive feedback. This circuit was widely used in radio receivers, called regenerative receivers, between 1915 and World War II. The regenerative receiver was invented in 1912 and patented in 1914 by American electrical engineer Edwin Armstrong when he was an undergraduate at Columbia University. Due partly to its tendency to radiate interference, by the 1930s the regenerative receiver was superseded by other receiver designs, the TRF and superheterodyne receivers and became obsolete, but regeneration (now called positive feedback) is widely used in other areas of electronics, such as in oscillators and active filters. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the superregenerative receiver, was invented by Armstrong in 1922. It was never widely used in general receivers, but due to its small parts count is used in a few specialized low data rate applications, such as garage door openers, wireless networking devices, walkie-talkies and toys.