TGA4826-SM 数据资料DataSheet下载
... The TriQuint TGA4826-SM is an addition to TriQuint’s portfolio of optical driver amplifiers suitable for a variety of optical network applications. ...
... The TriQuint TGA4826-SM is an addition to TriQuint’s portfolio of optical driver amplifiers suitable for a variety of optical network applications. ...
Digital-to-Analog Conversion PWM PWM
... Digital Outputs do not provide sufficient current to drive anything other than output signals to other electronics. Digital outputs can be “amplified” to turn on devices that require high currents. Mechanical/solid-state relays or Transistors can be used as electrically-controlled switches… Electrom ...
... Digital Outputs do not provide sufficient current to drive anything other than output signals to other electronics. Digital outputs can be “amplified” to turn on devices that require high currents. Mechanical/solid-state relays or Transistors can be used as electrically-controlled switches… Electrom ...
LED Driver Xitanium SR 40W 0.10-1.1A 54V SR XI040C110V054VPT1
... Adjustable Output Current (AOC) Info: LED current tolerance with variation of Rset2 is within ± 5% of Imax Rset ...
... Adjustable Output Current (AOC) Info: LED current tolerance with variation of Rset2 is within ± 5% of Imax Rset ...
Logic Gates MES
... appliances, which they would otherwise be unable to run. It also protects the user from the dangerously high mains voltage. Some electronic control systems do have their own output device. This serves as an indicator, clearly showing the user the logic state of the circuit. 23 of 33 ...
... appliances, which they would otherwise be unable to run. It also protects the user from the dangerously high mains voltage. Some electronic control systems do have their own output device. This serves as an indicator, clearly showing the user the logic state of the circuit. 23 of 33 ...
Buck Current/Voltage Fed Push-Pull PWM Controllers
... to Fig. 1, the synchronization threshold is 1.4V. The oscillator blanks any synchronization pulse that occurs when OSC is below 2.5V. This allows units, once they discharge below 2.5V, to continue through the current discharge and subsequent charge cycles whether or not other units on the CLKSYN bus ...
... to Fig. 1, the synchronization threshold is 1.4V. The oscillator blanks any synchronization pulse that occurs when OSC is below 2.5V. This allows units, once they discharge below 2.5V, to continue through the current discharge and subsequent charge cycles whether or not other units on the CLKSYN bus ...
EE 231 _lect_07
... an element in a linear circuits is the algebraic sum of the voltage across (or current through) that element due to each independent source acting alone. Step to apply: 1- Turn off all independent sources except one source. Find the required (voltage or current) due to that active source. Current So ...
... an element in a linear circuits is the algebraic sum of the voltage across (or current through) that element due to each independent source acting alone. Step to apply: 1- Turn off all independent sources except one source. Find the required (voltage or current) due to that active source. Current So ...
Objective bits
... 4). Triggering of the signal in CRO is done to get true representation of input signal 5). The type of electron emission that takes place in a CRT is thermionic emission 6). Scale markings provided on the front side of the CRT screen are called graticules 7). The control knob level in a CRO is used ...
... 4). Triggering of the signal in CRO is done to get true representation of input signal 5). The type of electron emission that takes place in a CRT is thermionic emission 6). Scale markings provided on the front side of the CRT screen are called graticules 7). The control knob level in a CRO is used ...
In a series circuit
... • Do you know the rules for current in a circuit series • Do you know the rules for voltage in a circuit series? • Can you explain why this happens • Can you explain the difference between repeatability and reproducibility? • Can you explain the difference between accurate and precise data ...
... • Do you know the rules for current in a circuit series • Do you know the rules for voltage in a circuit series? • Can you explain why this happens • Can you explain the difference between repeatability and reproducibility? • Can you explain the difference between accurate and precise data ...
Solutions - UF Physics
... has no internal resistance, the two lower resistors are in parallel, i.e. the voltages across each of them are the same. This is also true for the two resistors on top. Since the two lower resistors have the same resistance, the fact that the have the same voltage implies that they also carry the sa ...
... has no internal resistance, the two lower resistors are in parallel, i.e. the voltages across each of them are the same. This is also true for the two resistors on top. Since the two lower resistors have the same resistance, the fact that the have the same voltage implies that they also carry the sa ...
BP5039A
... scope or not in accordance with the instruction manual. The Products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk ...
... scope or not in accordance with the instruction manual. The Products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk ...
L6452
... measuring the voltage drop across it. Since high - end printers have two heads, it must also be possible to switch quickly the measurement process from one to the other. The function is foreseen to be integrated into the head driver, and is described hereafter. ...
... measuring the voltage drop across it. Since high - end printers have two heads, it must also be possible to switch quickly the measurement process from one to the other. The function is foreseen to be integrated into the head driver, and is described hereafter. ...
Dual Output Power Supply Sequencing for High
... enable pin; once the voltage on the pin reaches approximately 1.2V, the device is enabled. The SS/ENA pin and the internal slow start voltages are compared and the lower of the two voltages is coupled to the error amplifier. External slow start capacitor values lower than 0.02mF correspond to slow s ...
... enable pin; once the voltage on the pin reaches approximately 1.2V, the device is enabled. The SS/ENA pin and the internal slow start voltages are compared and the lower of the two voltages is coupled to the error amplifier. External slow start capacitor values lower than 0.02mF correspond to slow s ...
1. 555 Timer (20 points)
... a) If you perform AC Sweep of the voltages at points A and B, illustrate both traces in the space below where the resonance frequency fo is 40 kHz (please label the traces A and B, respectively). 6 points Voltage 200 mV ...
... a) If you perform AC Sweep of the voltages at points A and B, illustrate both traces in the space below where the resonance frequency fo is 40 kHz (please label the traces A and B, respectively). 6 points Voltage 200 mV ...
power amplifier design for the 2.11 ghz-2.17 ghz wcdma
... as simple as possible. Although the GaAs FET FLL101ME from Fujitsu is being chosen for the amplifier, it should be understood that the design procedures demonstrated here are applicable to other GaAs FET. ...
... as simple as possible. Although the GaAs FET FLL101ME from Fujitsu is being chosen for the amplifier, it should be understood that the design procedures demonstrated here are applicable to other GaAs FET. ...
Power electronics
Power electronics is the application of solid-state electronics to the control and conversion of electric power. It also refers to a subject of research in electronic and electrical engineering which deals with the design, control, computation and integration of nonlinear, time-varying energy-processing electronic systems with fast dynamics.The first high power electronic devices were mercury-arc valves. In modern systems the conversion is performed with semiconductor switching devices such as diodes, thyristors and transistors, pioneered by R. D. Middlebrook and others beginning in the 1950s. In contrast to electronic systems concerned with transmission and processing of signals and data, in power electronics substantial amounts of electrical energy are processed. An AC/DC converter (rectifier) is the most typical power electronics device found in many consumer electronic devices, e.g. television sets, personal computers, battery chargers, etc. The power range is typically from tens of watts to several hundred watts. In industry a common application is the variable speed drive (VSD) that is used to control an induction motor. The power range of VSDs start from a few hundred watts and end at tens of megawatts.The power conversion systems can be classified according to the type of the input and output power AC to DC (rectifier) DC to AC (inverter) DC to DC (DC-to-DC converter) AC to AC (AC-to-AC converter)