The RLC Circuit
... a) With the AC power supply unplugged and OFF, set up a circuit as in Fig. 4, using resistance R1 ~ 4,000Ω from your sample. Record its exact value. You should know how to use the AC power supply and the AC multimeter from Exp.26 but, if you do not, check with your instructor. Set the frequency at f ...
... a) With the AC power supply unplugged and OFF, set up a circuit as in Fig. 4, using resistance R1 ~ 4,000Ω from your sample. Record its exact value. You should know how to use the AC power supply and the AC multimeter from Exp.26 but, if you do not, check with your instructor. Set the frequency at f ...
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. ...
AMS1505V 数据手册DataSheet 下载
... 0.65°C/W and junction temperature of the Control section can run up to 125°C. The thermal resistance of the Power section is given as 2.7°C/W and junction temperature of the Power section can run up to 150°C. Due to the thermal gradients between the power transistor and the control circuitry there i ...
... 0.65°C/W and junction temperature of the Control section can run up to 125°C. The thermal resistance of the Power section is given as 2.7°C/W and junction temperature of the Power section can run up to 150°C. Due to the thermal gradients between the power transistor and the control circuitry there i ...
doc - STAO
... - ONE bulb, the voltage drop across the bulb is about ____ the voltage drop across the source - TWO identical bulbs, the voltage drop across each bulb is about ____ the voltage drop across the source. ...
... - ONE bulb, the voltage drop across the bulb is about ____ the voltage drop across the source - TWO identical bulbs, the voltage drop across each bulb is about ____ the voltage drop across the source. ...
LIA135 / LIA136 - IXYS Integrated Circuits Division
... pin through a current limiting resistor. Typically, this resistor’s voltage source is VOUT, the regulated power supply output. For very low voltage designs where VOUT lacks sufficient headroom to bias the input circuitry, the resistor may be sourced from an auxiliary secondary winding on the transfo ...
... pin through a current limiting resistor. Typically, this resistor’s voltage source is VOUT, the regulated power supply output. For very low voltage designs where VOUT lacks sufficient headroom to bias the input circuitry, the resistor may be sourced from an auxiliary secondary winding on the transfo ...
additional maximum voltage and maximum power transfer conditions
... cases the conditions for maximum power transfer with conjugate impedance matching and the maximum load voltage condition are presented. These are based on an analytic solution to the problem of stability limits of radial transmission circuits with inter-nodal constraints as shown in Figure 1 where m ...
... cases the conditions for maximum power transfer with conjugate impedance matching and the maximum load voltage condition are presented. These are based on an analytic solution to the problem of stability limits of radial transmission circuits with inter-nodal constraints as shown in Figure 1 where m ...
MAX2601/MAX2602 3.6V, 1W RF Power Transistors for 900MHz Applications General Description
... biasing diode that matches the power transistor’s thermal and process characteristics. This diode is used to create a bias network that accurately controls the power transistor’s collector current as the temperature changes (Figure 2). The biasing diode is a scaled version of the power transistor’s ...
... biasing diode that matches the power transistor’s thermal and process characteristics. This diode is used to create a bias network that accurately controls the power transistor’s collector current as the temperature changes (Figure 2). The biasing diode is a scaled version of the power transistor’s ...
2N4124/MMBT4124 NPN General Purpose Amplifier
... NPN General Purpose Amplifier This device is designed as a general purpose amplifier and switch. The useful dynamic range extends to 100 mA as a switch and to 100 MHz as an amplifier. ...
... NPN General Purpose Amplifier This device is designed as a general purpose amplifier and switch. The useful dynamic range extends to 100 mA as a switch and to 100 MHz as an amplifier. ...
722-4017-E00 MOP Analog Input Modules MOP-XXAI-X
... Individual inputs may be configured as Single Ended Voltage or Single Ended Current. Input pairs may be configured as Differential Voltage or Differential Current. The input configuration is determined by the DIP switches. There are 3 DIP switches for each input pair. The input pairs and correspondi ...
... Individual inputs may be configured as Single Ended Voltage or Single Ended Current. Input pairs may be configured as Differential Voltage or Differential Current. The input configuration is determined by the DIP switches. There are 3 DIP switches for each input pair. The input pairs and correspondi ...
General notes on duplexers
... effectively zero. Because the diodes have the inherent forward voltage drop of typically 0.6V to 1V any noise at the output of the off state power amp will not pass through the diodes and thus will not interfere with the receive signal. Slight distortion of the transmit pulse occurs near zero for th ...
... effectively zero. Because the diodes have the inherent forward voltage drop of typically 0.6V to 1V any noise at the output of the off state power amp will not pass through the diodes and thus will not interfere with the receive signal. Slight distortion of the transmit pulse occurs near zero for th ...
Analysis and Design of DC
... drive signal and the driver’s power source. The drive signal can be isolated using an opto-coupler or a transformer and the high-side power supply can range from a conventional forward converter solution to designated topologies such as [5]. A common implementation that eliminates the need for a hig ...
... drive signal and the driver’s power source. The drive signal can be isolated using an opto-coupler or a transformer and the high-side power supply can range from a conventional forward converter solution to designated topologies such as [5]. A common implementation that eliminates the need for a hig ...
NERTEC NCTR 801™ Itron SENTINEL
... samplng technique samples each incoming current and voltage waveform 32 times per cycle (60Hz), Voltage and current values are calculated every two cycles using true Root Mean Square (RMS) calculation, Volt-amperes are calculated by multiplying the RMS voltage value with the RMS current value, thus ...
... samplng technique samples each incoming current and voltage waveform 32 times per cycle (60Hz), Voltage and current values are calculated every two cycles using true Root Mean Square (RMS) calculation, Volt-amperes are calculated by multiplying the RMS voltage value with the RMS current value, thus ...
Appendix 2
... (functions) Put Single Value and Get Single Value (see Fig.5). The configuration will be done by a control word transmitted between the terminals hSubsys. One of the configured channels can be selected with the channel number at the input terminal Channel using an integer number. The terminal Value ...
... (functions) Put Single Value and Get Single Value (see Fig.5). The configuration will be done by a control word transmitted between the terminals hSubsys. One of the configured channels can be selected with the channel number at the input terminal Channel using an integer number. The terminal Value ...
Output Devices
... When the door is closed the magnet is close to the reed relay and switch S is open. When the door is opened, the magnet moves away from the relay, causing switch S to close setting off the alarm. ...
... When the door is closed the magnet is close to the reed relay and switch S is open. When the door is opened, the magnet moves away from the relay, causing switch S to close setting off the alarm. ...
Evaluates: MAX1774 MAX1774 Evaluation Kit General Description Features
... MAX1774 shutdown current to less than 8µA (typ) are provided for the main and core outputs. Power to the core input can be fed from the main output (VMAIN) or an external voltage source. The available main output load current will be reduced by the amount of current drawn by the core converter (VCOR ...
... MAX1774 shutdown current to less than 8µA (typ) are provided for the main and core outputs. Power to the core input can be fed from the main output (VMAIN) or an external voltage source. The available main output load current will be reduced by the amount of current drawn by the core converter (VCOR ...
Lecture Notes - Signals and Spectra File
... These waveforms satisfy the following conditions • The waveform has significant nonzero values over a composite time interval that is finite. • The spectrum of the waveform has significant values over a composite frequency interval that is finite • The waveform is a continuous function of time • T ...
... These waveforms satisfy the following conditions • The waveform has significant nonzero values over a composite time interval that is finite. • The spectrum of the waveform has significant values over a composite frequency interval that is finite • The waveform is a continuous function of time • T ...
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)