02052_rB
... The High Range Clock is a clock whose frequency corresponds to the rate of charge injection into the preamplifiers and whose amplitude is controlled by the pulser level, which is scaled on the APB to test the APB amplifiers mid range and overload performance. The source of this signal is the DPB and ...
... The High Range Clock is a clock whose frequency corresponds to the rate of charge injection into the preamplifiers and whose amplitude is controlled by the pulser level, which is scaled on the APB to test the APB amplifiers mid range and overload performance. The source of this signal is the DPB and ...
AN10436 TDA8932B/33(B) Class-D audio amplifier Rev. 01 — 12 December 2007 Application note
... The TDA8933(B) device is the low-power version that delivers an output power of 2 × 5 WRMS to 2 × 15 WRMS in a SE configuration or 10 WRMS to 30 WRMS in a BTL configuration. This high efficiency SMA device has been designed to operate without a heat sink and has the flexibility to operate from eithe ...
... The TDA8933(B) device is the low-power version that delivers an output power of 2 × 5 WRMS to 2 × 15 WRMS in a SE configuration or 10 WRMS to 30 WRMS in a BTL configuration. This high efficiency SMA device has been designed to operate without a heat sink and has the flexibility to operate from eithe ...
MAX1146–MAX1149 Multichannel, True-Differential, Serial, 14-Bit ADCs General Description
... Note 1: Tested at VDD = 3.0V (MAX1147/MAX1149) or 5.0V(MAX1146/MAX1148); VCOM = 0; unipolar single-ended input mode. Note 2: Relative accuracy is the deviation of the analog value at any code from its theoretical value after the full-scale range has been calibrated. Note 3: Offset nulled. Measured w ...
... Note 1: Tested at VDD = 3.0V (MAX1147/MAX1149) or 5.0V(MAX1146/MAX1148); VCOM = 0; unipolar single-ended input mode. Note 2: Relative accuracy is the deviation of the analog value at any code from its theoretical value after the full-scale range has been calibrated. Note 3: Offset nulled. Measured w ...
J. Santiago-Gonzalez, K.M. Elbaggari, K.K. Afridi and D.J. Perreault, “Design of Class E Resonant Rectifiers and Diode Evaluation for VHF Power Conversion,” IEEE Transactions on Power Electronics, Vol.30, No. 9, pp. 4960-4972, 2015.
... systems [5,6]. In many of these applications, it is desirable for the rectifier to appear as a resistive load at its ac input port. For example, in some very-high-frequency dc-dc converters, proper operation of the inverter portion of the circuit can depend upon maintaining resistive (but possibly v ...
... systems [5,6]. In many of these applications, it is desirable for the rectifier to appear as a resistive load at its ac input port. For example, in some very-high-frequency dc-dc converters, proper operation of the inverter portion of the circuit can depend upon maintaining resistive (but possibly v ...
6 GHz Ultrahigh Dynamic Range Differential Amplifier ADL5565
... through a pin strappable configuration. For the single-ended input configuration, the gains are reduced to 5.3 dB, 10.3 dB, and 13 dB. Using two external series resistors expands the gain flexibility of the amplifier and allows for any gain selection from 0 dB to 15.5 dB for a differential input and ...
... through a pin strappable configuration. For the single-ended input configuration, the gains are reduced to 5.3 dB, 10.3 dB, and 13 dB. Using two external series resistors expands the gain flexibility of the amplifier and allows for any gain selection from 0 dB to 15.5 dB for a differential input and ...
Final Report - University of Portland
... they consume about ten times less power. Incandescent lights waste energy by converting more of their consumed power into heat, while fluorescents achieve higher efficiency by converting a greater percentage of consumed power into light. The remainder of this document describes the design process, p ...
... they consume about ten times less power. Incandescent lights waste energy by converting more of their consumed power into heat, while fluorescents achieve higher efficiency by converting a greater percentage of consumed power into light. The remainder of this document describes the design process, p ...
BASIC ELECTRIC AND MAGNETIC CIRCUITS
... The second of Kirchhoff’s fundamental laws states that the sum of the voltages around any loop of a circuit at any instant is zero. This is known as Kirchhoff’s voltage law (KVL). Just as was the case for Kirchhoff’s current law, there are alternative, but equivalent, ways of stating KVL. We can, fo ...
... The second of Kirchhoff’s fundamental laws states that the sum of the voltages around any loop of a circuit at any instant is zero. This is known as Kirchhoff’s voltage law (KVL). Just as was the case for Kirchhoff’s current law, there are alternative, but equivalent, ways of stating KVL. We can, fo ...
A Theory of High-Frequency Distortion in Bipolar Transistors , Member, IEEE
... [16]–[20]. Studies have also been undertaken to examine the distortion behavior of other important microwave devices; for example, Pedro et al. [21]–[23] recently examined distortion in metal–semiconductor field-effect transistors (MESFETs). Despite all of these investigations, a general description ...
... [16]–[20]. Studies have also been undertaken to examine the distortion behavior of other important microwave devices; for example, Pedro et al. [21]–[23] recently examined distortion in metal–semiconductor field-effect transistors (MESFETs). Despite all of these investigations, a general description ...
NFC110 - Master Meter
... Short is when the button is pressed and released in less than 0.5 second Long is when it is kept pressed for more than 5 seconds All other durations are ignored NOTE: The UP button will not change the value if the settings are locked. ...
... Short is when the button is pressed and released in less than 0.5 second Long is when it is kept pressed for more than 5 seconds All other durations are ignored NOTE: The UP button will not change the value if the settings are locked. ...
Lab03_La_Juan
... Part 2: Using the oscilloscope 1. Connect the function generator to the oscilloscope by connecting the red output to red input on the oscilloscope and black out put to black input. 2. Set the frequency dial on the function generator to about 0.9, the waveform to sine, the multiplier to X100, the amp ...
... Part 2: Using the oscilloscope 1. Connect the function generator to the oscilloscope by connecting the red output to red input on the oscilloscope and black out put to black input. 2. Set the frequency dial on the function generator to about 0.9, the waveform to sine, the multiplier to X100, the amp ...
AP3598A Description A Product Line of
... The AP3598A is a dual-phase synchronous-rectified buck controller designed to deliver high quality output voltage for high power applications. The IC is capable of delivering up to 60A output current with embedded bootstrapped drivers that support 12V+12V driver capability. The built-in bootstrap di ...
... The AP3598A is a dual-phase synchronous-rectified buck controller designed to deliver high quality output voltage for high power applications. The IC is capable of delivering up to 60A output current with embedded bootstrapped drivers that support 12V+12V driver capability. The built-in bootstrap di ...
INTEGRATED CIRCUITS
... Multiple Voltage Bi-Directional Translation The channel pass transistors are constructed such that the gate of the reference transistor (GREF) pin is used to limit the maximum high voltage that will be passed by the device. This allows the use of different bus voltages on each source to drain channe ...
... Multiple Voltage Bi-Directional Translation The channel pass transistors are constructed such that the gate of the reference transistor (GREF) pin is used to limit the maximum high voltage that will be passed by the device. This allows the use of different bus voltages on each source to drain channe ...
AN123 - Application and Optimization of a 2GHz Differential Amplifier/ADC Driver
... injection and recover before the next switch movement to minimize signal degradation. In the ADC driver, this implies good transient response and wide bandwidth relative to the ADC’s sampling frequency. ...
... injection and recover before the next switch movement to minimize signal degradation. In the ADC driver, this implies good transient response and wide bandwidth relative to the ADC’s sampling frequency. ...
Application Note AN-55 HiperLCS Family
... VBULK_NOM, and the HiperLCS will not start-up at nominal input voltage. If VBROWNOUT is below this range, the VOV_RESTART point will be below VBULK_NOM, and the HiperLCS will not restart after a voltage swell event that triggers VOV_SHUT. For maximum hold-up time, set VBROWNOUT to 65% of VBULK_NOM. ...
... VBULK_NOM, and the HiperLCS will not start-up at nominal input voltage. If VBROWNOUT is below this range, the VOV_RESTART point will be below VBULK_NOM, and the HiperLCS will not restart after a voltage swell event that triggers VOV_SHUT. For maximum hold-up time, set VBROWNOUT to 65% of VBULK_NOM. ...
ADS1605 数据资料 dataSheet 下载
... and passband ripple is less than ±0.0025dB (to 2.2MHz). Both devices offer the same outstanding performance at these speeds with a signal-to-noise ratio up to 88dB, total harmonic distortion down to −99dB, and a spurious-free dynamic range up to 101dB. For even higher-speed operation, the data rate ...
... and passband ripple is less than ±0.0025dB (to 2.2MHz). Both devices offer the same outstanding performance at these speeds with a signal-to-noise ratio up to 88dB, total harmonic distortion down to −99dB, and a spurious-free dynamic range up to 101dB. For even higher-speed operation, the data rate ...
HIP4081 Application notes
... 8VDC to 80VDC busses for driving N-channel MOSFET HBridges. The HIP408X family, packaged in both 20 pin DIP and 20 pin SOIC DIPs, provide peak gate current drive of 2.5A. A combination of bootstrap and charge-pumping techniques is used to power the circuitry which drives the upper halves of the H-Br ...
... 8VDC to 80VDC busses for driving N-channel MOSFET HBridges. The HIP408X family, packaged in both 20 pin DIP and 20 pin SOIC DIPs, provide peak gate current drive of 2.5A. A combination of bootstrap and charge-pumping techniques is used to power the circuitry which drives the upper halves of the H-Br ...
Physics Lab Manual 2016
... 1. First of all we take an AC power and connect it with a transformer 0f 220V. 2. We will take four diodes and and placed two diodes as forward biased and two as reversed biased. 3. After this we will take a resistor and connect its one side with a cathode side of diode and placed the other side of ...
... 1. First of all we take an AC power and connect it with a transformer 0f 220V. 2. We will take four diodes and and placed two diodes as forward biased and two as reversed biased. 3. After this we will take a resistor and connect its one side with a cathode side of diode and placed the other side of ...
Operational amplifier
An operational amplifier (""op-amp"") is a DC-coupled high-gain electronic voltage amplifier with a differential input and, usually, a single-ended output. In this configuration, an op-amp produces an output potential (relative to circuit ground) that is typically hundreds of thousands of times larger than the potential difference between its input terminals.Operational amplifiers had their origins in analog computers, where they were used to do mathematical operations in many linear, non-linear and frequency-dependent circuits. The popularity of the op-amp as a building block in analog circuits is due to its versatility. Due to negative feedback, the characteristics of an op-amp circuit, its gain, input and output impedance, bandwidth etc. are determined by external components and have little dependence on temperature coefficients or manufacturing variations in the op-amp itself.Op-amps are among the most widely used electronic devices today, being used in a vast array of consumer, industrial, and scientific devices. Many standard IC op-amps cost only a few cents in moderate production volume; however some integrated or hybrid operational amplifiers with special performance specifications may cost over $100 US in small quantities. Op-amps may be packaged as components, or used as elements of more complex integrated circuits.The op-amp is one type of differential amplifier. Other types of differential amplifier include the fully differential amplifier (similar to the op-amp, but with two outputs), the instrumentation amplifier (usually built from three op-amps), the isolation amplifier (similar to the instrumentation amplifier, but with tolerance to common-mode voltages that would destroy an ordinary op-amp), and negative feedback amplifier (usually built from one or more op-amps and a resistive feedback network).