MAX1747 Triple Charge-Pump TFT LCD DC-DC Converter General Description
... for TFT LCD applications. The device contains one high-power charge pump and two low-power charge pumps. The MAX1747 charge pumps switch continuously at a constant frequency, so the output noise contains well-defined frequency components, and the circuit requires much smaller external capacitors for ...
... for TFT LCD applications. The device contains one high-power charge pump and two low-power charge pumps. The MAX1747 charge pumps switch continuously at a constant frequency, so the output noise contains well-defined frequency components, and the circuit requires much smaller external capacitors for ...
KB009
... The basic objectives in selecting capacitor fuses are twofold: 1. The fuse must be capable of withstanding steady state and transient currents in order to avoid spurious fuse operations. 2. The fuse must effectively remove a failed or failing capacitor unit from service without causing further damag ...
... The basic objectives in selecting capacitor fuses are twofold: 1. The fuse must be capable of withstanding steady state and transient currents in order to avoid spurious fuse operations. 2. The fuse must effectively remove a failed or failing capacitor unit from service without causing further damag ...
A 40 MHz 70 dB Gain Variable Gain Amplifier Design
... • Considering signal level and power specifications, the bias current in each stage was set to 500 µA; • The gm/ID ratio of the input differential pair and the cross-coupled transistors were set to 8 and 4, respectively, in order to achieve the maximum gain requirement of 24 dB at 40 MHz; • The curr ...
... • Considering signal level and power specifications, the bias current in each stage was set to 500 µA; • The gm/ID ratio of the input differential pair and the cross-coupled transistors were set to 8 and 4, respectively, in order to achieve the maximum gain requirement of 24 dB at 40 MHz; • The curr ...
Chapter17
... Fig. 17-6: Example of circuit calculations with XC. (a) With a single XC, the I = V/XC. (b) Sum of series voltage drops equals the applied voltage VT. (c) Sum of parallel branch currents equals total line current IT. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or ...
... Fig. 17-6: Example of circuit calculations with XC. (a) With a single XC, the I = V/XC. (b) Sum of series voltage drops equals the applied voltage VT. (c) Sum of parallel branch currents equals total line current IT. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or ...
ADC0820 8-Bit High Speed MuP Compatible A/D Converter with
... Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. DC and AC electrical specifications do not apply when operating the device beyond its specified operating conditions. Note 2: All voltages are measured with respect to the GND pin, unless otherwise specifie ...
... Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. DC and AC electrical specifications do not apply when operating the device beyond its specified operating conditions. Note 2: All voltages are measured with respect to the GND pin, unless otherwise specifie ...
Capacitance - La Salle University
... charges on the capacitor, but there is no battery. With no battery to "push" the charges around, the opposite charges on the two capacitor plates would prefer to be together. They must pass through the resistor before they can reunite. With all those like charges on one plate, there is a strong ince ...
... charges on the capacitor, but there is no battery. With no battery to "push" the charges around, the opposite charges on the two capacitor plates would prefer to be together. They must pass through the resistor before they can reunite. With all those like charges on one plate, there is a strong ince ...
CIPOS Mini Inverter module reference board type3 for 3
... IGBT driving. CIPOS™ Mini inverter IPMs can be connected directly to the controller without an external input RC filter due to the internal pull down resistor and input noise filter, as shown in Figure 4. ...
... IGBT driving. CIPOS™ Mini inverter IPMs can be connected directly to the controller without an external input RC filter due to the internal pull down resistor and input noise filter, as shown in Figure 4. ...
Op Amp integrated 8th order Butterworth low pass filter
... The MAX7480 8th-order, lowpass, Butterworth, switched-capacitor filter (SCF) operates from a single +5V supply. The device draws only 2.9mA of supply current and allows corner frequencies from 1Hz to 2kHz, making it ideal for low-power post-DAC filtering and anti-aliasing applications. The MAX7480 f ...
... The MAX7480 8th-order, lowpass, Butterworth, switched-capacitor filter (SCF) operates from a single +5V supply. The device draws only 2.9mA of supply current and allows corner frequencies from 1Hz to 2kHz, making it ideal for low-power post-DAC filtering and anti-aliasing applications. The MAX7480 f ...
What is an oscillator
... The 555 timer is an integrated circuit that can be used in many applications. We will discuss it’s operation as a square wave oscillator. The frequency of output is determined by the external components R1, R2, and C. The formula below shows the relationship. ...
... The 555 timer is an integrated circuit that can be used in many applications. We will discuss it’s operation as a square wave oscillator. The frequency of output is determined by the external components R1, R2, and C. The formula below shows the relationship. ...
Application Considerations for an Instrumentation Lowpass Filter
... was 100μV, although the maximum guaranteed offset of each op amp over temperature would be 400μV. Because the active (R, C) output filter is driven directly from the DC accurate output of the second LTC1062, impedance scaling is used with the resistor R′. The noise and distortion performance of this ...
... was 100μV, although the maximum guaranteed offset of each op amp over temperature would be 400μV. Because the active (R, C) output filter is driven directly from the DC accurate output of the second LTC1062, impedance scaling is used with the resistor R′. The noise and distortion performance of this ...
Document
... discharge that can occur through the dielectric material separating the plates In other words, there exists a maximum of the electric field, sometimes called dielectric strength, that can be produced in the dielectric before it breaks down ...
... discharge that can occur through the dielectric material separating the plates In other words, there exists a maximum of the electric field, sometimes called dielectric strength, that can be produced in the dielectric before it breaks down ...
ADS5120 数据资料 dataSheet 下载
... The ADS5120 is an 8-channel, simultaneous sampling ADC. Its low power (100mW/channel) and high sampling rate of 40MSPS is achieved using a state-of-the-art switched capacitor pipeline architecture built on an advanced low-voltage CMOS process. The ADS5120 primarily operates from a +1.8V single suppl ...
... The ADS5120 is an 8-channel, simultaneous sampling ADC. Its low power (100mW/channel) and high sampling rate of 40MSPS is achieved using a state-of-the-art switched capacitor pipeline architecture built on an advanced low-voltage CMOS process. The ADS5120 primarily operates from a +1.8V single suppl ...
CIRCUITS LABORATORY EXPERIMENT 3 AC Circuit Analysis
... becomes negligibly small (i.e. V0 Æ 0). Since low frequency signals are virtually unaffected, a network of this type is called a low-pass filter. It should be noted that many complex circuits comprised of active elements, such as transistors, may be reduced to an equivalent circuit of this type. The ...
... becomes negligibly small (i.e. V0 Æ 0). Since low frequency signals are virtually unaffected, a network of this type is called a low-pass filter. It should be noted that many complex circuits comprised of active elements, such as transistors, may be reduced to an equivalent circuit of this type. The ...
MAX3544EVKIT.pdf
... to 36.15MHz and the span to 1MHz. Set the reference level to 0dBm. Increase the input power of the signal generator until the output level reaches -22dBm. This is the output level that corresponds to approximately 1VP-P output across the IC’s DTVOUT+ and DTVOUT- pins. The voltage gain of the receive ...
... to 36.15MHz and the span to 1MHz. Set the reference level to 0dBm. Increase the input power of the signal generator until the output level reaches -22dBm. This is the output level that corresponds to approximately 1VP-P output across the IC’s DTVOUT+ and DTVOUT- pins. The voltage gain of the receive ...
Gael Hatchue
... An oscilloscope, used to plot the output versus input response — transfer curve — of the amplifier and calculate its gain. In this experiment, both analog and digital oscilloscopes were used. However, digital oscilloscopes are preferable because they can display voltages on the plot, and users have ...
... An oscilloscope, used to plot the output versus input response — transfer curve — of the amplifier and calculate its gain. In this experiment, both analog and digital oscilloscopes were used. However, digital oscilloscopes are preferable because they can display voltages on the plot, and users have ...
AP Physics C Electric Current and Circuits Free Response Problems
... f. On the axes below, graph the current through resistor R2 as a function of time t when switch s is open. ...
... f. On the axes below, graph the current through resistor R2 as a function of time t when switch s is open. ...
EL5174, EL5374
... lines in component video applications. The inputs can be in either single-ended or differential form but the outputs are always in differential form. ...
... lines in component video applications. The inputs can be in either single-ended or differential form but the outputs are always in differential form. ...
Titre aliquando tempo tatum commentum
... XBOX3 TEST STAND AT CERN XBOX3 will use four Medium Power X-band klystrons recombined and compressed to produce a 50 MW power level This smart concept is well adapted to the reliability and affordability we are looking for and it will constitute the basis of our study ...
... XBOX3 TEST STAND AT CERN XBOX3 will use four Medium Power X-band klystrons recombined and compressed to produce a 50 MW power level This smart concept is well adapted to the reliability and affordability we are looking for and it will constitute the basis of our study ...
Low-Noise, Regulated, Negative Charge-Pump Power Supplies for GaAsFET Bias _______________General Description ____________________________Features
... Good layout is important, primarily for good noise performance. 1) Mount all components as close together as possible. 2) Keep traces short to minimize parasitic inductance and capacitance. This includes connections to FB. ...
... Good layout is important, primarily for good noise performance. 1) Mount all components as close together as possible. 2) Keep traces short to minimize parasitic inductance and capacitance. This includes connections to FB. ...
Lab 1: Resistors in series and parallel
... 4. Methods In this session, you will first familiarise yourself with the lab equipment described in Chapter 1 of the background reading. Note that you should set voltages that yield low currents (< 100 mA) for the chosen resistors. ...
... 4. Methods In this session, you will first familiarise yourself with the lab equipment described in Chapter 1 of the background reading. Note that you should set voltages that yield low currents (< 100 mA) for the chosen resistors. ...
TLE2301 EXCALIBUR 3-STATE-OUTPUT WIDE-BANDWIDTH POWER OPERATIONAL AMPLIFIER
... Supply voltage, VCC + (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 V Supply voltage, VCC – (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
... Supply voltage, VCC + (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 V Supply voltage, VCC – (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.