18-Bit, 1.5 LSB INL, 400 kSPS PulSAR Differential ADC in MSOP/QFN AD7690
... Aperture Delay Aperture delay is the measure of the acquisition performance. It is the time between the rising edge of the CNV input and when the input signal is held for a conversion. ...
... Aperture Delay Aperture delay is the measure of the acquisition performance. It is the time between the rising edge of the CNV input and when the input signal is held for a conversion. ...
OPA2832
... provides an output swing to within 30mV of ground and 60mV of the positive supply. The high output drive current and low differential gain and phase errors also make it ideal for single-supply consumer video products. ...
... provides an output swing to within 30mV of ground and 60mV of the positive supply. The high output drive current and low differential gain and phase errors also make it ideal for single-supply consumer video products. ...
MAX8529 1.5MHz Dual 180° Out-of-Phase PWM Step-Down Controller with POR General Description
... generates two outputs from input supplies ranging from 4.75V to 23V. Each output is adjustable from sub-1V to 18V. Input voltage ripple and total RMS input ripple current are reduced by synchronized 180-degree out-ofphase operation. The switching frequency is adjustable from 600kHz to 1.5MHz with an ...
... generates two outputs from input supplies ranging from 4.75V to 23V. Each output is adjustable from sub-1V to 18V. Input voltage ripple and total RMS input ripple current are reduced by synchronized 180-degree out-ofphase operation. The switching frequency is adjustable from 600kHz to 1.5MHz with an ...
CHAPTER III MICROELECTRONIC DESIGN
... system instead of simulating them, no differential equations should be solved and consumption will be reduced to that needed to maintain these oscillations. Then, the main issue will be whether oscillations are fast enough and the speed of the system should not be measured in operations per second b ...
... system instead of simulating them, no differential equations should be solved and consumption will be reduced to that needed to maintain these oscillations. Then, the main issue will be whether oscillations are fast enough and the speed of the system should not be measured in operations per second b ...
Tuesday - Thursday, July 5
... Solenoid inductance. (a) Determine the formula for the self inductance L of a tightly wrapped solenoid ( a long coil) containing N turns of wire in its length l and whose cross-sectional area is A. (b) Calculate the value of L if N=100, l=5.0cm, A=0.30cm2 and the solenoid is air filled. (c) calculat ...
... Solenoid inductance. (a) Determine the formula for the self inductance L of a tightly wrapped solenoid ( a long coil) containing N turns of wire in its length l and whose cross-sectional area is A. (b) Calculate the value of L if N=100, l=5.0cm, A=0.30cm2 and the solenoid is air filled. (c) calculat ...
Report
... units, all cell outputs may switch except the outputs of M00. At three delay units, the output of M01 stop switching; etc. In short, the outputs of a multiplier cell may switch before n+1 delay units if the longest path from its outputs to the primary inputs is n. So the longest path of a multiplier ...
... units, all cell outputs may switch except the outputs of M00. At three delay units, the output of M01 stop switching; etc. In short, the outputs of a multiplier cell may switch before n+1 delay units if the longest path from its outputs to the primary inputs is n. So the longest path of a multiplier ...
Induct202draft
... the DMM as an ammeter and with the other DMM in parallel as a voltmeter just as you had for the yellow coil). Just as you did in part II, move the bar magnet into and out of the big coil. Look at the current and voltage induced across this coil and calculate the power output (recall P = I*V). Relate ...
... the DMM as an ammeter and with the other DMM in parallel as a voltmeter just as you had for the yellow coil). Just as you did in part II, move the bar magnet into and out of the big coil. Look at the current and voltage induced across this coil and calculate the power output (recall P = I*V). Relate ...
Op Amp Applications - 3DSCO Global Connection
... during a time interval of 1 / 299,792,458 of a second. This speed is a definition, not a measurement. ...
... during a time interval of 1 / 299,792,458 of a second. This speed is a definition, not a measurement. ...
Insulated-Gate Transistors Simplify AC-Motor Speed Control
... The solution? Use fiber-optic components Figure 4 to eliminate the problems completely. As an added feature, this lowcost technique provides physical separation between the power and logic circuitry, thereby eliminating the effects of radiated EMI and high-flux magnetic fields typically found near p ...
... The solution? Use fiber-optic components Figure 4 to eliminate the problems completely. As an added feature, this lowcost technique provides physical separation between the power and logic circuitry, thereby eliminating the effects of radiated EMI and high-flux magnetic fields typically found near p ...
Sketching oscilloscope waveforms on graph
... CH1 horizontal position so that CH1 waveform has peaks at the positions as shown in Graph E4.1 (a). This step is important for Vo waveform to be drawn with respect to VI waveform. Keep the oscilloscope ON all the time because it needs to be warmed up. 3. Sketch the CH2 waveform (Vo) displayed on the ...
... CH1 horizontal position so that CH1 waveform has peaks at the positions as shown in Graph E4.1 (a). This step is important for Vo waveform to be drawn with respect to VI waveform. Keep the oscilloscope ON all the time because it needs to be warmed up. 3. Sketch the CH2 waveform (Vo) displayed on the ...
USB-6008/6009 User Guide and Specifications
... comprise the DIO port. GND is the ground-reference signal for the DIO port. You can individually program all lines as inputs or outputs. ...
... comprise the DIO port. GND is the ground-reference signal for the DIO port. You can individually program all lines as inputs or outputs. ...
type 874-lba/-lbb slotted lines
... Figure 1. The Type 874-LBA Slotted Line and the Type 874-W50, 50-ohm Termination Unit are shown connected for the measurement of the VSWR of Type 874-QN Adaptors. These adaptors are used to connect components fitted with type N Connectors to devices fitted with Type 874 Connectors. ...
... Figure 1. The Type 874-LBA Slotted Line and the Type 874-W50, 50-ohm Termination Unit are shown connected for the measurement of the VSWR of Type 874-QN Adaptors. These adaptors are used to connect components fitted with type N Connectors to devices fitted with Type 874 Connectors. ...
NOISE - ecsa ekc
... • The noise power is proportional to the bias current, and, unlike Thermal and Shot Noise, Flicker Noise decreases with frequency. • An exact mathematical model does not exist for flicker noise because it is so device-specific. ...
... • The noise power is proportional to the bias current, and, unlike Thermal and Shot Noise, Flicker Noise decreases with frequency. • An exact mathematical model does not exist for flicker noise because it is so device-specific. ...
MAX1181 Dual 10-Bit, 80Msps, 3V, Low-Power ADC General Description
... ♦ Excellent Dynamic Performance 59dB SNR at fIN = 20MHz 73dB SFDR at fIN = 20MHz ♦ Low Power 82mA (Normal Operation) 2.8mA (Sleep Mode) 1µA (Shutdown Mode) ♦ 0.02dB Gain and 0.25° Phase Matching (typ) ♦ Wide ±1VP-P Differential Analog Input Voltage Range ♦ 400MHz, -3dB Input Bandwidth ♦ On-Chip 2.04 ...
... ♦ Excellent Dynamic Performance 59dB SNR at fIN = 20MHz 73dB SFDR at fIN = 20MHz ♦ Low Power 82mA (Normal Operation) 2.8mA (Sleep Mode) 1µA (Shutdown Mode) ♦ 0.02dB Gain and 0.25° Phase Matching (typ) ♦ Wide ±1VP-P Differential Analog Input Voltage Range ♦ 400MHz, -3dB Input Bandwidth ♦ On-Chip 2.04 ...
chapter 1 operational amplifier
... It is the Thevenin resistance of the internal connection between the two input terminals. Input impedance is the ratio of input voltage to input current. Zi=(Vi/Ii) When Zi is infinite, the input current is zero. the op amp will neither supply current to a circuit nor will it accept current ...
... It is the Thevenin resistance of the internal connection between the two input terminals. Input impedance is the ratio of input voltage to input current. Zi=(Vi/Ii) When Zi is infinite, the input current is zero. the op amp will neither supply current to a circuit nor will it accept current ...
Automatic engine RPM control circuit description 3
... The ramp voltage at that instant is saved by the T/H, just before the frequency operated switch erases the ramp by RESETing the F/F. (which in turn discharges the capacitor) The increasing voltage slope output of IC10D is fed to the input (pin 3) of S/H IC6 (LF398) and the output of IC6 (pin 5) is c ...
... The ramp voltage at that instant is saved by the T/H, just before the frequency operated switch erases the ramp by RESETing the F/F. (which in turn discharges the capacitor) The increasing voltage slope output of IC10D is fed to the input (pin 3) of S/H IC6 (LF398) and the output of IC6 (pin 5) is c ...
