FPO SHC5320 FEATURES DESCRIPTION

... the capacitor after the mode control signal has changed from “sample” to “hold.” This time is measured from the 50% point of the Hold mode transition to the time at which the output stops tracking the input. This parameter is very important in applications for which the input signal is changing very ...

TC4011BP,TC4011BF,TC4011BFN,TC4011BFT

... bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc. Unintended Usage of TOSHIB ...

ISSCC 2011 slides - Massachusetts Institute of Technology

... Motivation for Scalable ADC  Bio-potentials vary in bandwidth and dynamic range  DSP algorithms have varying resolution requirements ...

L01_Intro_to_Basic_Electronics.v1_0_4

Very Low Distortion, Precision Difference Amplifier AD8274

... and ground, as close as possible to each supply pin. A tantalum capacitor of 10 μF should also be used between each supply and ground. It can be farther away from the supply pins and, typically, it can be shared by other precision integrated circuits. The AD8274 is specified at ±15 V, but it can be ...

DAB One-chip Front End U2731B

... Voltage-generation Block incoming signal at the balanced input pins IFAGCIN1, IFAGCIN2, to compare it with a certain power level and to generate a control voltage for the IF gain-controlled amplifiers and mixer. This architecture offers the possibility of ensuring an optimal use of the dynamic range ...

LIOB‑100/101/102/103

... DIs are fast binary inputs, which can also be used as counter inputs (S0). They follow the S0 specification for electric meters and have a sampling rate of 10 ms. They change state at a load of 195 Ω between the DI terminal and GND. Galvanically isolated sensors resp. switches must be connected. AO ...

Input/Output ports ATmega32

... into your device. It is possible that the user will disconnect the cable. If the input pin is left floating, it might sometimes read as a 1, sometimes as a 0. Your code might interpret this as changes from a sensor and not act the way you want. Putting a pull up resistor will set the input voltage n ...

parallel connected inverter for fuel cell system

... Mr. Mahmoud A. A. Younis was born in Gaza, Palestine. He receives the B.Sc. degree from lIT, Bangladesh in 1997, and the M.Sc. degree from UM Malaysia. in 2001. Currently he is a lecturer in the Department of Electrical Engineering, university industry selangor (UNISEL) , Malaysia, and he is doing P ...

Micro-Power (50μA), Zerø-Drift, Rail-to-Rail Out

Lab 3

Circuits3 – multimeter

... Attach the two probes, black to “COM” or “ground”, and the red to the port labelled “V” or ...

comparison of parallel resonant inverter and series resonant inverter

High Performance Resonant Mode Controller

... The MC34067/MC33067 are high performance zero voltage switch resonant mode controllers designed for off−line and dc−to−dc converter applications that utilize frequency modulated constant off−time or constant deadtime control. These integrated circuits feature a variable frequency oscillator, a preci ...

network theorems module

... Voltage and Current Sources • Equivalent Voltage and Current Sources – for every voltage source, there exists an equivalent current source, and vice versa ...

hand-held digital synchro meter high accuracy 5 digit dsm-5

... The heart of the DSM-5 is a 16 bit synchro to digital converter. The reference input (R1-R2) and synchro stator (S1-S2-S3) signals are combined creating a synthesized reference signal that is in-phase with the stator signals. The synchro stator signals are converted to sine and cosine voltages via a ...

"ERIP" Chart to Solve Electrical Circuits

... For the total power column: 100 x 0.6666 = 66.66 watts For R1 power: 26.664 x 0.6666 = 17.774 watts For R2 power: 33.33 x 0.6666 = 22.218 watts For R3 power: 39.996 x 0.6666 = 26.661 watts So …. 17.774 + 22.218 + 26.661 = 66.653. Checked and verified. Step #7: Let’s verify our work. Electrical law # ...

HMC721LP3E 数据资料DataSheet下载

... The HMC721LP3E is a XOR/XNOR gate function designed to support data transmission rates of up to 14 Gbps, and clock frequencies as high as 14 GHz. All differential inputs to the HMC721LP3E are CML and terminated on-chip with 50 Ohms to the positive supply, GND, and may be DC or AC coupled. Outputs ca ...

50-MHz Low-Distortion High-CMRR Rail-to-Rail I/O, Single-Supply Operational Amplifier OPA365-Q1 OPA2365-Q1 FEATURES

... whether an amplifier will be stable in operation. An op amp in the unity-gain (+1V/V) buffer configuration and driving a capacitive load exhibits a greater tendency to be unstable than an amplifier operated at a higher noise gain. The capacitive load, in conjunction with the op amp output resistance ...

AVR120: Characterization and Calibration of the

... offset and gain errors and how to compensate for them. It also describes two measures for non-linearity; differential and integral non-linearity. For most applications, the ADC needs no calibration when using single ended conversion. The typical accuracy is 1-2 LSB, and it is often neither necessary ...

Dual General-Purpose Operational Amplifiers

Comparative analysis of 36, 48, 60 pulse AC-DC

... Fig 3. Controlled forty eight pulse converter (positive group) C. Sixty Pulse Converter In this configuration of 60 pulse operation, 10 six-pulse converters phase shifted from each other by 6 degrees. All 10 transformer primaries are to be connected in series. Figure 4 shows the arrangement of 60 pu ...

Light Emitting Diodes and Digital Circuits I

... Figure 4: Brightness vs. current. function of current as you increase the supply voltage. You should find that a current between 5 and 10 mA gives a normal glow. Experiment 4: Calculate the current in the circuit in Figure 5 below. ...

MAX6338 Quad Voltage Monitor in µMAX Package General Description Features

... minimizes or eliminates the need for external components. The four open-drain outputs have weak (10µA) internal pullups to VCC, allowing them to interface easily with other logic devices. The MAX6338 can monitor power supplies with either 5% or 10% tolerance specifications, depending on the selected ...

Analysis and Design of a High Voltage Flyback

... relative simplicity and their excellent performance for multoutput applications. They can save cost and volume compared with the other converters, especially in low power applications. In a flyback converter, a transformer is adopted to achieve galvanic isolation and energy storage. Research is main ...

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Integrating ADC

An integrating ADC is a type of analog-to-digital converter that converts an unknown input voltage into a digital representation through the use of an integrator. In its most basic implementation, the unknown input voltage is applied to the input of the integrator and allowed to ramp for a fixed time period (the run-up period). Then a known reference voltage of opposite polarity is applied to the integrator and is allowed to ramp until the integrator output returns to zero (the run-down period). The input voltage is computed as a function of the reference voltage, the constant run-up time period, and the measured run-down time period. The run-down time measurement is usually made in units of the converter's clock, so longer integration times allow for higher resolutions. Likewise, the speed of the converter can be improved by sacrificing resolution.Converters of this type can achieve high resolution, but often do so at the expense of speed. For this reason, these converters are not found in audio or signal processing applications. Their use is typically limited to digital voltmeters and other instruments requiring highly accurate measurements.

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Integrating ADC