Bipolar +/-10V Analog Output from a Unipolar Voltage Output DAC

... Standard values for 0.1% resistors can be an obstacle for this design and it may take multiple iterations of seeding the values to find real components or they may not exist. Work-arounds can include utilizing multiple resistors in series and/or parallel, using potentiometers for analog trim calibra ...

Highly Energy and Performance Efficient Embedded

... of operation—a delay latch is utilized to detect circuit errors for subsequent correction [5]. In other techniques, circuit level timing errors are not corrected at the circuit level, rather techniques borrowed from signal processing is utilized to correct such errors [7, 14, 16]. A distinguishing f ...

10 µA-100 mA, 0.05% Error, High-Side Current

... in a large 2512 package that can dissipate up to 16 W of power - well within the maximum requirement of 1 W. The resistors and capacitors in the PGA281 input and output filter network also have an impact on the design as they are located within the signal path. However, the cutoff frequencies of the ...

EXPERIMENT 2_3

... Calculate the equivalent resistance between points A and B for each circuit from the measured values in part A1, and record in Table II. ...

Attachment B

... secondary objectives for a “match” to occur. 2. Postsecondary and Secondary objectives must reflect similar content and performance levels before the course articulation agreement will be recommended to the TEDAC Oversight Committee. 3. More than one Secondary course may be used in order to articula ...

PPT

... IN (volts) ...

University of Northern British Columbia Physics Program Physics 101 Laboratory Manual

... The best laboratory report is the shortest intelligible report containing ALL the necessary information. It should be divided into sections as described below. Object - One or two sentences describing the aim of the experiment. (In ink) Theory - The theory on which the experiment is based. This usua ...

Chap03: Boolean Algebra and Digital Logic

... diagram to implement the given logic function), and the use of CAD (computeraided design) software. A circuit designer faces many problems, including: o finding efficient Boolean functions, o using the smallest number of gates, o using an inexpensive combination of gates, o organizing the gates of a ...

Ch 23 Series and Parallel Circuits

... circuits and a set of parallel circuits. Combine the resistances of the parallel circuits into one circuit, and calculate the single equivalent resistance that can replace them. That leaves only a series circuit. Add the resistors in series to calculate the equivalent resistance. ...

AD7524 CMOS 8-Bit Buffered Multiplying DAC

... designed for direct interface to most microprocessors. Basically an 8-bit DAC with input latches, the AD7524’s load cycle is similar to the “write” cycle of a random access memory. Using an advanced thin-film on CMOS fabrication process, the AD7524 provides accuracy to 1/8 LSB with a typical power d ...

IOSR Journal of VLSI and Signal Processing (IOSR-JVSP)

... transistor and makes the domino logic less noise immune. This logic family offers a number of interesting features compared to static logic, namely reduced transistor count as well as reduced load capacitance and hence improved speed. The operation of a dynamic logic gate is controlled by a clock si ...

How (not) to Fry a Thermometer: Testing a slow monitoring and

... since the devices will probably only be read about once a minute, they can perform conversions one at a time. In another test, the 300-meter cable was cut in half, and the breadboard with 18 thermometers was placed in the middle. In addition, there was a thermometer at the near end of the cable, an ...

a reduced power 6-tap pre-emphasis for 10gb/s

... performance current source improved. Fig. 5 shows the output of the current source of both circuits at different coefficients (9 and 15) using the 0101… data pattern. From the Fig. 5, we can see that there is not much difference in the average of the current source for the two circuits at the same c ...

The Toastboard - Berkeley Institute of Design

... and toolkits has introduced a large number of novices to designing and building electronic projects. Nevertheless, debugging circuits remains a difficult and time-consuming task. This paper presents a novel debugging tool for electronic design projects, the Toastboard, that aims to reduce debugging ...

Comparative Study of 4-Bit ALU using CMOS and BiCMOS for

... enable the development of a more powerful but smaller computer. However there are a few limiting factors that slow down the development of smaller and more complex IC chip and they are IC fabrication technology, designer productivity and design cost. The increasing demand for high speed Very Large S ...

Unit 23: ERROR PROPAGATION, DIRECT CURRENT CIRCUITS

... 1. the current is the same through all elements, 2. changing one part of a series circuit changes the current in all parts of the circuit, 3. the voltage divides between the elements of the series and 4. the total of voltages sums to the voltage of the battery. You also saw that in a parallel circui ...

Exercise 6

... resistor which controls the circuit serial resistance, the power supply and the ground. All these elements do not have a layout and should be removed before to place the circuit in the layout editor. The ideal elements will be added externally on a later stage when we do the circuit simulation after ...

A Unified Framework for Over-Clocking Linear Projections on

... followed by a reconfiguration step where parts of the design are mapped to specific locations of the device given their performance requirements. Even though all the aforementioned approaches provide significant improvements in performance, they don’t cover all sources of PVT variation. Similar to ...

Meters, Power Supplies and Generators

... 1.3 Meter Waveform Shape and Frequency Dependence The more common meters measure the rectified average voltage, while better ones measure the root mean square (RMS). Unless you know what the shape of the waveform is, and understand how the meter measures a voltage, the number that you read will be u ...

EE11 instruction_paperwritting (Repaired).doctoday (2)

... Domino logic circuits with wide fan-in are widely used in digital circuit designs due to their high speed and less number of transistors. Footless domino gate is most popular due to their less transistors count and better performance in comparison with static CMOS [1][2][3]. Footless domino gates ar ...

current transformer phase shift digital compensation

... Figure 4 shows amplitude and phase characteristics of the applied digital filter. Considering the phase characteristic it can be noted that in the case of the nominal frequency of 50 Hz the phase shift for the desired angle is achieved. Although, the filter gain is approximately 2 and it has to be i ...

Steering Gates

... Steering Gates ◊ Digital gates can be used to control the flow of one digital signal with another. ...

PPT - Electrical and Computer Engineering

... The cost of a gate is proportional to the chip area occupied by the gate The gate area is roughly proportional to the number and size of the transistors and the amount of wiring connecting them Ignoring the wiring area, the gate area is roughly proportional to the gate input count So gate input coun ...

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Soft error

In electronics and computing, a soft error is a type of error where a signal or datum is wrong. Errors may be caused by a defect, usually understood either to be a mistake in design or construction, or a broken component. A soft error is also a signal or datum which is wrong, but is not assumed to imply such a mistake or breakage. After observing a soft error, there is no implication that the system is any less reliable than before. In the spacecraft industry this kind of error is called a single-event upset. In a computer's memory system, a soft error changes an instruction in a program or a data value. Soft errors typically can be remedied by cold booting the computer. A soft error will not damage a system's hardware; the only damage is to the data that is being processed.There are two types of soft errors, chip-level soft error and system-level soft error. Chip-level soft errors occur when the radioactive atoms in the chip's material decay and release alpha particles into the chip. Because an alpha particle contains a positive charge and kinetic energy, the particle can hit a memory cell and cause the cell to change state to a different value. The atomic reaction is so tiny that it does not damage the actual structure of the chip. System-level soft errors occur when the data being processed is hit with a noise phenomenon, typically when the data is on a data bus. The computer tries to interpret the noise as a data bit, which can cause errors in addressing or processing program code. The bad data bit can even be saved in memory and cause problems at a later time.If detected, a soft error may be corrected by rewriting correct data in place of erroneous data. Highly reliable systems use error correction to correct soft errors on the fly. However, in many systems, it may be impossible to determine the correct data, or even to discover that an error is present at all. In addition, before the correction can occur, the system may have crashed, in which case the recovery procedure must include a reboot. Soft errors involve changes to data—the electrons in a storage circuit, for example—but not changes to the physical circuit itself, the atoms. If the data is rewritten, the circuit will work perfectly again. Soft errors can occur on transmission lines, in digital logic, analog circuits, magnetic storage, and elsewhere, but are most commonly known in semiconductor storage.

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Soft error