Analog to Digital (A/D) Conversion
... • Some A/D converters require the input analog signal to be held constant during conversion, (eg. successive approximation devices) • In other cases, peak capture or sampling at a specific point in time necessitates a sampling device. • This function is accomplished by a sample and hold device as sh ...
... • Some A/D converters require the input analog signal to be held constant during conversion, (eg. successive approximation devices) • In other cases, peak capture or sampling at a specific point in time necessitates a sampling device. • This function is accomplished by a sample and hold device as sh ...
Loadlines Made Simpl..
... Of course you know that in reality we would have to add a cathode resistor for biasing, a coupling cap etc., but these things do not matter in this text. ...
... Of course you know that in reality we would have to add a cathode resistor for biasing, a coupling cap etc., but these things do not matter in this text. ...
Evaluates: MAX1836/MAX1837 MAX1837 Evaluation Kit General Description
... voltage. The MAX1837 features a low-current (12µA typ) quiescent supply current as well as a low-current (3µA typ) shutdown mode. The EV kit utilizes the MAX1837EUT33 IC, and the circuit regulates the output voltage to +3.3V without an external feedback network. The output can be adjusted for voltag ...
... voltage. The MAX1837 features a low-current (12µA typ) quiescent supply current as well as a low-current (3µA typ) shutdown mode. The EV kit utilizes the MAX1837EUT33 IC, and the circuit regulates the output voltage to +3.3V without an external feedback network. The output can be adjusted for voltag ...
NATIONAL SEMICONDUCTOR (LM556CN) DUAL TIMER
... National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications. ...
... National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications. ...
A 1.07 Tbit/s 128×128 Swizzle Network for SIMD Processors
... scales better than a conventional system when voltage/frequency are lowered, and SIMD lanes are widened to maintain iso-throughput. The optimal SIMD width was found to be 64, employing a 128×128 XRAM to shuffle two operands, and this design was fabricated in 65nm CMOS. The register files (Fig. 6) ar ...
... scales better than a conventional system when voltage/frequency are lowered, and SIMD lanes are widened to maintain iso-throughput. The optimal SIMD width was found to be 64, employing a 128×128 XRAM to shuffle two operands, and this design was fabricated in 65nm CMOS. The register files (Fig. 6) ar ...
Deney4
... decreases since vR is held almost constant by the capacitor. Thus the diode becomes cut off, and its current reduces practically to zero; it now behaves virtually as an open circuit. The capacitor is then effectively connected only to the resistor and begins discharging through it. If the RC time co ...
... decreases since vR is held almost constant by the capacitor. Thus the diode becomes cut off, and its current reduces practically to zero; it now behaves virtually as an open circuit. The capacitor is then effectively connected only to the resistor and begins discharging through it. If the RC time co ...
Lecture 10 - UConn Physics
... • In deriving the formula for the equivalent resistance of 2 resistors in parallel, we applied Kirchoff's Second Rule (the junction rule). "At any junction point in a circuit where the current can divide (also called a node), the sum of the currents into the node must equal the sum of the currents o ...
... • In deriving the formula for the equivalent resistance of 2 resistors in parallel, we applied Kirchoff's Second Rule (the junction rule). "At any junction point in a circuit where the current can divide (also called a node), the sum of the currents into the node must equal the sum of the currents o ...
AD8215 数据手册DataSheet 下载
... A load current flowing through the external shunt resistor produces a voltage at the input terminals of the AD8215. The input terminals are connected to A1 by R and R1. The inverting terminal, which has very high input impedance, is held to (VCM) − (ISHUNT × RSHUNT) because negligible current flows ...
... A load current flowing through the external shunt resistor produces a voltage at the input terminals of the AD8215. The input terminals are connected to A1 by R and R1. The inverting terminal, which has very high input impedance, is held to (VCM) − (ISHUNT × RSHUNT) because negligible current flows ...
LVDS Receiver Input Thresholds
... devices has shown voltages within these limits and can cause the receiver output to switch state. The differential input threshold sensitivities are maintained over a wide common mode from 0V to 2.4V. LVDS also features a +/-1 V common-mode range around the driver offset voltage (+1.2V typical) whic ...
... devices has shown voltages within these limits and can cause the receiver output to switch state. The differential input threshold sensitivities are maintained over a wide common mode from 0V to 2.4V. LVDS also features a +/-1 V common-mode range around the driver offset voltage (+1.2V typical) whic ...
FMB3906 MMPQ3906 FFB3906 PNP Multi-Chip General Purpose Amplifier
... This datasheet contains preliminary data, and supplementary data will be published at a later date. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve ...
... This datasheet contains preliminary data, and supplementary data will be published at a later date. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve ...
M81734FP - Mitsubishi Electric Corporation
... removed following an “L” state of the IN signal, and then HO responds to the input. (VCC>VBS) ...
... removed following an “L” state of the IN signal, and then HO responds to the input. (VCC>VBS) ...
Analysis and Design of Power Electronic Circuits using Orcad (Prof
... Now simulate the circuit using same steps and get plots for resistance current , RMS value of resistance current and input voltage. ...
... Now simulate the circuit using same steps and get plots for resistance current , RMS value of resistance current and input voltage. ...
DN74 - Techniques for Deriving 3.3V from 5V Supplies
... dropout and low voltage operation. Small input and output capacitors facilitate compact, surface mount designs. For the LT1129-3.3, dissipation amounts to a little under 1.5W at full output current. The 5-lead surface mount DD package handles this without the aid of a heat sink, provided the device ...
... dropout and low voltage operation. Small input and output capacitors facilitate compact, surface mount designs. For the LT1129-3.3, dissipation amounts to a little under 1.5W at full output current. The 5-lead surface mount DD package handles this without the aid of a heat sink, provided the device ...
Emt 212/4 analog electronic ii Chapter 2: Op-amp
... voltage gain. Specification: Design the circuit such that the voltage gain is Av = -5. Assume the op-amp is driven by an ideal sinusoidal source, vs = 0.1sin wt (V), that can supply a maximum current of 5 µA. Assume that frequency w is low so that any frequency effects can be neglected. ...
... voltage gain. Specification: Design the circuit such that the voltage gain is Av = -5. Assume the op-amp is driven by an ideal sinusoidal source, vs = 0.1sin wt (V), that can supply a maximum current of 5 µA. Assume that frequency w is low so that any frequency effects can be neglected. ...
planck`s constant - Department of Physics | Oregon State
... A variable DC voltage can be applied to the circuit, causing a current I to flow through the LED and the 100- resistor. (Be sure NEVER to connect the voltage across the LED only – the resistor must be in series with the LED.) We can read the applied voltage from the voltmeter V1. Voltmeter V2 reads ...
... A variable DC voltage can be applied to the circuit, causing a current I to flow through the LED and the 100- resistor. (Be sure NEVER to connect the voltage across the LED only – the resistor must be in series with the LED.) We can read the applied voltage from the voltmeter V1. Voltmeter V2 reads ...
Schmitt trigger
In electronics a Schmitt trigger is a comparator circuit with hysteresis implemented by applying positive feedback to the noninverting input of a comparator or differential amplifier. It is an active circuit which converts an analog input signal to a digital output signal. The circuit is named a ""trigger"" because the output retains its value until the input changes sufficiently to trigger a change. In the non-inverting configuration, when the input is higher than a chosen threshold, the output is high. When the input is below a different (lower) chosen threshold the output is low, and when the input is between the two levels the output retains its value. This dual threshold action is called hysteresis and implies that the Schmitt trigger possesses memory and can act as a bistable multivibrator (latch or flip-flop). There is a close relation between the two kinds of circuits: a Schmitt trigger can be converted into a latch and a latch can be converted into a Schmitt trigger.Schmitt trigger devices are typically used in signal conditioning applications to remove noise from signals used in digital circuits, particularly mechanical contact bounce. They are also used in closed loop negative feedback configurations to implement relaxation oscillators, used in function generators and switching power supplies.