Datasheet -- CSLA1CF
... CSLA1CF CSLA Series linear current sensor, 100 A sensed current, source output, through-hole, operates on AC or DC current, bottom mount Representative photograph, actual product appearance may vary. ...
... CSLA1CF CSLA Series linear current sensor, 100 A sensed current, source output, through-hole, operates on AC or DC current, bottom mount Representative photograph, actual product appearance may vary. ...
SG3524 SMPS control circuit
... 3.6 V ÷ RT and should be kept within the approximate range of 30µA to 2mA; i.e., 1.8k
... 3.6 V ÷ RT and should be kept within the approximate range of 30µA to 2mA; i.e., 1.8k
LED Current Regulators - Integrated Silicon Solution
... An LED requires a minimum forward voltage (VF ) before it will turn on. This voltage varies with the type of LED, but is typically in the range of 1.5V ~ 4.4V; where Red LED is 2.0V while White, Green or Blue LEDs are about 3.2V. Once the LED’s VF voltage is reached, current through it will increase ...
... An LED requires a minimum forward voltage (VF ) before it will turn on. This voltage varies with the type of LED, but is typically in the range of 1.5V ~ 4.4V; where Red LED is 2.0V while White, Green or Blue LEDs are about 3.2V. Once the LED’s VF voltage is reached, current through it will increase ...
3H Spectrometer Gradient Coil Programmable
... ohms the programming voltage is a maximum of 200mV. This program voltage is derived from REF1, R8, R9 and R4 when the INT/EXT switch is in the INT position. When in the EXT position the programming voltage is derived from a buffered external source via U2 and associated components. Potentiometer R10 ...
... ohms the programming voltage is a maximum of 200mV. This program voltage is derived from REF1, R8, R9 and R4 when the INT/EXT switch is in the INT position. When in the EXT position the programming voltage is derived from a buffered external source via U2 and associated components. Potentiometer R10 ...
CMOS Differential Amplifier with Active Load: CMRR and Mismatch
... BJTs can’t similarly be connected in series due to small fixed voltage developed across each diode and exponential relationship between voltage and current. ...
... BJTs can’t similarly be connected in series due to small fixed voltage developed across each diode and exponential relationship between voltage and current. ...
Voltage, Current, and Resistance
... How are they related? If voltage goes up, current goes up If resistance goes up, current goes down Voltage and resistance determine the amount of ...
... How are they related? If voltage goes up, current goes up If resistance goes up, current goes down Voltage and resistance determine the amount of ...
(ADC) and Digital to analog converter (DAC)
... 2. A bipolar DAC hat 10 bits and a reference of 5v.what outputs will result from input of 04FH and 2A4H.What digital input gives a zero output voltage? 3. Determine how many bits a D/A converter must have to provide output increments of 0.04 volts or less. The reference is 10 volts. 4. A control val ...
... 2. A bipolar DAC hat 10 bits and a reference of 5v.what outputs will result from input of 04FH and 2A4H.What digital input gives a zero output voltage? 3. Determine how many bits a D/A converter must have to provide output increments of 0.04 volts or less. The reference is 10 volts. 4. A control val ...
Electromagnetic induction 1. If the instantaneous current in a circuit
... 4. An A.C source is connected to a resistive circuit. W hat is true of the following? a) Current leads ahead of voltage in phase b) Current lags behind v oltage in phase c) Current and voltage are in the same phase d) Any of the above may be true depending upon the value of resistance ...
... 4. An A.C source is connected to a resistive circuit. W hat is true of the following? a) Current leads ahead of voltage in phase b) Current lags behind v oltage in phase c) Current and voltage are in the same phase d) Any of the above may be true depending upon the value of resistance ...
Lecture 2. Transistors
... collector currents, and vCE voltage drop to make it perform to your specifications. If you measure the voltage across the collector and emitter terminals (VCE) and you measure the power supply value (VCC), the collector current (IC) is zero and the transistor is said to be in the cutoff mode. If VCE ...
... collector currents, and vCE voltage drop to make it perform to your specifications. If you measure the voltage across the collector and emitter terminals (VCE) and you measure the power supply value (VCC), the collector current (IC) is zero and the transistor is said to be in the cutoff mode. If VCE ...
FOUR UA741 QUAD BIPOLAR OPERATIONAL AMPLIFIERS
... The LM148 consists of four independent, high gain internally compensated, low power operational amplifiers which have been designed to provide functional characteristics identical to those of the familiar UA741 operational amplifier. In addition the total supply current for all four amplifiers is co ...
... The LM148 consists of four independent, high gain internally compensated, low power operational amplifiers which have been designed to provide functional characteristics identical to those of the familiar UA741 operational amplifier. In addition the total supply current for all four amplifiers is co ...
DM5426/DM7426 Quad 2-Input NAND Gates with High Voltage
... 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to resul ...
... 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to resul ...
IIiI/HA RD WARE HACKER/li/Ill
... this is called a Wilson current mirror, after its inventor. Figure 3 shows an "upside- down" current mirror, this time using a pair of pnp transistors. In the pnp mirror, the amount of current purposely sunk to ground on the left will cause an identical current to be sourced on the right. For hackin ...
... this is called a Wilson current mirror, after its inventor. Figure 3 shows an "upside- down" current mirror, this time using a pair of pnp transistors. In the pnp mirror, the amount of current purposely sunk to ground on the left will cause an identical current to be sourced on the right. For hackin ...
SRM-007t
... The SRM-007t features a pure balanced circuit with no transformer or inverting amplifier in the signal path. A high quality 4 - Gang volume control is used for the XLR balanced input to minimize sonic degradation. ...
... The SRM-007t features a pure balanced circuit with no transformer or inverting amplifier in the signal path. A high quality 4 - Gang volume control is used for the XLR balanced input to minimize sonic degradation. ...
Standing Waves - Oregon State EECS
... 1. A lossless, 50 meter, 50Ω transmission line with vp = 30cm/ns is terminated in four different loads listed below. The line is driven with an incident wave with a 10V amplitude at f0 = 7.5MHz. Using pencil and paper, plot the voltage and current standing-wave patterns on the line and specify the v ...
... 1. A lossless, 50 meter, 50Ω transmission line with vp = 30cm/ns is terminated in four different loads listed below. The line is driven with an incident wave with a 10V amplitude at f0 = 7.5MHz. Using pencil and paper, plot the voltage and current standing-wave patterns on the line and specify the v ...
Wilson current mirror
A Wilson current mirror is a three-terminal circuit (Fig. 1) that accepts an input current at the input terminal and provides a ""mirrored"" current source or sink output at the output terminal. The mirrored current is a precise copy of the input current. It may be used as a Wilson current source by applying a constant bias current to the input branch as in Fig. 2. The circuit is named after George R. Wilson, an integrated circuit design engineer who worked for Tektronix. Wilson devised this configuration in 1967 when he and Barrie Gilbert challenged each other to find an improved current mirror overnight that would use only three transistors. Wilson won the challenge.