DN351 - Versatile Micropower Voltage Reference Provides Resistor Programmable Output from 0.4V to 18V
... reference voltages anywhere up to 0.35V below the supply potential used, the dropout voltage. Resistor RG is chosen in the range from 10k to 100k to set the quiescent loading of the reference, then resistor RF is simply selected for the required gain. While this illustration indicates fixed componen ...
... reference voltages anywhere up to 0.35V below the supply potential used, the dropout voltage. Resistor RG is chosen in the range from 10k to 100k to set the quiescent loading of the reference, then resistor RF is simply selected for the required gain. While this illustration indicates fixed componen ...
Generic Hardware Info
... “Power Supply” Can also specify a maximum allowed current This does not change the voltage. The current can still be less than this limit. ...
... “Power Supply” Can also specify a maximum allowed current This does not change the voltage. The current can still be less than this limit. ...
Lab Experiment I
... convenient circuit construction and development tool. It contains a multitude of electrically-connected sockets that allow components and hook-up wires to be connected without soldering. Connections to the breadboard from other instruments, e.g., digital multimeter, power supply, etc. may be conveni ...
... convenient circuit construction and development tool. It contains a multitude of electrically-connected sockets that allow components and hook-up wires to be connected without soldering. Connections to the breadboard from other instruments, e.g., digital multimeter, power supply, etc. may be conveni ...
Zener Applications
... assume that the zener diode is operating at it's design voltage, and if you choose too small a load resistance, you drop the supply voltage at the zener below that voltage. The zener would then be acting like a voltage source, which of course it cannot do - it must have a supply voltage greater than ...
... assume that the zener diode is operating at it's design voltage, and if you choose too small a load resistance, you drop the supply voltage at the zener below that voltage. The zener would then be acting like a voltage source, which of course it cannot do - it must have a supply voltage greater than ...
Chapter 5: Resistors
... “The larger the cross-sectional area of the conductor, the more electrons are available to carry the current, so the lower the resistance. The longer the conductor, the more scattering events occur in each electron's path through the material, so the higher the resistance. Different materials also a ...
... “The larger the cross-sectional area of the conductor, the more electrons are available to carry the current, so the lower the resistance. The longer the conductor, the more scattering events occur in each electron's path through the material, so the higher the resistance. Different materials also a ...
Thevenin`s theorem Thevenin`s theorem states: The current through
... Thevenin’s theorem states: The current through a resistor R connected across any two points A and B of an active network (i.e. a network containing one or more sources or emf) is obtained by dividing the potential difference between A and B (with R disconnected) by R+r, where r is the resistance of ...
... Thevenin’s theorem states: The current through a resistor R connected across any two points A and B of an active network (i.e. a network containing one or more sources or emf) is obtained by dividing the potential difference between A and B (with R disconnected) by R+r, where r is the resistance of ...
Section 2. The Full Wave Rectifier
... now a pulsating dc, with a peak to peak variation called ripple. The magnitude of the ripple depends on the input voltage magnitude and frequency, the filter capacitance, and the load resistance. To describe the source of the voltage ripple, consider the performance of the filtered full wave rectifi ...
... now a pulsating dc, with a peak to peak variation called ripple. The magnitude of the ripple depends on the input voltage magnitude and frequency, the filter capacitance, and the load resistance. To describe the source of the voltage ripple, consider the performance of the filtered full wave rectifi ...
Basic Circuitry - Electro Tech Online
... What is electricity? (electron flow) Atoms have electrons orbiting them Some electrons on the outer orbits can jump from one atom to the next atom When an electron moves, it leaves a ‘hole’ for another electron to jump into That electron leaves another hole, and so on When there is a large ...
... What is electricity? (electron flow) Atoms have electrons orbiting them Some electrons on the outer orbits can jump from one atom to the next atom When an electron moves, it leaves a ‘hole’ for another electron to jump into That electron leaves another hole, and so on When there is a large ...
DARLINGTON TRANSISTOR ARRAYS
... transistor arrays. Each consists of seven npn Darlington pairs that feature high-voltage outputs with common-cathode clamp diodes for switching inductive loads. The collector-current rating of a single Darlington pair is 500 mA. The Darlington pairs may be paralleled for higher current capability. A ...
... transistor arrays. Each consists of seven npn Darlington pairs that feature high-voltage outputs with common-cathode clamp diodes for switching inductive loads. The collector-current rating of a single Darlington pair is 500 mA. The Darlington pairs may be paralleled for higher current capability. A ...
SE-330, SE-330HV SERIES Protection Relays & Controls Neutral-Grounding-Resistor Monitoring Description
... used with low- and medium-voltage transformers and generators with low- or high-resistance grounding used in processing, manufacturing, chemical, pulp and paper, petroleum, and water-treatment facilities. For high-voltage applications, use the SE-330HV. For applications that require conformance to A ...
... used with low- and medium-voltage transformers and generators with low- or high-resistance grounding used in processing, manufacturing, chemical, pulp and paper, petroleum, and water-treatment facilities. For high-voltage applications, use the SE-330HV. For applications that require conformance to A ...
Single Phase Half Wave Rectifier with R
... output voltage and output current are positive. With RL- load it becomes a two-quadrant converter. Here, output voltage is either positive or negative but output current is always positive. Figure shows the quadrant operation of fully controlled bridge rectifier with R-load. Figure shows single phas ...
... output voltage and output current are positive. With RL- load it becomes a two-quadrant converter. Here, output voltage is either positive or negative but output current is always positive. Figure shows the quadrant operation of fully controlled bridge rectifier with R-load. Figure shows single phas ...
Click Here (.doc)
... the DMM.I repeated the process of finding these values with two different resistors. After these measurements I created a thevenins equivalent circuit with my values. Adding a regulator the rectifier circuit caused R0 to equal 0. The advantage of this made it so we can use the regulator to make V0 t ...
... the DMM.I repeated the process of finding these values with two different resistors. After these measurements I created a thevenins equivalent circuit with my values. Adding a regulator the rectifier circuit caused R0 to equal 0. The advantage of this made it so we can use the regulator to make V0 t ...
fault-relay reo1 - Hansen Electric spol. s ro
... Thermistor tripping relay KLH provides protection for electric motors from excessive warming. Temperature increase is registered by temperature-sensitive sensors - ...
... Thermistor tripping relay KLH provides protection for electric motors from excessive warming. Temperature increase is registered by temperature-sensitive sensors - ...
BD439/ 441 NPN Epitaxial Silicon Transistor Absolute Maximum Ratings
... NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. ...
... NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. ...
Chapter 21: Alternating Currents
... elements are connected in series: a resistor of 20.0 Ω, a 35.0 mH inductor, and a 50.0 μF capacitor. The AC source has an rms voltage of 100.0 V and an angular frequency of 1.0×103 ...
... elements are connected in series: a resistor of 20.0 Ω, a 35.0 mH inductor, and a 50.0 μF capacitor. The AC source has an rms voltage of 100.0 V and an angular frequency of 1.0×103 ...
Current source
A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.