PAM3102 Description Pin Assignments
... distance between CIN and the input pin of the PAM3102 should not exceed 0.5 inch. Ceramic capacitors are suitable for the PAM3102. Capacitors with larger values and lower ESR (equivalent series resistance) provide better PSRR and line-transient response. The PAM3102 is designed specifically to work ...
... distance between CIN and the input pin of the PAM3102 should not exceed 0.5 inch. Ceramic capacitors are suitable for the PAM3102. Capacitors with larger values and lower ESR (equivalent series resistance) provide better PSRR and line-transient response. The PAM3102 is designed specifically to work ...
Performance Evaluation of Fuzzy
... controllers' schemes are validated under this condition in order to show their capability in keeping the STATCOM stable for a power system. The digital simulation for the study system shown in Fig. 6 is carried out again under the same load excursions but using the Fuzzy logic controller. This new c ...
... controllers' schemes are validated under this condition in order to show their capability in keeping the STATCOM stable for a power system. The digital simulation for the study system shown in Fig. 6 is carried out again under the same load excursions but using the Fuzzy logic controller. This new c ...
Station 1 - POSITION SENSOR CIRCUIT
... Station 1 - POSITION SENSOR CIRCUIT Many electronically controlled systems require that a component’s position be monitored throughout its entire field of travel. One such application of this is in the electronic temperature control system where the control module needs to monitor the travel of the ...
... Station 1 - POSITION SENSOR CIRCUIT Many electronically controlled systems require that a component’s position be monitored throughout its entire field of travel. One such application of this is in the electronic temperature control system where the control module needs to monitor the travel of the ...
NCV887300LEDGEVB NCV887300 Automotive Grade High‐frequency Dimmable LED Boost
... EVAL BOARD USER’S MANUAL Description ...
... EVAL BOARD USER’S MANUAL Description ...
LT1512
... to the external signal. Shutdown is avoided in this mode with an internal timer. VIN: The input supply pin should be bypassed with a low ESR capacitor located right next to the IC chip. The ...
... to the external signal. Shutdown is avoided in this mode with an internal timer. VIN: The input supply pin should be bypassed with a low ESR capacitor located right next to the IC chip. The ...
Enhancement of THD in HVDC System using Shunt Active Power
... power electronic equipment has become a serious problem to be solved in many countries. Power system harmonics are not a new problem. Due to the widespread proliferation of nonlinear distorting loads such as power-electronic controlled devices, the problems caused by harmonics are of increasing impo ...
... power electronic equipment has become a serious problem to be solved in many countries. Power system harmonics are not a new problem. Due to the widespread proliferation of nonlinear distorting loads such as power-electronic controlled devices, the problems caused by harmonics are of increasing impo ...
ZR285 Description Pin Assignment Typical Application Circuit
... device is available in a small outline surface mount package, ideal for applications where space saving is important. The ZR285 design provides a stable voltage without an external capacitor and is stable with capacitive loads. The ZR285 is recommended for operation between 20μA and 20mA and so is i ...
... device is available in a small outline surface mount package, ideal for applications where space saving is important. The ZR285 design provides a stable voltage without an external capacitor and is stable with capacitive loads. The ZR285 is recommended for operation between 20μA and 20mA and so is i ...
AP2141D/ AP2151D Description Pin Assignments
... as follows: The internal thermal sense circuitry turns the power switch off and the FLG output is asserted thus preventing the power switch from damage. Hysteresis in the thermal sense circuit allows the device to cool down to approximately 25°C before the output is turned back on. The builtin therm ...
... as follows: The internal thermal sense circuitry turns the power switch off and the FLG output is asserted thus preventing the power switch from damage. Hysteresis in the thermal sense circuit allows the device to cool down to approximately 25°C before the output is turned back on. The builtin therm ...
Building and Testing
... e. How much resistance does the electricity encounter as it passes through the “object”? Place the hand on top of the object and a pop-up will appear with the information. f. How much current is flowing through the 1st bulb? The 2nd bulb? The wire? The battery? g. Build a series circuit containing f ...
... e. How much resistance does the electricity encounter as it passes through the “object”? Place the hand on top of the object and a pop-up will appear with the information. f. How much current is flowing through the 1st bulb? The 2nd bulb? The wire? The battery? g. Build a series circuit containing f ...
BJT in Saturation Mode
... VBC <400 mV because the current in the B-C junction is negligible, provided that various tolerances in the component values do not drive the device into deep saturation. • For a device in soft saturation or active region, we approximate IC as Isexp(VBE/VT) • In the deep saturation region, the collec ...
... VBC <400 mV because the current in the B-C junction is negligible, provided that various tolerances in the component values do not drive the device into deep saturation. • For a device in soft saturation or active region, we approximate IC as Isexp(VBE/VT) • In the deep saturation region, the collec ...
Analysis and Design of a High Voltage Flyback
... since voltage spikes caused by the series resonance between the transformer leakage inductance and the parasitic capacitance of the switch are the dominant factors in determining the power conversion efficiency and the switching noise in low output voltage and high output current applications. On th ...
... since voltage spikes caused by the series resonance between the transformer leakage inductance and the parasitic capacitance of the switch are the dominant factors in determining the power conversion efficiency and the switching noise in low output voltage and high output current applications. On th ...
Katsuhiro Hata, Takehiro Imura, Yoichi Hori, Maximum Efficiency
... a series–series (SS) circuit topology and its equivalent circuit is shown in Fig. 1. The transmitter and the receiver consist of the inductance L1 , L2 , the series–resonance capacitance C1 , C2 , and the internal resistance R1 , R2 respectively. v1 , i1 , v2 , and i2 stand for root–mean–square volt ...
... a series–series (SS) circuit topology and its equivalent circuit is shown in Fig. 1. The transmitter and the receiver consist of the inductance L1 , L2 , the series–resonance capacitance C1 , C2 , and the internal resistance R1 , R2 respectively. v1 , i1 , v2 , and i2 stand for root–mean–square volt ...
MultiStage Amplifier..
... 1. The Input Stage – This section has one purpose, to provide the multi-stage amplifier with a high input resistance. For differential amplifiers, this stage must also be a differential amplifier (e.g., a differential pair). 2. The Gain Stages - This section consists of one or more amplifiers (stage ...
... 1. The Input Stage – This section has one purpose, to provide the multi-stage amplifier with a high input resistance. For differential amplifiers, this stage must also be a differential amplifier (e.g., a differential pair). 2. The Gain Stages - This section consists of one or more amplifiers (stage ...
Amplifiers
... EKV model for MOSFETs because it correctly handles both subthreshold and above-threshold currents very well. With a 0.5µm process, the supply voltage (Vdd) is 3.3V. Special Instructions for This Project Along with your project report, please send me an electronic copy of your SPICE deck from Part 1. ...
... EKV model for MOSFETs because it correctly handles both subthreshold and above-threshold currents very well. With a 0.5µm process, the supply voltage (Vdd) is 3.3V. Special Instructions for This Project Along with your project report, please send me an electronic copy of your SPICE deck from Part 1. ...
Application Report Long Drive/Motor Leads
... cable runs are in close proximity to one another and are not properly shielded. Using basic electronic physics, one can show that passing current down one wire lead induces a voltage as well as a current flow in the wire leads in close proximity to that wire. Having multiple leads in relatively clos ...
... cable runs are in close proximity to one another and are not properly shielded. Using basic electronic physics, one can show that passing current down one wire lead induces a voltage as well as a current flow in the wire leads in close proximity to that wire. Having multiple leads in relatively clos ...
IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
... Abstract : The distribution transformer monitoring system is composed of Transformer Terminal Unit (TTU), GPRS wireless communication network and master station. TTU is installed in the transformer, which mainly accomplishes data collection, analysis and record, pops up alarm information in time whe ...
... Abstract : The distribution transformer monitoring system is composed of Transformer Terminal Unit (TTU), GPRS wireless communication network and master station. TTU is installed in the transformer, which mainly accomplishes data collection, analysis and record, pops up alarm information in time whe ...
Problem 2 - Roletech
... Real inductors have internal series resistance because of their windings. Real capacitors have internal parallel resistance because of their leakage. Capacitor leads have inductance. Inductor leads have capacitance. The three components in an actual series RLC circuit do not each have only on form o ...
... Real inductors have internal series resistance because of their windings. Real capacitors have internal parallel resistance because of their leakage. Capacitor leads have inductance. Inductor leads have capacitance. The three components in an actual series RLC circuit do not each have only on form o ...
Rectifier
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification. Physically, rectifiers take a number of forms, including vacuum tube diodes, mercury-arc valves, copper and selenium oxide rectifiers, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switches. Historically, even synchronous electromechanical switches and motors have been used. Early radio receivers, called crystal radios, used a ""cat's whisker"" of fine wire pressing on a crystal of galena (lead sulfide) to serve as a point-contact rectifier or ""crystal detector"".Rectifiers have many uses, but are often found serving as components of DC power supplies and high-voltage direct current power transmission systems. Rectification may serve in roles other than to generate direct current for use as a source of power. As noted, detectors of radio signals serve as rectifiers. In gas heating systems flame rectification is used to detect presence of a flame.Because of the alternating nature of the input AC sine wave, the process of rectification alone produces a DC current that, though unidirectional, consists of pulses of current. Many applications of rectifiers, such as power supplies for radio, television and computer equipment, require a steady constant DC current (as would be produced by a battery). In these applications the output of the rectifier is smoothed by an electronic filter (usually a capacitor) to produce a steady current.More complex circuitry that performs the opposite function, converting DC to AC, is called an inverter.