EUP8060X 1A Li-Ion/Polymer Charger IC with Thermal Regulation and OVP
... The EUP8060X series are highly integrated single cell Li-Ion/Polymer battery charger IC designed for handheld devices. The EUP8060X integrates internal power FET, current sensor, charge status, reverse current protection and overvoltage protection (OVP) in a single monolithic devices. When AC-adapte ...
... The EUP8060X series are highly integrated single cell Li-Ion/Polymer battery charger IC designed for handheld devices. The EUP8060X integrates internal power FET, current sensor, charge status, reverse current protection and overvoltage protection (OVP) in a single monolithic devices. When AC-adapte ...
Basic Lab Equipment
... DC lab bench power supplies usually have so-called "floating" output. This means that the supply acts like a battery, producing X volts between its output terminals with neither terminal internally connected to chassis (earth) ground. Thus, you can choose to use the DC supply as a positive or negati ...
... DC lab bench power supplies usually have so-called "floating" output. This means that the supply acts like a battery, producing X volts between its output terminals with neither terminal internally connected to chassis (earth) ground. Thus, you can choose to use the DC supply as a positive or negati ...
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... the current, the capacitance and the inductance. (Assume no energy loss in both cases.) (iii) Explain why it would be difficult to sustain such an electromagnetic oscillation in practice. With the aid of a graph, describe how the current in the circuit actually varies with time. (10 marks) (c) When ...
... the current, the capacitance and the inductance. (Assume no energy loss in both cases.) (iii) Explain why it would be difficult to sustain such an electromagnetic oscillation in practice. With the aid of a graph, describe how the current in the circuit actually varies with time. (10 marks) (c) When ...
... constant current power supply, and connect the LEDs directly across the terminals of the power supply. However if strings of LEDs are connected in parallel then you may have an issue in trying to match the current in all the strings. A possible alternative to this would be to place an external compo ...
Bias Resistor Transistor LDTA113ZET1G PNP Silicon Surface Mount Transistor
... with Monolithic Bias Resistor Network ...
... with Monolithic Bias Resistor Network ...
15.9 TWO
... 15.9 T W O - P O R T S * It should be obvious by now that circuits with dependent sources can perform much more interesting and useful signal processing than those constructed solely from two-terminal resistive elements. But inclusion of dependent sources has brought about a modest increase in circu ...
... 15.9 T W O - P O R T S * It should be obvious by now that circuits with dependent sources can perform much more interesting and useful signal processing than those constructed solely from two-terminal resistive elements. But inclusion of dependent sources has brought about a modest increase in circu ...
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... requested using the keypad and appear on the CCR digital display. The installer calibrates the CCR to the 100% value (zero ohms) by shorting one output terminal to ground. When first connected to the circuit, the initial reading represents the existing leakage (typically less than 20%). Record that ...
... requested using the keypad and appear on the CCR digital display. The installer calibrates the CCR to the 100% value (zero ohms) by shorting one output terminal to ground. When first connected to the circuit, the initial reading represents the existing leakage (typically less than 20%). Record that ...
OCET-2012 Question Booklet Series : A Sr. No. :
... (A) current leads the voltage (B) current lags behind the voltage (C) voltage leads the current (D) current and voltage aline 49. Latching current of an SCR is ________ of the rated current. (A) Below 10% (B) 10–20% (C) 20–25% (D) 25–30% 50. Breakdown in a silicon UJT was observed to occur at a volt ...
... (A) current leads the voltage (B) current lags behind the voltage (C) voltage leads the current (D) current and voltage aline 49. Latching current of an SCR is ________ of the rated current. (A) Below 10% (B) 10–20% (C) 20–25% (D) 25–30% 50. Breakdown in a silicon UJT was observed to occur at a volt ...
• 100 - 240 Vac nominal input range • Overvoltage and short circuit
... • 100 - 240 Vac nominal input range • Overvoltage and short circuit protection • Approved to UL, CSA and EN Standards • Class I input available (GNT60) The G2T60 Series is a 60 W universal input AC/DC power supply in a very small footprint. With the medical approvals the G2T60 is ideal for a variety ...
... • 100 - 240 Vac nominal input range • Overvoltage and short circuit protection • Approved to UL, CSA and EN Standards • Class I input available (GNT60) The G2T60 Series is a 60 W universal input AC/DC power supply in a very small footprint. With the medical approvals the G2T60 is ideal for a variety ...
AN OVERVIEW OF UNITY POWER FACTOR POWER SUPPLY
... 400W AC to DC converter was presented, operating either as a rectifier, or as a UPFPS, supplied from AC sources of various frequencies. The UPFPS performance was tested at 50Hz, 60Hz and 400Hz supplying frequencies, with varying supply voltage and variable load. The UPFPS may operate in a wide suppl ...
... 400W AC to DC converter was presented, operating either as a rectifier, or as a UPFPS, supplied from AC sources of various frequencies. The UPFPS performance was tested at 50Hz, 60Hz and 400Hz supplying frequencies, with varying supply voltage and variable load. The UPFPS may operate in a wide suppl ...
Oscilloscope and High Voltage Probe Facilitage Motor
... deliver power to the load. These IGBTs are controlled by logic circuits on a separate board mounted within the module. Figure 1 is a simplified schematic of the power section in a Robicon cell. In designing the cells, and the system as a whole, care must be taken to minimize the inductance of the po ...
... deliver power to the load. These IGBTs are controlled by logic circuits on a separate board mounted within the module. Figure 1 is a simplified schematic of the power section in a Robicon cell. In designing the cells, and the system as a whole, care must be taken to minimize the inductance of the po ...
PV Power Source Labeling in a SolarEdge system
... The total STC DC power rating for all PV Modules divided by the nominal string voltage value listed in item (2) below for maximum power point voltage. For example, a system with 28 – 260 watt PV Modules with the SE6000A-US inverter connected to a 240 Vac single phase grid connection would be: 7280 w ...
... The total STC DC power rating for all PV Modules divided by the nominal string voltage value listed in item (2) below for maximum power point voltage. For example, a system with 28 – 260 watt PV Modules with the SE6000A-US inverter connected to a 240 Vac single phase grid connection would be: 7280 w ...
HVTC Product Information
... TCU Power Diagnostix TCU is made for controlling of high voltage transformers. Together with the HVcontrol it combines all standard functions required to manually or automatically operate a high voltage transformer, including safety loops, door locks, and all voltage and current measurements. Exampl ...
... TCU Power Diagnostix TCU is made for controlling of high voltage transformers. Together with the HVcontrol it combines all standard functions required to manually or automatically operate a high voltage transformer, including safety loops, door locks, and all voltage and current measurements. Exampl ...
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.