ADP2323 Dual 3 A, 20 V Synchronous Step-Down Regulator with Integrated High-Side
... it provides a clock at the switching frequency. When configured as an input, this pin accepts an external clock to which the regulators are synchronized and the phase shift is configured by SCFG. Note that when SYNC is configured as an input, the PFM mode is disabled and the device works only in con ...
... it provides a clock at the switching frequency. When configured as an input, this pin accepts an external clock to which the regulators are synchronized and the phase shift is configured by SCFG. Note that when SYNC is configured as an input, the PFM mode is disabled and the device works only in con ...
Stability and dynamic performance of current
... computers use multiple microprocessors. Due to low operating voltages and highly dynamic nature of modern microprocessors, a power supply, which has a very tightly regulated output voltage, is needed. These power supplies, called voltage regulator modules (VRMs), are located on the motherboard next ...
... computers use multiple microprocessors. Due to low operating voltages and highly dynamic nature of modern microprocessors, a power supply, which has a very tightly regulated output voltage, is needed. These power supplies, called voltage regulator modules (VRMs), are located on the motherboard next ...
IOSR Journal of VLSI and Signal Processing (IOSR-JVSP)
... help of these techniques we perform comparative analysis. Evolution in VLSI continuously reduce the silicon technology to fulfill the increasing demands for higher functionality, low power and better performance at low cost. In today’s scenario, low power design becomes an important issue. Most of t ...
... help of these techniques we perform comparative analysis. Evolution in VLSI continuously reduce the silicon technology to fulfill the increasing demands for higher functionality, low power and better performance at low cost. In today’s scenario, low power design becomes an important issue. Most of t ...
Unit.5 Power Quality Monitoring
... collected, analyzed, and archived becomes a serious challenge as the number of monitoring points grows. 2. The data volume collected at each monitoring point can strain communication mechanisms employed to move that data from monitor to analysis point. 3. As understanding of system performance grows ...
... collected, analyzed, and archived becomes a serious challenge as the number of monitoring points grows. 2. The data volume collected at each monitoring point can strain communication mechanisms employed to move that data from monitor to analysis point. 3. As understanding of system performance grows ...
A 2-V 2-GHz BJT Variable Frequency Oscillator - Solid
... oscillation. The magnitude of the NIC’s conductance must be larger than the parallel resistive loading When oscillating, the signal swing is eventually determined by the circuit nonlinear phenomenon that introduces additional energy loss to balance the energy generated by the NIC [10]. The oscillati ...
... oscillation. The magnitude of the NIC’s conductance must be larger than the parallel resistive loading When oscillating, the signal swing is eventually determined by the circuit nonlinear phenomenon that introduces additional energy loss to balance the energy generated by the NIC [10]. The oscillati ...
PAM8407
... DOWN pins held low, the volume will change to the next specified step, either UP or DOWN, and followed by a short delay. This delay decreases the longer the line is held low, eventually reaching a delay of zero. The delay allows the user to pull the UP or DOWN terminal low once for one volume change ...
... DOWN pins held low, the volume will change to the next specified step, either UP or DOWN, and followed by a short delay. This delay decreases the longer the line is held low, eventually reaching a delay of zero. The delay allows the user to pull the UP or DOWN terminal low once for one volume change ...
ABWR 8.2 Offsite Power Systems 8.2.1 Description
... GDC 17—Electric Power Systems Each circuit of the preferred power supply is designed to provide sufficient capacity and capability to power equipment required to ensure that: (1) Fuel design limits and design conditions of the reactor coolant pressure boundary will not be exceeded as a result of ant ...
... GDC 17—Electric Power Systems Each circuit of the preferred power supply is designed to provide sufficient capacity and capability to power equipment required to ensure that: (1) Fuel design limits and design conditions of the reactor coolant pressure boundary will not be exceeded as a result of ant ...
LT6210/LT6211 - Single/Dual Programmable Supply Current, R-R Output, Current Feedback Amplifiers
... Note 7: While the LT6210 and LT6211 circuitry is capable of significant output current even beyond the levels specified, sustained shortcircuit current exceeding the Absolute Maximum Rating of ±80mA may permanently damage the device. Note 8: This parameter is guaranteed to meet specified performance ...
... Note 7: While the LT6210 and LT6211 circuitry is capable of significant output current even beyond the levels specified, sustained shortcircuit current exceeding the Absolute Maximum Rating of ±80mA may permanently damage the device. Note 8: This parameter is guaranteed to meet specified performance ...
PS9905 Data Sheet R08DS0058EJ0100
... the leads of the photocoupler and capacitor is no more than 10 mm. (2) When designing the printed wiring board, ensure that the pattern of the IGBT collectors/emitters is not too close to the input block pattern of the photocoupler. If the pattern is too close to the input block and coupling occurs, ...
... the leads of the photocoupler and capacitor is no more than 10 mm. (2) When designing the printed wiring board, ensure that the pattern of the IGBT collectors/emitters is not too close to the input block pattern of the photocoupler. If the pattern is too close to the input block and coupling occurs, ...
Analog Dialogue Volume 48 Number 3
... must be isolated, but isolating I2C interfaces is complicated because the bus is bidirectional. This requirement is not compatible with optocouplers, which are unidirectional. Figure 2 shows a PMBus communications link that isolates the ADM1075 –48-V hot swap and digital power monitor on the primary ...
... must be isolated, but isolating I2C interfaces is complicated because the bus is bidirectional. This requirement is not compatible with optocouplers, which are unidirectional. Figure 2 shows a PMBus communications link that isolates the ADM1075 –48-V hot swap and digital power monitor on the primary ...
LT6300 - 500mA, 200MHz xDSL Line Driver in
... has been optimized to provide sufficient headroom when operating from ±12V power supplies in full-rate ADSL applications. The LT6300 also allows for an adjustment of the operating current to minimize power consumption. In addition, the LT6300 is available in a small footprint surface mount package t ...
... has been optimized to provide sufficient headroom when operating from ±12V power supplies in full-rate ADSL applications. The LT6300 also allows for an adjustment of the operating current to minimize power consumption. In addition, the LT6300 is available in a small footprint surface mount package t ...
Mini-SAM II Layout - Simon
... (7) Trigger Inputs can be set via jumper for high or low or isolated high or low side triggering. Each input has a series limiting resistor of 4.7KΩ 1/4W and the typical isolator diode Vf = 1.15V. The current in the diode is the Idiode (mA) = (Vpullup – 1.15)/4.7 This current must always be set for ...
... (7) Trigger Inputs can be set via jumper for high or low or isolated high or low side triggering. Each input has a series limiting resistor of 4.7KΩ 1/4W and the typical isolator diode Vf = 1.15V. The current in the diode is the Idiode (mA) = (Vpullup – 1.15)/4.7 This current must always be set for ...
BD9D321EFJ
... BD9D321EFJ is a single synchronous buck switching regulator employing a constant on-time control system. It controls the on-time by using the duty ratio of VOUT /VIN inside IC so that a switching frequency becomes 700 kHz. Therefore it runs with the frequency of 700 kHz under the constant on-time de ...
... BD9D321EFJ is a single synchronous buck switching regulator employing a constant on-time control system. It controls the on-time by using the duty ratio of VOUT /VIN inside IC so that a switching frequency becomes 700 kHz. Therefore it runs with the frequency of 700 kHz under the constant on-time de ...
Liebert Series 300 DT Dual Input UPS GS
... GUIDE SPECIFICATIONS 10000VA Rack-Tower, Dual Inverter Uninterruptible Power Supply System ...
... GUIDE SPECIFICATIONS 10000VA Rack-Tower, Dual Inverter Uninterruptible Power Supply System ...
MAX8215/MAX8216 ±5V, ±12V (±15V) Dedicated Microprocessor Voltage Monitors _______________General Description
... The MAX8215/MAX8216 contain 5 comparators (Figure 1). The comparator with its output labeled DOUT is distinguished from the others in that it can be set up to monitor various voltages; each of the other 4 comparators monitors a specific voltage. The DOUT comparator’s noninverting input is available ...
... The MAX8215/MAX8216 contain 5 comparators (Figure 1). The comparator with its output labeled DOUT is distinguished from the others in that it can be set up to monitor various voltages; each of the other 4 comparators monitors a specific voltage. The DOUT comparator’s noninverting input is available ...
Direct-AC, Linear LED Driver Topology: CCR Straight
... Circuit Operation and Design The bridge rectifier outputs a half-wave sine peaking at about 170 V for 120 VAC, and about 320 V for 230 VAC. This bridge output is referenced between the cathodes of D2 and D4 to the anodes of D1 and D3. The circuit drives the LED load directly off of the output of the ...
... Circuit Operation and Design The bridge rectifier outputs a half-wave sine peaking at about 170 V for 120 VAC, and about 320 V for 230 VAC. This bridge output is referenced between the cathodes of D2 and D4 to the anodes of D1 and D3. The circuit drives the LED load directly off of the output of the ...
Power inverter
A power inverter, or inverter, is an electronic device or circuitry that changes direct current (DC) to alternating current (AC).The input voltage, output voltage and frequency, and overall power handling depend on the design of the specific device or circuitry. The inverter does not produce any power; the power is provided by the DC source.A power inverter can be entirely electronic or may be a combination of mechanical effects (such as a rotary apparatus) and electronic circuitry.Static inverters do not use moving parts in the conversion process.