AP7331 300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT LOW DROPOUT LINEAR REGULATOR
... reduces to approximately +125°C the output circuitry is enabled again. Depending on power dissipation, thermal resistance, and ambient temperature, the thermal protection circuit may cycle on and off. This cycling limits the heat dissipation of the regulator, protecting it from damage due to overhea ...
... reduces to approximately +125°C the output circuitry is enabled again. Depending on power dissipation, thermal resistance, and ambient temperature, the thermal protection circuit may cycle on and off. This cycling limits the heat dissipation of the regulator, protecting it from damage due to overhea ...
STEVAL-ISA053V1
... adjustable output voltages for notebook computer power systems. The STEVAL-ISA053V1 demonstration board is designed to test the performance of the PM6680 by employing a typical application circuit which allows testing of all PM6680 device functions. The board features two switching sections, with (t ...
... adjustable output voltages for notebook computer power systems. The STEVAL-ISA053V1 demonstration board is designed to test the performance of the PM6680 by employing a typical application circuit which allows testing of all PM6680 device functions. The board features two switching sections, with (t ...
Electromagnetic Simulation for Power Integrity: From Analysis to
... As transistors in an integrated circuit (IC) start switching, current needs to be supplied by the power delivery network (PDN). Because of the current flow through the impedance of the PDN, power-supply voltage fluctuates from its DC value. The power supply noise eventually degrades the signal quali ...
... As transistors in an integrated circuit (IC) start switching, current needs to be supplied by the power delivery network (PDN). Because of the current flow through the impedance of the PDN, power-supply voltage fluctuates from its DC value. The power supply noise eventually degrades the signal quali ...
MAX9060–MAX9064 Ultra-Small, Low-Power Single Comparators in 4-Bump UCSP and 5 SOT23 General Description
... signals even when the device power-supply voltage is completely turned off (VCC or REF taken to 0V). This greatly benefits flexible power-saving schemes to be easily implemented in advanced battery-operated devices. On-chip filtering provides immunity from any RF noise being picked up by input trace ...
... signals even when the device power-supply voltage is completely turned off (VCC or REF taken to 0V). This greatly benefits flexible power-saving schemes to be easily implemented in advanced battery-operated devices. On-chip filtering provides immunity from any RF noise being picked up by input trace ...
Ultra-Low Noise Amplifier
... The COMLINEAR CLC1002(single) is a high-performance, voltage feedback amplifier with ultra-low input voltage noise, 0.6nV/√Hz. The CLC1002 provides 965MHz gain bandwidth product and 170V/μs slew rate making it well suited for high-speed data acquisition systems requiring high levels of sensitivity a ...
... The COMLINEAR CLC1002(single) is a high-performance, voltage feedback amplifier with ultra-low input voltage noise, 0.6nV/√Hz. The CLC1002 provides 965MHz gain bandwidth product and 170V/μs slew rate making it well suited for high-speed data acquisition systems requiring high levels of sensitivity a ...
OPA356-Q1
... The OPA356 is a high-speed voltage-feedback CMOS operational amplifier designed for video and other applications requiring wide bandwidth. The OPA356 is unity gain stable and can drive large output currents. Differential gain is 0.02% and differential phase is 0.05°. Quiescent current is only 8.3 mA ...
... The OPA356 is a high-speed voltage-feedback CMOS operational amplifier designed for video and other applications requiring wide bandwidth. The OPA356 is unity gain stable and can drive large output currents. Differential gain is 0.02% and differential phase is 0.05°. Quiescent current is only 8.3 mA ...
MAX1638 High-Speed Step-Down Controller with Synchronous Rectification for CPU Power General Description
... Note 2: AC load regulation sets the AC loop gain, to make tradeoffs between output filter capacitor size and transient response, and has only a slight effect on DC accuracy or DC load-regulation error. Note 3: Specifications from 0°C to -40°C are guaranteed by design, not production tested. ...
... Note 2: AC load regulation sets the AC loop gain, to make tradeoffs between output filter capacitor size and transient response, and has only a slight effect on DC accuracy or DC load-regulation error. Note 3: Specifications from 0°C to -40°C are guaranteed by design, not production tested. ...
13-14 thru 13-26
... may be interchanged in position. However, such an interchange necessitates five electrical leads from one position to the other and gives no advantages. If the control device rotates continuously in one direction, the servo motor will rotate in the same direction at the same rate but with a small an ...
... may be interchanged in position. However, such an interchange necessitates five electrical leads from one position to the other and gives no advantages. If the control device rotates continuously in one direction, the servo motor will rotate in the same direction at the same rate but with a small an ...
Negative-Sequence Impedance Directional Element
... gives a negative-sequence impedance which is positive and a forward fault gives a negativesequence impedance which is negative, Z2R is always set more positive than Z2F. For practically every application, Z2F can be set for ½ the positive-sequence impedance of the line and Z2R can be set equal to Z2 ...
... gives a negative-sequence impedance which is positive and a forward fault gives a negativesequence impedance which is negative, Z2R is always set more positive than Z2F. For practically every application, Z2F can be set for ½ the positive-sequence impedance of the line and Z2R can be set equal to Z2 ...
Pentium® 4 - Webcourse
... P = aCV2f - Work done per time unit (Watts) (a: activity, C: capacitance, V: voltage, f: frequency) Static Power (Leakage): consumed by all “inactive transistors”, it depends on temperature and voltage. Power aware architectures -> aim to reduce peak power ...
... P = aCV2f - Work done per time unit (Watts) (a: activity, C: capacitance, V: voltage, f: frequency) Static Power (Leakage): consumed by all “inactive transistors”, it depends on temperature and voltage. Power aware architectures -> aim to reduce peak power ...
8850042-A SB24 Bell Strobe Series.indd
... Amseco’s Bell/Select-A-Strobe Series is designed to be ADA compliant and meet UL standard 1971 requirements for emergency signaling devices for the hearing impaired. The strobe features a unique candela intensity tamper-proof field selector switch for switching the candela output from 15cd to 30cd. ...
... Amseco’s Bell/Select-A-Strobe Series is designed to be ADA compliant and meet UL standard 1971 requirements for emergency signaling devices for the hearing impaired. The strobe features a unique candela intensity tamper-proof field selector switch for switching the candela output from 15cd to 30cd. ...
II. H∞ output feedback controller design
... represent a high cost ratio benefit. It is an expensive solution, especially if primary and secondary breakers with their associated equipment are numerous. In addition to the cost, upgrading of the existing substations can be a complicated process because of the number of equipment to be substitute ...
... represent a high cost ratio benefit. It is an expensive solution, especially if primary and secondary breakers with their associated equipment are numerous. In addition to the cost, upgrading of the existing substations can be a complicated process because of the number of equipment to be substitute ...
TR41.7-10-05-008-L-R1-SmartGridSurges
... As an illustration of this situation, consider a possible home network as shown in Figure 1. The important thing to notice is that much of the equipment connected to the home network is connected more than one service, e.g. AC power, wired communications lines, roof-top antennas. All ports of the eq ...
... As an illustration of this situation, consider a possible home network as shown in Figure 1. The important thing to notice is that much of the equipment connected to the home network is connected more than one service, e.g. AC power, wired communications lines, roof-top antennas. All ports of the eq ...
underground cable fault distance locator
... Open circuit fault happens, when there is a break in the conducting path of a cable. These kind of faults are better comparatively short circuit faults because when these fault occur current flows through cable becomes zero. The open-circuit fault can be detect by megger by measuring resistance betw ...
... Open circuit fault happens, when there is a break in the conducting path of a cable. These kind of faults are better comparatively short circuit faults because when these fault occur current flows through cable becomes zero. The open-circuit fault can be detect by megger by measuring resistance betw ...
industrial accelerometers
... tolerance, the calibrated output of the sensor could range from 90 mV/g (-10%) to 110 mV/g (+10%). However, if you were to choose a 500 mV/g accelerometer with a +/- 10% sensitivity tolerance, the calibrated output of the sensor could range from 450 mV/g (-10%) to 550 mV/g (+10%). Since vibration an ...
... tolerance, the calibrated output of the sensor could range from 90 mV/g (-10%) to 110 mV/g (+10%). However, if you were to choose a 500 mV/g accelerometer with a +/- 10% sensitivity tolerance, the calibrated output of the sensor could range from 450 mV/g (-10%) to 550 mV/g (+10%). Since vibration an ...
Disclaimer We spared no efforts to make sure that the information in
... consumption of all connected equipment should be less than maximum allowed (see the specifications). If the power consumption is rated in amps, multiply them by the AC voltage (110/220/230/240V) to determine the wattage. For example, a television rated at 0.9 amps with output voltage power of 110 V ...
... consumption of all connected equipment should be less than maximum allowed (see the specifications). If the power consumption is rated in amps, multiply them by the AC voltage (110/220/230/240V) to determine the wattage. For example, a television rated at 0.9 amps with output voltage power of 110 V ...