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Integrated Load Switches versus Discrete
... CLOAD = total capacitance dV = change in voltage during ramp up dt = rise time (during voltage ramp up) ...
... CLOAD = total capacitance dV = change in voltage during ramp up dt = rise time (during voltage ramp up) ...
scr_res.pdf
... 5mA or so, quiescent, so a 1K will only drop 5V, but a 10K will drop 50V, which would make a difference in bias current. The difference between 10 ohms and 500 is negligible, as far as current is concerned, because we are only talking about a couple of volts. Now, at full power, the screen current i ...
... 5mA or so, quiescent, so a 1K will only drop 5V, but a 10K will drop 50V, which would make a difference in bias current. The difference between 10 ohms and 500 is negligible, as far as current is concerned, because we are only talking about a couple of volts. Now, at full power, the screen current i ...
LTC6601-2 - Low Power, Low Distortion, Low Power, Low Distortion, 5MHz to 27MHz, Pin Configurable Filter/ADC Driver
... Note 11: Output swings are measured as differences between the output and the respective power supply rail. Note 12: Extended operation with the output shorted may cause junction temperatures to exceed the 150°C limit and is not recommended. Note 13: Floating the BIAS pin will reliably place the par ...
... Note 11: Output swings are measured as differences between the output and the respective power supply rail. Note 12: Extended operation with the output shorted may cause junction temperatures to exceed the 150°C limit and is not recommended. Note 13: Floating the BIAS pin will reliably place the par ...
to this file.
... metering components that you can use to measure voltage and current. To determine their readings, you must examine the output file. (Click Analysis, Examine Output, then scroll until you find them.) Note that IPRINT and VPRINT1 have a terminal marked with a sign that corresponds to the COM termina ...
... metering components that you can use to measure voltage and current. To determine their readings, you must examine the output file. (Click Analysis, Examine Output, then scroll until you find them.) Note that IPRINT and VPRINT1 have a terminal marked with a sign that corresponds to the COM termina ...
Parameter extraction methodology for the mextram bipolar
... extraction methodology of transistor model parameters for advanced electrical models becomes a important issue. This report deals with the required measurements and parameter extraction methodology for the public domain state of the art mextram bipolar transistor model. A very fast and accurate para ...
... extraction methodology of transistor model parameters for advanced electrical models becomes a important issue. This report deals with the required measurements and parameter extraction methodology for the public domain state of the art mextram bipolar transistor model. A very fast and accurate para ...
LT4254 - Positive High Voltage Hot Swap Controller with Open
... reaches 4.65V (typ), the GATE pin is pulled low; the TIMER pull-up current will be turned off and the capacitor is discharged by a 3µA pull-down current. When the TIMER pin falls below 0.65V (typ), the GATE pin turns on again if the RETRY pin is high (if the RETRY pin is low, the UV pin must be puls ...
... reaches 4.65V (typ), the GATE pin is pulled low; the TIMER pull-up current will be turned off and the capacitor is discharged by a 3µA pull-down current. When the TIMER pin falls below 0.65V (typ), the GATE pin turns on again if the RETRY pin is high (if the RETRY pin is low, the UV pin must be puls ...
Chapter 11 Circuits
... Which bulb (or bulbs) would you expect to be the brightest? (A) V only (B) V and W only (C) V and Z only (D) V, W and Z only 49. Three different resistors R1, R2 and R3 are connected in parallel to a battery. Suppose R1 has 2 V across it, R2 = 4, and R3 dissipates 6W. What is the current in R3? ( ...
... Which bulb (or bulbs) would you expect to be the brightest? (A) V only (B) V and W only (C) V and Z only (D) V, W and Z only 49. Three different resistors R1, R2 and R3 are connected in parallel to a battery. Suppose R1 has 2 V across it, R2 = 4, and R3 dissipates 6W. What is the current in R3? ( ...
BDTIC www.BDTIC.com/infineon ICB1FL03G Smart Ballast Control IC for
... Vcc> 10,5V and VRES< VRESC1 (1,6V). An open Lowside filament is detected, when VRES> VRESC1. Such a condition will prevent the start-up of the IC. In addition the comparator threshold is set to VRESC2 (1,3V) and the current source changes to IRES4 (17µA). Now the system is waiting for a voltage leve ...
... Vcc> 10,5V and VRES< VRESC1 (1,6V). An open Lowside filament is detected, when VRES> VRESC1. Such a condition will prevent the start-up of the IC. In addition the comparator threshold is set to VRESC2 (1,3V) and the current source changes to IRES4 (17µA). Now the system is waiting for a voltage leve ...
RT8205L/M
... and also features fixed 5V/3.3V linear regulators. Each linear regulator provides up to 100mA output current with automatic linear regulator bootstrapping to the PWM outputs. An optional external charge pump can be monitored through SECFB (RT8205M). The RT8205L/M includes on-board power up sequencin ...
... and also features fixed 5V/3.3V linear regulators. Each linear regulator provides up to 100mA output current with automatic linear regulator bootstrapping to the PWM outputs. An optional external charge pump can be monitored through SECFB (RT8205M). The RT8205L/M includes on-board power up sequencin ...
Section 4: Sensor Signal Conditioning
... voltage and current levels, linearity, impedances, gain, offset, drift, time constants, maximum electrical ratings, and stray impedances and other important considerations can spell the difference between substandard and successful application of the device, especially where high resolution, precisi ...
... voltage and current levels, linearity, impedances, gain, offset, drift, time constants, maximum electrical ratings, and stray impedances and other important considerations can spell the difference between substandard and successful application of the device, especially where high resolution, precisi ...
LTC3868-1 - Low IQ, Dual 2-Phase Synchronous Step
... phase-locked loop will force the rising TG1 signal to be synchronized with the rising edge of the external clock. When not synchronizing to an external clock, this input, which acts on both controllers, determines how the ...
... phase-locked loop will force the rising TG1 signal to be synchronized with the rising edge of the external clock. When not synchronizing to an external clock, this input, which acts on both controllers, determines how the ...
Bidirectional, High-Side, Current-Sense Amplifiers with Reference General Description Features
... adjustable reference voltage set by two external resistors between REFOUT and ADJ, and GND pins. The MAX4070 contains an internal 2.5V reference. The MAX4071 is similar to the MAX4070 but with a fixed internal reference voltage of 1.5V. The MAX4072 has a reference input pin to allow use of external ...
... adjustable reference voltage set by two external resistors between REFOUT and ADJ, and GND pins. The MAX4070 contains an internal 2.5V reference. The MAX4071 is similar to the MAX4070 but with a fixed internal reference voltage of 1.5V. The MAX4072 has a reference input pin to allow use of external ...
AD637 - Analog Devices
... output goes to a high impedance state. This allows several AD637s to be tied together to form a wideband true rms multiplexer. The input circuitry of the AD637 is protected from overload voltages in excess of the supply levels. The inputs are not damaged by input signals if the supply voltages are l ...
... output goes to a high impedance state. This allows several AD637s to be tied together to form a wideband true rms multiplexer. The input circuitry of the AD637 is protected from overload voltages in excess of the supply levels. The inputs are not damaged by input signals if the supply voltages are l ...
MAX1813 Dynamically-Adjustable, Synchronous Step-Down Controller with Integrated Voltage Positioning General Description
... ease and provides 100ns “instant-on” response to load transients while maintaining a relatively constant switching frequency. The MAX1813 is designed specifically for CPU core applications requiring a voltage-positioned supply. The voltage-positioning input (VPCS), combined with a high-DC-accuracy c ...
... ease and provides 100ns “instant-on” response to load transients while maintaining a relatively constant switching frequency. The MAX1813 is designed specifically for CPU core applications requiring a voltage-positioned supply. The voltage-positioning input (VPCS), combined with a high-DC-accuracy c ...
MAX15569 2-Phase/1-Phase QuickTune-PWM Controller with Serial I C Interface
... The device’s VR is controlled by writing appropriate data into a function-mapped register file. Output voltages are dynamically changed through a 2-wire, fast I2C interface (clock, data), allowing the switching regulator to be programmed to different voltages. A slewrate controller allows controlled ...
... The device’s VR is controlled by writing appropriate data into a function-mapped register file. Output voltages are dynamically changed through a 2-wire, fast I2C interface (clock, data), allowing the switching regulator to be programmed to different voltages. A slewrate controller allows controlled ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.