RT8580 - Richtek
... regulator. In normal operation, the N-MOSFET is turned on when the PWM control circuit is set by the oscillator. As the N-MOSFET is on, the inductor current ramps up. The N-MOSFET will be turned off when the inductor current hits the level set by the PWM control loop. After the N-MOSFET is turned of ...
... regulator. In normal operation, the N-MOSFET is turned on when the PWM control circuit is set by the oscillator. As the N-MOSFET is on, the inductor current ramps up. The N-MOSFET will be turned off when the inductor current hits the level set by the PWM control loop. After the N-MOSFET is turned of ...
ROBOT RESISTANCE LAB
... ROBOT RESISTANCE LAB I. Purpose: Identify resistors by color code and view their effects on the current or motion of the robot. Explanation: The robot is programmed to read the difference in voltage between the 1kΩ resistor and the second resistor implanted by the students. This difference in voltag ...
... ROBOT RESISTANCE LAB I. Purpose: Identify resistors by color code and view their effects on the current or motion of the robot. Explanation: The robot is programmed to read the difference in voltage between the 1kΩ resistor and the second resistor implanted by the students. This difference in voltag ...
FWE-Exec Template
... Handheld Battery Powered Products – Cell Phones, Digital Still Cameras, PDAs, MP3 Players, PNDs, etc. Industrial Control and Instrumentation Automotive – Navigation and Infotainment Telecommunications – Infrastructure Computer – Servers, Workstations and Notebook PC © 2006 Linear Technolog ...
... Handheld Battery Powered Products – Cell Phones, Digital Still Cameras, PDAs, MP3 Players, PNDs, etc. Industrial Control and Instrumentation Automotive – Navigation and Infotainment Telecommunications – Infrastructure Computer – Servers, Workstations and Notebook PC © 2006 Linear Technolog ...
June 2006 - Vicphysics
... vin = 0.3 Vp-p = 300 mVp-p, so vout = 60 V. Clipping should occur at +8 (1) (20V – 12V) and -8 V (1) (12V – 4V), when vin = 50 mVp-p. The output will also be inverted. (1). The vOUT is measured after the capacitor, so the voltage will be centred on zero volts (1) and will be like a square wave wi ...
... vin = 0.3 Vp-p = 300 mVp-p, so vout = 60 V. Clipping should occur at +8 (1) (20V – 12V) and -8 V (1) (12V – 4V), when vin = 50 mVp-p. The output will also be inverted. (1). The vOUT is measured after the capacitor, so the voltage will be centred on zero volts (1) and will be like a square wave wi ...
Thermostat Pattern drawing
... Temperature Coefficient Thermistor)-type thermistor. It has the characteristic that the resistance value decreases when the temperature rises. I used this thermistor because it was possible to be obtained by chance by me. Because I didn't understand detailed data, first, I measured the change of the ...
... Temperature Coefficient Thermistor)-type thermistor. It has the characteristic that the resistance value decreases when the temperature rises. I used this thermistor because it was possible to be obtained by chance by me. Because I didn't understand detailed data, first, I measured the change of the ...
MAX846A Cost-Saving Multichemistry Battery-Charger System _______________General Description
... resistor (RCS) to a current, and applying this current to an external load resistor (RISET). Set the charge current by selecting RCS and RISET. The charge current can also be adjusted by varying the voltage at the low side of RISET or by summing/subtracting current from the ISET node (Figure 5). The ...
... resistor (RCS) to a current, and applying this current to an external load resistor (RISET). Set the charge current by selecting RCS and RISET. The charge current can also be adjusted by varying the voltage at the low side of RISET or by summing/subtracting current from the ISET node (Figure 5). The ...
Superposition
... Solve for the voltages and currents in the new circuit. Turn off the active independent source and turn on one of the other independent sources. 5. Repeat Steps 2 and 3. 6. Continue until you have turned on each of the independent sources in the original circuit. 7. To find the total voltage across ...
... Solve for the voltages and currents in the new circuit. Turn off the active independent source and turn on one of the other independent sources. 5. Repeat Steps 2 and 3. 6. Continue until you have turned on each of the independent sources in the original circuit. 7. To find the total voltage across ...
MS Word theory document for JLH-822 voltage
... You can configure op amps so they don’t invert. However, it is not an easy task to make a summing amp that is non-inverting. And, since we are VERY interested in accuracy in this circuit, the best method is the well-traveled inverting summing amp. The amp has 3 input resistors, they are R21, R24, an ...
... You can configure op amps so they don’t invert. However, it is not an easy task to make a summing amp that is non-inverting. And, since we are VERY interested in accuracy in this circuit, the best method is the well-traveled inverting summing amp. The amp has 3 input resistors, they are R21, R24, an ...
ACCIRC
... The phasor diagram can be constructed in a similar manner to that used in Section F3 with the other series circuits. You can see the phasor diagram in Figure F.26. ...
... The phasor diagram can be constructed in a similar manner to that used in Section F3 with the other series circuits. You can see the phasor diagram in Figure F.26. ...
PRICE LIST for the production of PubJSC Uman Plant«Меgommetr
... 2 ЭС0202/1Г, ЭС0202/2Г – MEGOHMMETER ТУ25-7534.014-90 Designed to measure the insulation resistance of electrical circuits which are not energized. Measuring range: ЭС0202/1G 0-1000 МОhm. Rated voltage 100, 250, 500 V ЭС0202/1G 0-10000 МОhm. Rated voltage 500, 1000, 2500 V Device in a bag with a set ...
... 2 ЭС0202/1Г, ЭС0202/2Г – MEGOHMMETER ТУ25-7534.014-90 Designed to measure the insulation resistance of electrical circuits which are not energized. Measuring range: ЭС0202/1G 0-1000 МОhm. Rated voltage 100, 250, 500 V ЭС0202/1G 0-10000 МОhm. Rated voltage 500, 1000, 2500 V Device in a bag with a set ...
Electricity
... Using Voltmeter (device that measures voltage) measure the voltage of several batteries. Connect the voltmeter across the single battery, batteries connected in series, or parallel connected batteries. You will use batteries with nominal voltage 1.5 V. The actual battery voltage may be lower than th ...
... Using Voltmeter (device that measures voltage) measure the voltage of several batteries. Connect the voltmeter across the single battery, batteries connected in series, or parallel connected batteries. You will use batteries with nominal voltage 1.5 V. The actual battery voltage may be lower than th ...
RC and RL Circuits
... 0s. This charge could have been stored because a voltage or current source had been in the circuit at t<0s, but was switched off at t = 0s. We can use the equations relating voltage and current to determine how the charge on the capacitor is removed as a function of time. The charge flows from o ...
... 0s. This charge could have been stored because a voltage or current source had been in the circuit at t<0s, but was switched off at t = 0s. We can use the equations relating voltage and current to determine how the charge on the capacitor is removed as a function of time. The charge flows from o ...
All Schottky Diodes are Zero Bias Detectors Application Note 988
... The Effect of Load Resistance A detector diode may be considered as a video voltage source of impedance RV feeding a load resistance RL. The voltage across the load is reduced by the ratio of RL to RV + RL. The diode resistance RV is related to the saturation current IS appearing in the diode equati ...
... The Effect of Load Resistance A detector diode may be considered as a video voltage source of impedance RV feeding a load resistance RL. The voltage across the load is reduced by the ratio of RL to RV + RL. The diode resistance RV is related to the saturation current IS appearing in the diode equati ...
How to Make Linear Mode Work
... RDS(on) of 0.090Ω maximum at room temperature (and 26A). At 125°C the RDS(on) is double, so 0.180Ω per part. The maximum total resistance allowed is 1V / 20A = 0.050Ω. The minimum number of parts required to meet the on-state voltage requirement is found as: 0.180Ω / 0.050Ω = 3.6, so 4 parts minimum ...
... RDS(on) of 0.090Ω maximum at room temperature (and 26A). At 125°C the RDS(on) is double, so 0.180Ω per part. The maximum total resistance allowed is 1V / 20A = 0.050Ω. The minimum number of parts required to meet the on-state voltage requirement is found as: 0.180Ω / 0.050Ω = 3.6, so 4 parts minimum ...
SVETLANA TECHNICAL DATA
... The Svetlana 300B uses ultra-pure carbonized nickel plate material and a proprietary oxide coating on the TM filament to give Western Electric -like performance. The internal structure is well-supported and is aligned with respect to the base pins to avoid internal shorts in equipment designed for h ...
... The Svetlana 300B uses ultra-pure carbonized nickel plate material and a proprietary oxide coating on the TM filament to give Western Electric -like performance. The internal structure is well-supported and is aligned with respect to the base pins to avoid internal shorts in equipment designed for h ...