iC-NVH 6-bit Sin/D Flash Converter - iC-Haus
... 6-BIT Sin/D FLASH CONVERTER Rev D1, Page 2/13 DESCRIPTION iC-NV is a monolithic A/D converter which produces two digital A/B incremental signals phase-shifted at 90° from two sinusoidal input signals, also phase-shifted at 90°. The converter operates on the flash principle with fast single comparato ...
... 6-BIT Sin/D FLASH CONVERTER Rev D1, Page 2/13 DESCRIPTION iC-NV is a monolithic A/D converter which produces two digital A/B incremental signals phase-shifted at 90° from two sinusoidal input signals, also phase-shifted at 90°. The converter operates on the flash principle with fast single comparato ...
Input and Output
... When the button IS NOT pressed (open), P10 will sense Vss (0V, LOW, 0) because it is pulled-down to Vss. When PB1 IS pressed (closed), P10 will sense Vdd (5V, HIGH, 1) making it Active-High. The BASIC Stamp has uncommitted inputs. That is, when an I/O pin is not connected and acting as an input, it ...
... When the button IS NOT pressed (open), P10 will sense Vss (0V, LOW, 0) because it is pulled-down to Vss. When PB1 IS pressed (closed), P10 will sense Vdd (5V, HIGH, 1) making it Active-High. The BASIC Stamp has uncommitted inputs. That is, when an I/O pin is not connected and acting as an input, it ...
PGA204,205 - Texas Instruments
... Figure 1 shows the basic connections required for operation of the PGA204/205. Applications with noisy or high impedance power supplies may require decoupling capacitors close to the device pins as shown. The output is referred to the output reference (Ref) terminal which is normally grounded. This ...
... Figure 1 shows the basic connections required for operation of the PGA204/205. Applications with noisy or high impedance power supplies may require decoupling capacitors close to the device pins as shown. The output is referred to the output reference (Ref) terminal which is normally grounded. This ...
AN-6206 Primary-Side Synchronous Rectifier (SR) Trigger Solution for Dual-Forward Converter
... primary-side MOSFETs are turned on. Then, SR1 should be turned off right before the primary-side MOSFETs are turned off. The freewheeling SR (SR2) should be turned on right after the primary-side MOSFETs are turned off. Then, SR2 should be turned off right before the primary-side MOSFETs are turned ...
... primary-side MOSFETs are turned on. Then, SR1 should be turned off right before the primary-side MOSFETs are turned off. The freewheeling SR (SR2) should be turned on right after the primary-side MOSFETs are turned off. Then, SR2 should be turned off right before the primary-side MOSFETs are turned ...
Rev. F
... to be used for integrators, photodiode amplifiers, piezoelectric sensors, and other applications with high source impedance. The supply current is only 45 μA per amplifier, ideal for battery operation. Rail-to-rail inputs and outputs are useful to designers buffering ASICs in single-supply systems. ...
... to be used for integrators, photodiode amplifiers, piezoelectric sensors, and other applications with high source impedance. The supply current is only 45 μA per amplifier, ideal for battery operation. Rail-to-rail inputs and outputs are useful to designers buffering ASICs in single-supply systems. ...
Driver LCA 60 W 24 V one4all SC PRE
... the requirements of low voltage installations. Different functions depending on each module. ...
... the requirements of low voltage installations. Different functions depending on each module. ...
UNISONIC TECHNOLOGIES CO., LTD LR18115
... scheme and Fully Control logic. VOUT voltage follows the 1.6 times of VSET voltage until it reaches VIN voltage. The VSET voltage must be larger than 1V to guarantee VOUT 1.6 times of VSET. When given low, VOUT can be fully turned on by FON pin. Good regulation over variation in line, load and tempe ...
... scheme and Fully Control logic. VOUT voltage follows the 1.6 times of VSET voltage until it reaches VIN voltage. The VSET voltage must be larger than 1V to guarantee VOUT 1.6 times of VSET. When given low, VOUT can be fully turned on by FON pin. Good regulation over variation in line, load and tempe ...
Bedini Motor Technology By Ask Jeff Williams
... Then charging your super capacitors, you have to take several things into consideration. Some of which we've already covered. 1) If you are using a power supply that is protected by a fuse, you have to limit the charge from the power supply from the power supply to the capacitor bank. For instance, ...
... Then charging your super capacitors, you have to take several things into consideration. Some of which we've already covered. 1) If you are using a power supply that is protected by a fuse, you have to limit the charge from the power supply from the power supply to the capacitor bank. For instance, ...
Sep 1999 Micropower, Precision Current Sense Amplifier Operates from 2.5V to 60V
... LT1635 (created by amplifying its internal 200mV reference by a gain of ten.) Note that the reference voltage is fed to the ADC, so its absolute value is not critical, except in that it will form the center point for the battery voltage measurement and will thus determine the valid battery input vol ...
... LT1635 (created by amplifying its internal 200mV reference by a gain of ten.) Note that the reference voltage is fed to the ADC, so its absolute value is not critical, except in that it will form the center point for the battery voltage measurement and will thus determine the valid battery input vol ...
Dual Interleaved Active-Clamp Forward With Automatic Charge
... to fulfill ZVS for the primary switches. However, asymmetrical voltage and current stresses on the components can cause extra problems when the input voltage or output range is wide. For example, synchronous rectifiers with higher voltage rating are needed at the penalty of degrading the efficiency. ...
... to fulfill ZVS for the primary switches. However, asymmetrical voltage and current stresses on the components can cause extra problems when the input voltage or output range is wide. For example, synchronous rectifiers with higher voltage rating are needed at the penalty of degrading the efficiency. ...
Supplemental Information (README file) The "Switchers Made
... than the value you can measure using typical parts at room temperature. The buck and buck-boost converters, using the LM2575, have typically lower phase margins. It should be noted however, that their loop gain is extremely stable, practically constant over process variations and operating temperat ...
... than the value you can measure using typical parts at room temperature. The buck and buck-boost converters, using the LM2575, have typically lower phase margins. It should be noted however, that their loop gain is extremely stable, practically constant over process variations and operating temperat ...
06_PhETPower wo kirchoff
... Build a parallel circuit with two bulbs, a switch, connecting wires, and a voltage source. Before closing the switch, predict the brightness. 7. Compare the brightness of the bulbs in this circuit with the series circuit above. Explain what is happening. Add a third bulb in parallel and a switch, so ...
... Build a parallel circuit with two bulbs, a switch, connecting wires, and a voltage source. Before closing the switch, predict the brightness. 7. Compare the brightness of the bulbs in this circuit with the series circuit above. Explain what is happening. Add a third bulb in parallel and a switch, so ...
TPS60230 WLED Charge Pump
... EN1=EN2=1, Nominal I=19 mA and Nominal V=400 mV One way to reduce this error is to ensure that the highest voltage drop occurs across the LED connected to D1. This can be done by adding a series resistor between D1 and its LED. The voltage at D1 is regulated to the same voltage, but the voltage drop ...
... EN1=EN2=1, Nominal I=19 mA and Nominal V=400 mV One way to reduce this error is to ensure that the highest voltage drop occurs across the LED connected to D1. This can be done by adding a series resistor between D1 and its LED. The voltage at D1 is regulated to the same voltage, but the voltage drop ...
Schmitt trigger
In electronics a Schmitt trigger is a comparator circuit with hysteresis implemented by applying positive feedback to the noninverting input of a comparator or differential amplifier. It is an active circuit which converts an analog input signal to a digital output signal. The circuit is named a ""trigger"" because the output retains its value until the input changes sufficiently to trigger a change. In the non-inverting configuration, when the input is higher than a chosen threshold, the output is high. When the input is below a different (lower) chosen threshold the output is low, and when the input is between the two levels the output retains its value. This dual threshold action is called hysteresis and implies that the Schmitt trigger possesses memory and can act as a bistable multivibrator (latch or flip-flop). There is a close relation between the two kinds of circuits: a Schmitt trigger can be converted into a latch and a latch can be converted into a Schmitt trigger.Schmitt trigger devices are typically used in signal conditioning applications to remove noise from signals used in digital circuits, particularly mechanical contact bounce. They are also used in closed loop negative feedback configurations to implement relaxation oscillators, used in function generators and switching power supplies.