note1448_20mA Analog Input
... quality of the 500 ohm resistor, therefore, a precision resistor is recommended. To get more full operation over the complete voltage range, a simple opamp circuit can ...
... quality of the 500 ohm resistor, therefore, a precision resistor is recommended. To get more full operation over the complete voltage range, a simple opamp circuit can ...
Multiple-output Switched Mode Power Supplies (SMPSs)
... a diode bridge rectifier (DBR) with a capacitor filter followed by an isolated dc-dc converter to achieve multiple dc output voltages of different ratings. ...
... a diode bridge rectifier (DBR) with a capacitor filter followed by an isolated dc-dc converter to achieve multiple dc output voltages of different ratings. ...
CD54HC377/3A CD54HCT377/3A Octal D-Type Flip-Flop with Data Enable Functional Diagram
... TA = -55oC to +100oC (Package F) . . . . . . . . . . . . . . . . . . 500mW TA = +100oC to +125oC (Package F) . . . . . . . . Derate Linearly at 8mW/ oC to 300mW Operating Temperature Range, TA Package Type F . . . . . . . . . . . . . . . . . . . . . . . . . . -55oC to +125oC Storage Temperature, TST ...
... TA = -55oC to +100oC (Package F) . . . . . . . . . . . . . . . . . . 500mW TA = +100oC to +125oC (Package F) . . . . . . . . Derate Linearly at 8mW/ oC to 300mW Operating Temperature Range, TA Package Type F . . . . . . . . . . . . . . . . . . . . . . . . . . -55oC to +125oC Storage Temperature, TST ...
Introduction - facstaff.bucknell.edu
... voltage of an LM 35 from a 10 mV/°C scale to a 10 mV/°F scale. Use power supply voltages of ±10 V for the entire circuit. You will have to determine appropriate values for resistors R1 and R2 and the voltage reference Vref. Initially use a short in place of Rx. (That is, set Rx = 0.) Note that many ...
... voltage of an LM 35 from a 10 mV/°C scale to a 10 mV/°F scale. Use power supply voltages of ±10 V for the entire circuit. You will have to determine appropriate values for resistors R1 and R2 and the voltage reference Vref. Initially use a short in place of Rx. (That is, set Rx = 0.) Note that many ...
DN-73 UCC3941 One Volt Boost Converter
... are printed on the circuit board next to the associated components. Alternate components can be substituted, however a few words of caution are in order. High quality low ESL, low ESR, capacitors should be used in order to keep the output ripple voltage low and minimize noise that could effect circu ...
... are printed on the circuit board next to the associated components. Alternate components can be substituted, however a few words of caution are in order. High quality low ESL, low ESR, capacitors should be used in order to keep the output ripple voltage low and minimize noise that could effect circu ...
Op Amp Practice 2 work sheet
... More channels may be added in a similar fashion. Non-inverting summers are also possible. One way is to simply add inverting stages to the inputs (i.e, invert the inversion). Gain is best adjusted via separate pots (such as an output volume control) rather than replacing Rf or the input resistors di ...
... More channels may be added in a similar fashion. Non-inverting summers are also possible. One way is to simply add inverting stages to the inputs (i.e, invert the inversion). Gain is best adjusted via separate pots (such as an output volume control) rather than replacing Rf or the input resistors di ...
4N1.1 Four Analog Input to Average, Highest, Lowest, or Difference
... 1) 24 VDC - with power off, connect 24 volt DC power supply to power (+) and (-) terminals on the board. 24 VAC - with power off, connect one transformer secondary leg to power (+) and the other to (-) or common. Check the wiring configuration of any other loads that may be connected to this tra ...
... 1) 24 VDC - with power off, connect 24 volt DC power supply to power (+) and (-) terminals on the board. 24 VAC - with power off, connect one transformer secondary leg to power (+) and the other to (-) or common. Check the wiring configuration of any other loads that may be connected to this tra ...
Lab 6
... accelerating the circuit towards the correct decision. Circuit Exercise 4 – Breadboard the simple comparator below and drive it with the function generator using a sine wave that crosses ground (the reference voltage). This circuit doesn’t benefit from positive feedback, but it usually works just fi ...
... accelerating the circuit towards the correct decision. Circuit Exercise 4 – Breadboard the simple comparator below and drive it with the function generator using a sine wave that crosses ground (the reference voltage). This circuit doesn’t benefit from positive feedback, but it usually works just fi ...
Bertan 230 Series of High Voltage Power Supplies, Spellman High
... Front panel control: ±(0.2% of setting + 0.2% of maximum) Front panel Meter: Voltage ±(0.5% of setting + 0.5% of maximum), Current ±(2% of setting + 0.5% of maximum) Remote Programming: ±(0.1% of setting + 0.1% of maximum) Voltage Monitor: ±(0.1% of reading + 0.1% of maximum) Current Monitor: ±(2% o ...
... Front panel control: ±(0.2% of setting + 0.2% of maximum) Front panel Meter: Voltage ±(0.5% of setting + 0.5% of maximum), Current ±(2% of setting + 0.5% of maximum) Remote Programming: ±(0.1% of setting + 0.1% of maximum) Voltage Monitor: ±(0.1% of reading + 0.1% of maximum) Current Monitor: ±(2% o ...
AD633 Low Cost Analog Multiplier Data Sheet (REV. E)
... features in modestly priced 8-lead plastic DIP and SOIC packages. The AD633 is laser calibrated to a guaranteed total accuracy of 2% of full scale. Nonlinearity for the Y input is typically less than 0.1% and noise referred to the output is typically less than 100 µV rms in a 10 Hz to 10 kHz bandwid ...
... features in modestly priced 8-lead plastic DIP and SOIC packages. The AD633 is laser calibrated to a guaranteed total accuracy of 2% of full scale. Nonlinearity for the Y input is typically less than 0.1% and noise referred to the output is typically less than 100 µV rms in a 10 Hz to 10 kHz bandwid ...
High Voltage Opamp PR2201 / PR2202 High Voltage Operational
... PREMA Semiconductors products are not authorized for use as critical components in life support devices or systems without the express written approval of PREMA Semiconductor. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into ...
... PREMA Semiconductors products are not authorized for use as critical components in life support devices or systems without the express written approval of PREMA Semiconductor. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into ...
Lab 4: Phase Shift Oscillator - EECS: www
... A phase-shift oscillator is shown in the following figure. In order to obtain sustained oscillation, the phase margin and gain margin of the circuit must be set to zero. This zero margin condition is equivalent to the condition that the complex poles of the circuit are on the imaginary axes. In this ...
... A phase-shift oscillator is shown in the following figure. In order to obtain sustained oscillation, the phase margin and gain margin of the circuit must be set to zero. This zero margin condition is equivalent to the condition that the complex poles of the circuit are on the imaginary axes. In this ...
Lab 6 - Kirchhoff`s Laws
... reducible by the usual rules for adding resistors in series and parallel. 1. Set up the following circuit: ...
... reducible by the usual rules for adding resistors in series and parallel. 1. Set up the following circuit: ...
Integrating ADC
An integrating ADC is a type of analog-to-digital converter that converts an unknown input voltage into a digital representation through the use of an integrator. In its most basic implementation, the unknown input voltage is applied to the input of the integrator and allowed to ramp for a fixed time period (the run-up period). Then a known reference voltage of opposite polarity is applied to the integrator and is allowed to ramp until the integrator output returns to zero (the run-down period). The input voltage is computed as a function of the reference voltage, the constant run-up time period, and the measured run-down time period. The run-down time measurement is usually made in units of the converter's clock, so longer integration times allow for higher resolutions. Likewise, the speed of the converter can be improved by sacrificing resolution.Converters of this type can achieve high resolution, but often do so at the expense of speed. For this reason, these converters are not found in audio or signal processing applications. Their use is typically limited to digital voltmeters and other instruments requiring highly accurate measurements.