LM318
... The UTC LM318 is a precision, high speed, high gain operational amplifier that has been specifically designed for use in high slew rate and wide bandwidth applications. Unlike many wideband amplifiers, the UTC LM318 is unity-gain stable since it has internal circuitry for frequency compensation. How ...
... The UTC LM318 is a precision, high speed, high gain operational amplifier that has been specifically designed for use in high slew rate and wide bandwidth applications. Unlike many wideband amplifiers, the UTC LM318 is unity-gain stable since it has internal circuitry for frequency compensation. How ...
Capacitors Problem Set
... 13. Compact ultracapacitors with capacitance values up to several thousand farads are now commercially available. One application for ultracapacitors is in providing power for electrical circuits when other sources (such as a battery) are turned off. To get an idea of how much charge can be stored i ...
... 13. Compact ultracapacitors with capacitance values up to several thousand farads are now commercially available. One application for ultracapacitors is in providing power for electrical circuits when other sources (such as a battery) are turned off. To get an idea of how much charge can be stored i ...
ACCURATE DIGITAL THREE-PHASE ELECTRICITY METER AND GENERATOR Branislav Lojko
... of the voltage dividers are switched by a range switch which is controlled by the processor system automatically according to the output values of the A/D converters or according to the desired entered range. Overvoltage protection is a simple way of the voltage limitation in case of the occurrence ...
... of the voltage dividers are switched by a range switch which is controlled by the processor system automatically according to the output values of the A/D converters or according to the desired entered range. Overvoltage protection is a simple way of the voltage limitation in case of the occurrence ...
Notes for Experimental Physics Experiments
... the peak channel of a symmetric triangle). In either method the channel number or wavelength of a peak should be accompanied by an error bar. You may assume that these uncertainties dominate the measurements. Use these to determine the uncertainties on the calibration coefficients. Include these in ...
... the peak channel of a symmetric triangle). In either method the channel number or wavelength of a peak should be accompanied by an error bar. You may assume that these uncertainties dominate the measurements. Use these to determine the uncertainties on the calibration coefficients. Include these in ...
FLIR AX5 IO Synchronization 052013
... two cameras, one configured as master and the other configured as slave. It can also be used to synchronize the frame start of a camera with that of another product. Master/Slave synchronization between two AX5 cameras (NTSC). ...
... two cameras, one configured as master and the other configured as slave. It can also be used to synchronize the frame start of a camera with that of another product. Master/Slave synchronization between two AX5 cameras (NTSC). ...
Smart transmitters
... • Two-way communication. Microcontroller can not only receive and process sensor data, can also be feedback to the sensors, • Can store the characteristics of the sensor data, configuration information, and compensation ...
... • Two-way communication. Microcontroller can not only receive and process sensor data, can also be feedback to the sensors, • Can store the characteristics of the sensor data, configuration information, and compensation ...
Lecture 1 - EECS: www-inst.eecs.berkeley.edu
... Example: We want to encode to an accuracy of one part in 64 (i.e. 1.5% precision). It takes 6 binary digits (or “bits”) to represent any number 0 to 63. Example: Possible digital representation for a pure sine wave of known frequency. We must choose maximum value and “resolution” or “error,” then we ...
... Example: We want to encode to an accuracy of one part in 64 (i.e. 1.5% precision). It takes 6 binary digits (or “bits”) to represent any number 0 to 63. Example: Possible digital representation for a pure sine wave of known frequency. We must choose maximum value and “resolution” or “error,” then we ...
digital mini project
... calculate according to the following formula : T=0.7(R1+2R2)C1, these clock pulses will be then supplied to the 4017 counter, this counter has ten outputs (QO to Q9) and each and every one of them becomes high (‘on’) in turn as the clock pulses are received. We only have used outputs Q0,Q1,Q3 and Q4 ...
... calculate according to the following formula : T=0.7(R1+2R2)C1, these clock pulses will be then supplied to the 4017 counter, this counter has ten outputs (QO to Q9) and each and every one of them becomes high (‘on’) in turn as the clock pulses are received. We only have used outputs Q0,Q1,Q3 and Q4 ...
tripping signal switch 2co, 250vac/4a, snap-on
... • Screwless mounting, aditional snap on to MCB and RCBO • The contact material and construction are particularly suitable for low voltages • Function of the two change-over contacts switched to trigger signal contact (electrical signals triggering) • Test button for contact function "electric trippi ...
... • Screwless mounting, aditional snap on to MCB and RCBO • The contact material and construction are particularly suitable for low voltages • Function of the two change-over contacts switched to trigger signal contact (electrical signals triggering) • Test button for contact function "electric trippi ...
O A RIGINAL RTICLE
... resistance for a given voltage. This means the current decreases as the resistance increases, or it increases as the resistance decreases. The result that obtains from the experiment is following the ohm’s law. Current enters the rheostat through one of its terminals, flows through the wire coil and ...
... resistance for a given voltage. This means the current decreases as the resistance increases, or it increases as the resistance decreases. The result that obtains from the experiment is following the ohm’s law. Current enters the rheostat through one of its terminals, flows through the wire coil and ...
Sensors
... to send 1 ms of 38.5 kHz FREQOUT harmonic, and then, immediately store the IR detector’s output in a variable. FREQOUT 8, 1, 38500 irDetectLeft = IN9 The IR detector’s output state when it sees no IR signal is high. When the IR detector sees the 38500 Hz harmonic reflected by an object, its output i ...
... to send 1 ms of 38.5 kHz FREQOUT harmonic, and then, immediately store the IR detector’s output in a variable. FREQOUT 8, 1, 38500 irDetectLeft = IN9 The IR detector’s output state when it sees no IR signal is high. When the IR detector sees the 38500 Hz harmonic reflected by an object, its output i ...
Class notes on capacitors
... When the capacitor is fully charged current no longer flows through the resistor. If we flick the switch again to short-circuit the power supply, the capacitor discharges in the reverse direction, acting as a varying (decreasing) voltage supply that causes current to flow in the opposite direction t ...
... When the capacitor is fully charged current no longer flows through the resistor. If we flick the switch again to short-circuit the power supply, the capacitor discharges in the reverse direction, acting as a varying (decreasing) voltage supply that causes current to flow in the opposite direction t ...
EELab2_Exp2_AD_Converter_V3 720KB Apr 18 2016 08:18:48
... 3. Understanding the applications of ADC in embedded system design. ...
... 3. Understanding the applications of ADC in embedded system design. ...
Electronics Questions
... 11. Describe how you could do an experiment to measure the speed of sound. 12. A tourist is 1 km away from the castle in Edinburgh when the 1 o’clock gun is fired. They notice a time difference of 3 seconds between seeing the flash from the gun barrel and hearing the sound of the gun. Calculate the ...
... 11. Describe how you could do an experiment to measure the speed of sound. 12. A tourist is 1 km away from the castle in Edinburgh when the 1 o’clock gun is fired. They notice a time difference of 3 seconds between seeing the flash from the gun barrel and hearing the sound of the gun. Calculate the ...
Experiment5
... difference. In Figure V-2, note that VR leads V(t) by a time difference δt= /ω. Experiment Part A In this part, you are to use a ~100 Hz sine wave as input and display the two signals V0(t) and VR(t) on the scope. Remember to set up the circuit such that you have either have the capacitor followed ...
... difference. In Figure V-2, note that VR leads V(t) by a time difference δt= /ω. Experiment Part A In this part, you are to use a ~100 Hz sine wave as input and display the two signals V0(t) and VR(t) on the scope. Remember to set up the circuit such that you have either have the capacitor followed ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.