ppt - K.f.u.p.m. OCW
... Digital-to-analog (D/A) converter – A circuit that converts digital circuit outputs to equivalent analog voltages. ...
... Digital-to-analog (D/A) converter – A circuit that converts digital circuit outputs to equivalent analog voltages. ...
Networking for Embedded Systems
... Setting REF2_5V in ADC10CTL0 to 1 selects 2.5 V as the internal reference, otherwise 1.5 V After voltage reference is turned on, we must wait about 30µs for it to settle ...
... Setting REF2_5V in ADC10CTL0 to 1 selects 2.5 V as the internal reference, otherwise 1.5 V After voltage reference is turned on, we must wait about 30µs for it to settle ...
Determination of the wavelength λe of a moving electron by
... 3. Compute the wavelength dB predicted by deBroglie’s relationship for each value of accelerating potential. 4. Compare the observed and predicted wavelengths to one another. 5. Justify the validity of the classical assumption used in part 2 by comparing relativistic and non-relativistic values of ...
... 3. Compute the wavelength dB predicted by deBroglie’s relationship for each value of accelerating potential. 4. Compare the observed and predicted wavelengths to one another. 5. Justify the validity of the classical assumption used in part 2 by comparing relativistic and non-relativistic values of ...
ICN lecture6_ Digital-Digital & Analog
... No timing information is carried to provide correct synchronisation at the receiver. (Not knowing when one bit ended and next bit starts) DC Component – when voltage level in a digital signal is constant for a while. The spectrum creates a very low frequencies which cannot allow to be passed by cert ...
... No timing information is carried to provide correct synchronisation at the receiver. (Not knowing when one bit ended and next bit starts) DC Component – when voltage level in a digital signal is constant for a while. The spectrum creates a very low frequencies which cannot allow to be passed by cert ...
Physics 4700 Experiment 1 Instrumentation and Resistor Circuits Power supply:
... supply. For a power supply to provide a negative output voltage, connect the positive terminal to ground. 1) Study the operation of the oscilloscope, multimeter, power supplies, and wave generator. For the oscilloscope you should try to understand the function of all the knobs or buttons on the fron ...
... supply. For a power supply to provide a negative output voltage, connect the positive terminal to ground. 1) Study the operation of the oscilloscope, multimeter, power supplies, and wave generator. For the oscilloscope you should try to understand the function of all the knobs or buttons on the fron ...
Experiment 10 The RLC Series Circuit, I The resonant frequency of
... Figure 1. The RLC series circuit. both channel I and channel 2 traces are displayed on the screen. Adjust the amplitude knob on the signal generator until an 800 mv peak-to-peak signal is displayed on the screen for channel I ' This voltage is Vm.Read and record the peak-to-peak signal for both chan ...
... Figure 1. The RLC series circuit. both channel I and channel 2 traces are displayed on the screen. Adjust the amplitude knob on the signal generator until an 800 mv peak-to-peak signal is displayed on the screen for channel I ' This voltage is Vm.Read and record the peak-to-peak signal for both chan ...
INTRODUCTION TO THE POWER LAB AND LAB TUTOR
... work and used in conjunction with ADInstruments' PowerLab. LabTutor controls all work of hardware such as, sampling and storage of experimental data, and allows you to display, manipulate and analyze them. ...
... work and used in conjunction with ADInstruments' PowerLab. LabTutor controls all work of hardware such as, sampling and storage of experimental data, and allows you to display, manipulate and analyze them. ...
PDF
... together go first and then Lat and Dur across the top in columns 2 and 3. Simply repeat “Do It, Do It, Do It, In Deed, In Deed, In Deed” (three times each) using the “D’s” for decrease and the “I’s” for increase, and place them in order top to bottom, left to right. You can easily see how the measur ...
... together go first and then Lat and Dur across the top in columns 2 and 3. Simply repeat “Do It, Do It, Do It, In Deed, In Deed, In Deed” (three times each) using the “D’s” for decrease and the “I’s” for increase, and place them in order top to bottom, left to right. You can easily see how the measur ...
The Field Effect Transistor
... FET, OPAmps I. p. 3 (b) The gain of the amplifier depends upon the transconductance gm. From Figure 3 on the data page, show that you expect gm ≈ 10-3 mho. (Recall that a mho is a ...
... FET, OPAmps I. p. 3 (b) The gain of the amplifier depends upon the transconductance gm. From Figure 3 on the data page, show that you expect gm ≈ 10-3 mho. (Recall that a mho is a ...
User Manual Rev. 01a
... hold down [OK] button for about 2 seconds. You will set the trace aligned to VPOS indicator when you release [OK] button. You may see some residue mismatch remains at the highest sensitivity settings. This is normal. ...
... hold down [OK] button for about 2 seconds. You will set the trace aligned to VPOS indicator when you release [OK] button. You may see some residue mismatch remains at the highest sensitivity settings. This is normal. ...
Tektronix 1103 - cloudfront.net
... Interface, eliminating the need for extra cabling and/or external power supplies.*2 Probe information such as type, serial number, attenuation factor, offset scale factor, input resistance and termination resistance required is communicated through the TEKPROBE Interface between the Active Probe and ...
... Interface, eliminating the need for extra cabling and/or external power supplies.*2 Probe information such as type, serial number, attenuation factor, offset scale factor, input resistance and termination resistance required is communicated through the TEKPROBE Interface between the Active Probe and ...
CIRCUIT FUNCTION AND BENEFITS CIRCUIT DESCRIPTION
... to an input current IS of about 25 mA. Therefore, currents less than about 25 mA cannot be measured. However, accuracy for very low currents is not usually required. The ratios of the four resistors that form the subtractor must be matched to obtain maximum common-mode rejection (CMR). In this stage ...
... to an input current IS of about 25 mA. Therefore, currents less than about 25 mA cannot be measured. However, accuracy for very low currents is not usually required. The ratios of the four resistors that form the subtractor must be matched to obtain maximum common-mode rejection (CMR). In this stage ...
ACCURATE DIGITAL THREE-PHASE ELECTRICITY METER AND GENERATOR Branislav Lojko
... Electronic methods of power and energy measurement are based on different principles, [1], [2]. The methods suitable for use in digital electricity meters may use Hall effect, [3], pulse-width modulation (time-division multiplier), [4], analogue multiplying IC, [5], three-terminal thermoconverter (T ...
... Electronic methods of power and energy measurement are based on different principles, [1], [2]. The methods suitable for use in digital electricity meters may use Hall effect, [3], pulse-width modulation (time-division multiplier), [4], analogue multiplying IC, [5], three-terminal thermoconverter (T ...
CIRCUIT FUNCTION AND BENEFITS CIRCUIT DESCRIPTION
... (Continued from first page) "Circuits from the Lab" are intended only for use with Analog Devices products and are the intellectual property of Analog Devices or its licensors. While you may use the "Circuits from the Lab" in the design of your product, no other license is granted by implication or ...
... (Continued from first page) "Circuits from the Lab" are intended only for use with Analog Devices products and are the intellectual property of Analog Devices or its licensors. While you may use the "Circuits from the Lab" in the design of your product, no other license is granted by implication or ...
Oscilloscope types
This is a subdivision of the Oscilloscope article, discussing the various types and models of oscilloscopes in greater detail.