Capacitor Self
... oscilloscope settings as indicated in Figure 3. The Average softkey, under the Display hardkey menu, was used here to remove some noise on both traces. 2) See Figure 3. Measure the average (DC value) and the peak-peak (ripple) voltage of Channel 1. Channel 2 shows the peak current pulses in steady s ...
... oscilloscope settings as indicated in Figure 3. The Average softkey, under the Display hardkey menu, was used here to remove some noise on both traces. 2) See Figure 3. Measure the average (DC value) and the peak-peak (ripple) voltage of Channel 1. Channel 2 shows the peak current pulses in steady s ...
50A-3PH 3 Phase Current Injection System
... The main output on the unit has two taps, allowing the selection of output voltages up to 18V and output currents up to 50A. Range Continuous 5 minutes 3.5V 16A 32A 18V 4A 8A The above intermittent on times must be ...
... The main output on the unit has two taps, allowing the selection of output voltages up to 18V and output currents up to 50A. Range Continuous 5 minutes 3.5V 16A 32A 18V 4A 8A The above intermittent on times must be ...
50A-3PH 3 Phase Current Injection System
... voltage of 24-240Vdc may also be used to trigger either timer channel. The output is automatically switched off at the end of the test to safeguard the relay under test. The following functions are provided: ...
... voltage of 24-240Vdc may also be used to trigger either timer channel. The output is automatically switched off at the end of the test to safeguard the relay under test. The following functions are provided: ...
Ohm*s Law
... To calculate resistance, R: put your finger over R, this leaves you with V over I, so the equation is R = V/I ...
... To calculate resistance, R: put your finger over R, this leaves you with V over I, so the equation is R = V/I ...
WRL2089.tmp
... gain Ais. The current gain Ai depends on the source and load resistances, as well as the amplifier parameters. Therefore, we must use a circuit model to determine current gain Ai . Although we can use either model, we will find it easier to analyze the current gain if we use the model with the ...
... gain Ais. The current gain Ai depends on the source and load resistances, as well as the amplifier parameters. Therefore, we must use a circuit model to determine current gain Ai . Although we can use either model, we will find it easier to analyze the current gain if we use the model with the ...
Q.bloxx A109 - Gantner Instruments
... Dynamic signal acquisition up to 100 kHz per channel inputs and outputs for all types of signals and sensors Galvanic isolation (up to 1200V) of inputs and outputs Multi-channel, High-density packaging Intelligent signal conditioning on every channel. ...
... Dynamic signal acquisition up to 100 kHz per channel inputs and outputs for all types of signals and sensors Galvanic isolation (up to 1200V) of inputs and outputs Multi-channel, High-density packaging Intelligent signal conditioning on every channel. ...
V - Faculty
... Generalized instrumentation system The sensor converts energy or information from the measurand to another form (usually electric). This signal is the processed and displayed so that humans can perceive the information. Elements and connections shown by dashed lines are optional for some application ...
... Generalized instrumentation system The sensor converts energy or information from the measurand to another form (usually electric). This signal is the processed and displayed so that humans can perceive the information. Elements and connections shown by dashed lines are optional for some application ...
RH111
... Note 4: Offset voltage and offset currents shown are the maximum values required to drive the output within a volt of either supply with a 1mA load. These parameters define an error band and take into account the worstcase effects of voltage gain and input impedance. Note 5: Response time is specifi ...
... Note 4: Offset voltage and offset currents shown are the maximum values required to drive the output within a volt of either supply with a 1mA load. These parameters define an error band and take into account the worstcase effects of voltage gain and input impedance. Note 5: Response time is specifi ...
AK8111 - Asahi Kasei Microdevices
... (1) Stress beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only. Functional operation of the device at these or any other conditions beyond those indicated under “Recommended Operating Conditions” is not implied. Exposure to abs ...
... (1) Stress beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only. Functional operation of the device at these or any other conditions beyond those indicated under “Recommended Operating Conditions” is not implied. Exposure to abs ...
Lab 2 Applications of the 555 Timer
... values only with the higher value in Multisim being around 14kHz. At high and low frequencies, the output signal was similar to a DC voltage or a true or false such as Boolean. Any frequencies past that seemed not to oscillate most likely due to the limiting factors of the capacitors ability to cha ...
... values only with the higher value in Multisim being around 14kHz. At high and low frequencies, the output signal was similar to a DC voltage or a true or false such as Boolean. Any frequencies past that seemed not to oscillate most likely due to the limiting factors of the capacitors ability to cha ...
Question Bank - Saraswathi Velu College of Engineering
... 1. Explain the operation of switching regulators. Give its advantages 2. Explain the functional diagram of LM 380 power amplifier. 3. Explain in detail the function of 555 timer in Astable mode and derive the expression frequency of oscillation. (16) 4. Explain in detail the function of 555 timers i ...
... 1. Explain the operation of switching regulators. Give its advantages 2. Explain the functional diagram of LM 380 power amplifier. 3. Explain in detail the function of 555 timer in Astable mode and derive the expression frequency of oscillation. (16) 4. Explain in detail the function of 555 timers i ...
- Saraswathi Velu College of Engineering
... 1. Explain the operation of switching regulators. Give its advantages 2. Explain the functional diagram of LM 380 power amplifier. 3. Explain in detail the function of 555 timer in Astable mode and derive the expression frequency of oscillation. (16) 4. Explain in detail the function of 555 timers i ...
... 1. Explain the operation of switching regulators. Give its advantages 2. Explain the functional diagram of LM 380 power amplifier. 3. Explain in detail the function of 555 timer in Astable mode and derive the expression frequency of oscillation. (16) 4. Explain in detail the function of 555 timers i ...
polytechnic of kota bharu
... : To verify Kirchhoff’s voltage e and current laws experimentally. ...
... : To verify Kirchhoff’s voltage e and current laws experimentally. ...
the MS Word document here
... pin 14 is about 1 volt positive at 400KHz and goes toward zero and significantly negative as the delay time is increased. I found that negative input voltages push this voltage over 2 volts positive (it is an inverting summing amp) causing the HF VCO to approach a frequency of 1MHz and then the cloc ...
... pin 14 is about 1 volt positive at 400KHz and goes toward zero and significantly negative as the delay time is increased. I found that negative input voltages push this voltage over 2 volts positive (it is an inverting summing amp) causing the HF VCO to approach a frequency of 1MHz and then the cloc ...
Task 2-1: Effect of Missing Inputs to TTL Gates
... Voltmeter for a description of how to use a voltmeter.) In TTL chips, as in most types of digital logic, information is passed in terms of voltage. A value of +5 V. is used to represent a digital 1 (logical true) condition and a digital 0 (logical false) is represented by 0 V. (or ground.) Because o ...
... Voltmeter for a description of how to use a voltmeter.) In TTL chips, as in most types of digital logic, information is passed in terms of voltage. A value of +5 V. is used to represent a digital 1 (logical true) condition and a digital 0 (logical false) is represented by 0 V. (or ground.) Because o ...
CDI circuit description
... Let’s start with the CFL inverter described above. While the manufacturer/supplier does not offer any kind of description (they hardly ever do!), it is easy enough to figure out how it works. (it is not important) All I want to say is that it is a clever, simple design which seems to be very efficie ...
... Let’s start with the CFL inverter described above. While the manufacturer/supplier does not offer any kind of description (they hardly ever do!), it is easy enough to figure out how it works. (it is not important) All I want to say is that it is a clever, simple design which seems to be very efficie ...
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.