User`s Manual Model 701920 Differential Probe for DL Series
... 2. Simply plug-in the BNC output connector to the vertical input of a oscilloscope. In this case set the input resistance of the oscilloscope to 50 Ω. 3. Using the appropriate probe accessories, connect the input to the circuits under measurement. ...
... 2. Simply plug-in the BNC output connector to the vertical input of a oscilloscope. In this case set the input resistance of the oscilloscope to 50 Ω. 3. Using the appropriate probe accessories, connect the input to the circuits under measurement. ...
ECE 211 Electrical Circuits Lab I
... An analog measurement can be made from the picture. The scale should be selected to give the largest picture possible and the peak-to-peak value should be measured to give the best accuracy. Then the zero-to-peak amplitude can be found by dividing by 2. The rms. value can then be found by dividing t ...
... An analog measurement can be made from the picture. The scale should be selected to give the largest picture possible and the peak-to-peak value should be measured to give the best accuracy. Then the zero-to-peak amplitude can be found by dividing by 2. The rms. value can then be found by dividing t ...
Wireless Communications and Networks
... Any electromagnetic signal can be shown to consist of a collection of periodic analog signals (sine waves) at different amplitudes, frequencies, and phases The period of the total signal is equal to the period of the fundamental frequency ...
... Any electromagnetic signal can be shown to consist of a collection of periodic analog signals (sine waves) at different amplitudes, frequencies, and phases The period of the total signal is equal to the period of the fundamental frequency ...
Circuit Design and Examples
... • The OP-07 has very low input offset voltage (25µV max for OP07A) which is obtained by trimming at the wafer stage. These low offset voltages generally eliminate any need for external nulling. The OP-07 also features low input bias current (±2nA for OP-07A) and high open-loop gain (300V/mV for the ...
... • The OP-07 has very low input offset voltage (25µV max for OP07A) which is obtained by trimming at the wafer stage. These low offset voltages generally eliminate any need for external nulling. The OP-07 also features low input bias current (±2nA for OP-07A) and high open-loop gain (300V/mV for the ...
Microprocessor Engineering
... output voltage range – determined by reference voltage (Vref and AGND) Step size in volts = resolution x voltage range Max output voltage = (2n – 1)/ 2n x voltage range uni-polar / bipolar types slew rate – rate of change of output. interface – parallel (fast) or serial (slower but uses ...
... output voltage range – determined by reference voltage (Vref and AGND) Step size in volts = resolution x voltage range Max output voltage = (2n – 1)/ 2n x voltage range uni-polar / bipolar types slew rate – rate of change of output. interface – parallel (fast) or serial (slower but uses ...
SERVOGOR 520 / 540
... PRINTING FUNCTIONS Printed information List (settings), scale (units), time print marker, chart speed, chart speed modification point marker, trigger sensing position, grid (thin line, baseline, off), channel number, TAG etc. Comments Character string (20 characters per channel) or channel informati ...
... PRINTING FUNCTIONS Printed information List (settings), scale (units), time print marker, chart speed, chart speed modification point marker, trigger sensing position, grid (thin line, baseline, off), channel number, TAG etc. Comments Character string (20 characters per channel) or channel informati ...
CIRCUIT FUNCTION AND BENEFITS CIRCUIT DESCRIPTION
... Figure 1) features the ability, using the SDI input, to daisy-chain several ADCs on a single 3-wire bus and provides an optional busy indicator. It is compatible with 1.8 V, 2.5 V, 3 V, and 5 V logic, using the separate VIO supply. Excellent layout, grounding, and decoupling techniques must be utili ...
... Figure 1) features the ability, using the SDI input, to daisy-chain several ADCs on a single 3-wire bus and provides an optional busy indicator. It is compatible with 1.8 V, 2.5 V, 3 V, and 5 V logic, using the separate VIO supply. Excellent layout, grounding, and decoupling techniques must be utili ...
EET 2351 Lecture 2 - MDC Faculty Home Pages
... 3. Root it: Take the square root of the above mean. This is the r.m.s. voltage. 9.251/2 = 3.0v Note: The mean dc level or average voltage is determined by both the voltage levels, and the duration of these levels. Mean DC = D * Vp + (D-1) * Vm In this case, the signal spends 25% (0.25) of the time a ...
... 3. Root it: Take the square root of the above mean. This is the r.m.s. voltage. 9.251/2 = 3.0v Note: The mean dc level or average voltage is determined by both the voltage levels, and the duration of these levels. Mean DC = D * Vp + (D-1) * Vm In this case, the signal spends 25% (0.25) of the time a ...
Calibration of Analog Input Channels
... In order to make a successful calibration, the user must previously have a Configuration File already loaded with settings for analog inputs into the TESLA (so the Analog Input Calibration section can indicate which channels will be calibrated). ...
... In order to make a successful calibration, the user must previously have a Configuration File already loaded with settings for analog inputs into the TESLA (so the Analog Input Calibration section can indicate which channels will be calibrated). ...
An Introduction to Circuits Excited with an AC Potential
... An analog measurement can be made from the picture. The scale should be selected to give the largest picture possible and the peak-to-peak value should be measured to give the best accuracy. Then the zero-to-peak amplitude can be found by dividing by 2. The rms. value can then be found by dividing t ...
... An analog measurement can be made from the picture. The scale should be selected to give the largest picture possible and the peak-to-peak value should be measured to give the best accuracy. Then the zero-to-peak amplitude can be found by dividing by 2. The rms. value can then be found by dividing t ...
Digital and Pulse-Train Conditioning
... voltages up to 48 V. The high-voltage signal connects to a resistive voltage divider, which is a signal attenuator. Selecting an appropriate resistance value R provides a means for selecting the high-voltage level. The table in Figure 11.04 shows the resistor values for frequently used levels. ...
... voltages up to 48 V. The high-voltage signal connects to a resistive voltage divider, which is a signal attenuator. Selecting an appropriate resistance value R provides a means for selecting the high-voltage level. The table in Figure 11.04 shows the resistor values for frequently used levels. ...
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 ...
Digitization of Analog Signals in TD
... For a 16 MHz Arduino the ADC clock is set to 16 MHz/128 = 125 KHz. Each conversion in AVR takes 13 ADC clocks so 125 KHz /13 = 9615 Hz. That is the maximum possible sampling rate, but the actual sampling rate in your application depends on the interval between successive conversions calls ...
... For a 16 MHz Arduino the ADC clock is set to 16 MHz/128 = 125 KHz. Each conversion in AVR takes 13 ADC clocks so 125 KHz /13 = 9615 Hz. That is the maximum possible sampling rate, but the actual sampling rate in your application depends on the interval between successive conversions calls ...
Excelta ST-1_JS1 (Page 1)
... The primary display shows the reading of dominant parameter. The secondary display (on top) shows the present reading of additional parameters or measurement conditions when the primary display shows some other feature (L,C). When multiple features present, the secondary display shows one of the val ...
... The primary display shows the reading of dominant parameter. The secondary display (on top) shows the present reading of additional parameters or measurement conditions when the primary display shows some other feature (L,C). When multiple features present, the secondary display shows one of the val ...
E7 Drive - Yaskawa
... A Sleep function provides significant energy savings by minimizing operating hours. Under-torque detection, alerts the operator to conditions such as loss of load or broken belts. Energy savings control is an automatic output voltage adjustment in response to actual motor load. Real-time energy savi ...
... A Sleep function provides significant energy savings by minimizing operating hours. Under-torque detection, alerts the operator to conditions such as loss of load or broken belts. Energy savings control is an automatic output voltage adjustment in response to actual motor load. Real-time energy savi ...
ET 304b
... about the ground position on the display. The ac portion can now be amplified if necessary by decreasing the V/div scaling of the scope channel.Placing the coupling switch in the dc position displays both the dc levels and the superimposed ac level. Ac coupling will center any waveform that has a dc ...
... about the ground position on the display. The ac portion can now be amplified if necessary by decreasing the V/div scaling of the scope channel.Placing the coupling switch in the dc position displays both the dc levels and the superimposed ac level. Ac coupling will center any waveform that has a dc ...
Solution
... the transfer function of the system is of the form a + bs with a and b being unknown constants. It is observed that the output of the system to the input tu(t) is (1 + 3t)u(t). (a) Find the constants a and b. (b) Is this system BIBO stable? (c) If your answer to part (b) was ”No”, construct a bounde ...
... the transfer function of the system is of the form a + bs with a and b being unknown constants. It is observed that the output of the system to the input tu(t) is (1 + 3t)u(t). (a) Find the constants a and b. (b) Is this system BIBO stable? (c) If your answer to part (b) was ”No”, construct a bounde ...
physics 202 - La Salle University
... 3. We saw from the analysis above that a circuit with an inductor and a capacitor, an LC circuit, displays oscillatory behavior. This frequency is the so-called natural frequency to distinguish it from the driving frequency we are about to introduce into the circuit. In the circuit shown below we in ...
... 3. We saw from the analysis above that a circuit with an inductor and a capacitor, an LC circuit, displays oscillatory behavior. This frequency is the so-called natural frequency to distinguish it from the driving frequency we are about to introduce into the circuit. In the circuit shown below we in ...
Chapter 2: Digital Image Fundamentals
... • A causal system is memoryless or static if, for any time t1, the value of the output at time t1 depends only on the value of the input at time t1 • A causal system that is not memoryless is said to have memory. A system has memory if the output at time t1 depends in general on the past values of t ...
... • A causal system is memoryless or static if, for any time t1, the value of the output at time t1 depends only on the value of the input at time t1 • A causal system that is not memoryless is said to have memory. A system has memory if the output at time t1 depends in general on the past values of t ...
DN107 - C-Load TM Op Amps Conquer Instabilities
... advances in process technology and circuit innovations to create a series of C-Load operational amplifiers that are tolerant of capacitive loading, including the ultimate, amplifiers that remain stable driving any capacitive load. This series of amplifiers has a bandwidth that ranges from 160kHz to ...
... advances in process technology and circuit innovations to create a series of C-Load operational amplifiers that are tolerant of capacitive loading, including the ultimate, amplifiers that remain stable driving any capacitive load. This series of amplifiers has a bandwidth that ranges from 160kHz to ...
Integrated Design
... B2 is the input to the internal comparator, which we also use for capacitance measurements, but we use it here for frequency measurements. B3 is the reference pin for the comparator, which is divided to Vcc/2. Similar to making capacitance measurements, we set up the timer1 interrupt to trigger at t ...
... B2 is the input to the internal comparator, which we also use for capacitance measurements, but we use it here for frequency measurements. B3 is the reference pin for the comparator, which is divided to Vcc/2. Similar to making capacitance measurements, we set up the timer1 interrupt to trigger at t ...
ECE 211 Electrical Circuits Lab I
... A digital multimeter (DMM) will probably give better accuracy than an oscilloscope when measuring the magnitude of potentials. Digital multimeters have another advantage over oscilloscopes in that both of the terminals of the DMJ\1 are isolated from ground. This means the DMM can be connected anywhe ...
... A digital multimeter (DMM) will probably give better accuracy than an oscilloscope when measuring the magnitude of potentials. Digital multimeters have another advantage over oscilloscopes in that both of the terminals of the DMJ\1 are isolated from ground. This means the DMM can be connected anywhe ...
Grounding and Shielding
... Ungrounded sources occur in instrumentation as a requirement for safety or performance. The input circuitry of an instrument has a finite input current requirement. This current must return to output ground. If this path is not provided, the instrument may appear to work but in reality it is functio ...
... Ungrounded sources occur in instrumentation as a requirement for safety or performance. The input circuitry of an instrument has a finite input current requirement. This current must return to output ground. If this path is not provided, the instrument may appear to work but in reality it is functio ...
More Value from Your Absolute Value Circuit—Difference Amplifier
... By Moshe Gerstenhaber and Reem Malik Precision half- and full-wave rectifiers are traditionally built using carefully selected components, including high speed op amps, fast diodes, and precision resistors. The high component count makes this solution expensive, and it suffers from crossover distort ...
... By Moshe Gerstenhaber and Reem Malik Precision half- and full-wave rectifiers are traditionally built using carefully selected components, including high speed op amps, fast diodes, and precision resistors. The high component count makes this solution expensive, and it suffers from crossover distort ...
Oscilloscope
An oscilloscope, previously called an oscillograph, and informally known as a scope, CRO (for cathode-ray oscilloscope), or DSO (for the more modern digital storage oscilloscope), is a type of electronic test instrument that allows observation of constantly varying signal voltages, usually as a two-dimensional plot of one or more signals as a function of time. Other signals (such as sound or vibration) can be converted to voltages and displayed.Oscilloscopes are used to observe the change of an electrical signal over time, such that voltage and time describe a shape which is continuously graphed against a calibrated scale. The observed waveform can be analyzed for such properties as amplitude, frequency, rise time, time interval, distortion and others. Modern digital instruments may calculate and display these properties directly. Originally, calculation of these values required manually measuring the waveform against the scales built into the screen of the instrument.The oscilloscope can be adjusted so that repetitive signals can be observed as a continuous shape on the screen. A storage oscilloscope allows single events to be captured by the instrument and displayed for a relatively long time, allowing observation of events too fast to be directly perceptible.Oscilloscopes are used in the sciences, medicine, engineering, and telecommunications industry. General-purpose instruments are used for maintenance of electronic equipment and laboratory work. Special-purpose oscilloscopes may be used for such purposes as analyzing an automotive ignition system or to display the waveform of the heartbeat as an electrocardiogram.Before the advent of digital electronics, oscilloscopes used cathode ray tubes (CRTs) as their display element (hence were commonly referred to as CROs) and linear amplifiers for signal processing. Storage oscilloscopes used special storage CRTs to maintain a steady display of a single brief signal. CROs were later largely superseded by digital storage oscilloscopes (DSOs) with thin panel displays, fast analog-to-digital converters and digital signal processors. DSOs without integrated displays (sometimes known as digitisers) are available at lower cost and use a general-purpose digital computer to process and display waveforms.