CN-0055 采用AD5450/AD5451/AD5452/AD5453电流输出 DAC系列的可编程增益元件
... on a 5 V CMOS process and operate from a VDD1 power supply of 2.5 V to 5.5 V. The output amplifier is driven from a dual power supply voltage (VDD/VSS), which needs to be large enough to accommodate the analog output range of the circuit. Generally, ±12 V supplies are sufficient. The 4.7 pF capacito ...
... on a 5 V CMOS process and operate from a VDD1 power supply of 2.5 V to 5.5 V. The output amplifier is driven from a dual power supply voltage (VDD/VSS), which needs to be large enough to accommodate the analog output range of the circuit. Generally, ±12 V supplies are sufficient. The 4.7 pF capacito ...
Electronic Instrumentation - Rensselaer Polytechnic Institute
... http://micro.magnet.fsu.edu/electromag/java/generator/ac.html ...
... http://micro.magnet.fsu.edu/electromag/java/generator/ac.html ...
DN308 - 100MHz Op Amp Features Low Noise Rail-to-Rail Performance While Consuming Only 2.5mA
... You can’t optimize for everything. Op amp designs that try to squeeze good JFETs into their high speed monolithic processes inevitably compromise other parameters, usually resulting in high supply currents. Figure 1 shows a simple way to get the best of both worlds using the LT6202 and a low noise d ...
... You can’t optimize for everything. Op amp designs that try to squeeze good JFETs into their high speed monolithic processes inevitably compromise other parameters, usually resulting in high supply currents. Figure 1 shows a simple way to get the best of both worlds using the LT6202 and a low noise d ...
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 ...
DETERMINATION OF PLANCK`S CONSTANT USING LEDS (Rev 3
... 1. Connect the power supply and meters to the LED as shown in the diagram. Use a power supply with coarse and fine knobs. Use the Protek meter to measure current. Set power supply to 0 volts before turning on. Start with the blue LED (according to wavelength) on the circuit board. 2. Use the blue LE ...
... 1. Connect the power supply and meters to the LED as shown in the diagram. Use a power supply with coarse and fine knobs. Use the Protek meter to measure current. Set power supply to 0 volts before turning on. Start with the blue LED (according to wavelength) on the circuit board. 2. Use the blue LE ...
Lab 1 - University of California, San Diego
... Plots should be done by computer and/or by hand on graph paper. ...
... Plots should be done by computer and/or by hand on graph paper. ...
Low Voltage 1W Mono Audio Amplifier Module (TDA7052) (3027)
... solder joints, and all external wiring. The IC itself is quite robust, and there is very little else to go wrong. Remember when testing, it will not produce full output for more than a short duration because of limited heat dissipation. It will not produce full output with a 4 ohm speaker because of ...
... solder joints, and all external wiring. The IC itself is quite robust, and there is very little else to go wrong. Remember when testing, it will not produce full output for more than a short duration because of limited heat dissipation. It will not produce full output with a 4 ohm speaker because of ...
556 and 556H High Voltage Power Supply
... The ORTEC Models 556 and 556H HighVoltage Power Supplies provide the noise-free, well-regulated, very stable high voltage necessary for proper operation of photomultipliers, ionization chambers, semiconductor detectors, electron multipliers, and many other devices. The Model 556 is housed in a doubl ...
... The ORTEC Models 556 and 556H HighVoltage Power Supplies provide the noise-free, well-regulated, very stable high voltage necessary for proper operation of photomultipliers, ionization chambers, semiconductor detectors, electron multipliers, and many other devices. The Model 556 is housed in a doubl ...
electric circuit - Universiti Teknologi Malaysia
... 1. Obtain the resistors listed in Table 1. 2. Measure each resistor using analog multimeter. Record the value in the same table. 3. Connect all resistors in series. Measure the total resistance of the series connection. Record the measured value in Table 1. 4. Calculate the total resistance of the s ...
... 1. Obtain the resistors listed in Table 1. 2. Measure each resistor using analog multimeter. Record the value in the same table. 3. Connect all resistors in series. Measure the total resistance of the series connection. Record the measured value in Table 1. 4. Calculate the total resistance of the s ...
Energy Efficient and High Performance Current-Mode Neural
... continuous analog waveform into a discrete digital representation via a binary searchthrough all possible quantization levels before finally converging upon a digital output for each conversion. [3] Although there are many variations for implementing a SAR ADC, the basic architecture is quite simple ...
... continuous analog waveform into a discrete digital representation via a binary searchthrough all possible quantization levels before finally converging upon a digital output for each conversion. [3] Although there are many variations for implementing a SAR ADC, the basic architecture is quite simple ...
Op Amps II, Page
... Op Amps II, Page 2 where ω refers to the angular frequency of an oscillator connected to the non-inverting input of the first (leftmost) opamp, τ = RC and x is the ratio of R1 to the total pot resistance R1 + R2. Here R1 is the part of the pot resistance between the output and the inverting input o ...
... Op Amps II, Page 2 where ω refers to the angular frequency of an oscillator connected to the non-inverting input of the first (leftmost) opamp, τ = RC and x is the ratio of R1 to the total pot resistance R1 + R2. Here R1 is the part of the pot resistance between the output and the inverting input o ...
Operational amplifier
... SR can cause the output of real OpAmp very different from an ideal one if input signal frequency is too high Full Power bandwidth: the range of frequencies for which the OpAmp can produce an undistorted sinusoidal output with peak amplitude equal to the maximum allowed voltage output ...
... SR can cause the output of real OpAmp very different from an ideal one if input signal frequency is too high Full Power bandwidth: the range of frequencies for which the OpAmp can produce an undistorted sinusoidal output with peak amplitude equal to the maximum allowed voltage output ...
Scope of the measurement: Testing basic transistor circuits
... 2. Common emitter circuit with feedback resistor in emitter. Set up the circuit shown on the figure below. In the following measurements make sure that the input jumper J1 is in ON position (i.e. short circuit of the 10 kohm serial resistor). ...
... 2. Common emitter circuit with feedback resistor in emitter. Set up the circuit shown on the figure below. In the following measurements make sure that the input jumper J1 is in ON position (i.e. short circuit of the 10 kohm serial resistor). ...
university of california at berkeley - Berkeley Robotics and Intelligent
... b. Calculate and label the values at Vi,CM={-7, 0, 7} volts. c. Calculate the value for ro2 at Vi,CM={-7, 0, 7} volts. Do we need to consider ro2 when calculating the first stage gain? d. Calculate the value for the first stage differential voltage gain, AVDM1, at Vi,CM={7, 0, 7} volts e. Use HSPICE ...
... b. Calculate and label the values at Vi,CM={-7, 0, 7} volts. c. Calculate the value for ro2 at Vi,CM={-7, 0, 7} volts. Do we need to consider ro2 when calculating the first stage gain? d. Calculate the value for the first stage differential voltage gain, AVDM1, at Vi,CM={7, 0, 7} volts e. Use HSPICE ...
DN207 - LTC2400 High Accuracy Differential to Single-Ended Converter for ±5V Supplies
... 800Ω switch resistance is between the source and the 2µF capacitance. The circuit schematic shows an optional resistor, RS. This resistor can be placed in series with the LTC2400’s input to limit current if the input goes below – 300mV. The resistor does not degrade the converter’s performance as lo ...
... 800Ω switch resistance is between the source and the 2µF capacitance. The circuit schematic shows an optional resistor, RS. This resistor can be placed in series with the LTC2400’s input to limit current if the input goes below – 300mV. The resistor does not degrade the converter’s performance as lo ...
Schmitt trigger
In electronics a Schmitt trigger is a comparator circuit with hysteresis implemented by applying positive feedback to the noninverting input of a comparator or differential amplifier. It is an active circuit which converts an analog input signal to a digital output signal. The circuit is named a ""trigger"" because the output retains its value until the input changes sufficiently to trigger a change. In the non-inverting configuration, when the input is higher than a chosen threshold, the output is high. When the input is below a different (lower) chosen threshold the output is low, and when the input is between the two levels the output retains its value. This dual threshold action is called hysteresis and implies that the Schmitt trigger possesses memory and can act as a bistable multivibrator (latch or flip-flop). There is a close relation between the two kinds of circuits: a Schmitt trigger can be converted into a latch and a latch can be converted into a Schmitt trigger.Schmitt trigger devices are typically used in signal conditioning applications to remove noise from signals used in digital circuits, particularly mechanical contact bounce. They are also used in closed loop negative feedback configurations to implement relaxation oscillators, used in function generators and switching power supplies.