band-pass filter
... A second-order band pass filter is to be constructed using RC components that will only allow a range of frequencies to pass above 1kHz (1,000Hz) and below 30kHz (30,000Hz). Assuming that both the resistors have values of 10kΩ´s, calculate the values of the two capacitors required ...
... A second-order band pass filter is to be constructed using RC components that will only allow a range of frequencies to pass above 1kHz (1,000Hz) and below 30kHz (30,000Hz). Assuming that both the resistors have values of 10kΩ´s, calculate the values of the two capacitors required ...
Quad-80 Technical Data Guide - AW
... Sourcing, square wave frequency (sinking version available) NPN type. Output low ≈ 0V Output high ≈ Supply - 1.4V or 5V (jumper selectable) 50% duty cycle Flow dependent, 1500Hz max. ...
... Sourcing, square wave frequency (sinking version available) NPN type. Output low ≈ 0V Output high ≈ Supply - 1.4V or 5V (jumper selectable) 50% duty cycle Flow dependent, 1500Hz max. ...
Voltage Amplifier
... The effects of DC imperfections on both inverting and noninverting amplifier is to add a DC voltage to the output. It can be analyzed by considering the extra DC sources assuming an otherwise ideal OpAmp It is possible to cancel the bias current effects. For the inverting amplifier, we can add a r ...
... The effects of DC imperfections on both inverting and noninverting amplifier is to add a DC voltage to the output. It can be analyzed by considering the extra DC sources assuming an otherwise ideal OpAmp It is possible to cancel the bias current effects. For the inverting amplifier, we can add a r ...
How to control multiple voltages with the Room Controller
... The Room Controller is typically connected to a single feeding 20A circuit which powers the controller and the controlled loads. In the event that your application requires mixed voltages, an alternative voltage switchpack may be connected to the Room Controller. Any Greengate switchpack may be wire ...
... The Room Controller is typically connected to a single feeding 20A circuit which powers the controller and the controlled loads. In the event that your application requires mixed voltages, an alternative voltage switchpack may be connected to the Room Controller. Any Greengate switchpack may be wire ...
Derive an efficient dual-rail power supply from USB
... reasonably well. The solution settled on was to reuse the core of an RFI suppression inductor commonly found at the mains input end of switchedmode power supplies in television sets. The windings of the transformer primary are multi-filar to reduce their series resistance. For example, using four st ...
... reasonably well. The solution settled on was to reuse the core of an RFI suppression inductor commonly found at the mains input end of switchedmode power supplies in television sets. The windings of the transformer primary are multi-filar to reduce their series resistance. For example, using four st ...
General Specifications
... beam. The capacitive beam is held in force balance for full scale non-linearity of less than ...
... beam. The capacitive beam is held in force balance for full scale non-linearity of less than ...
(Anti) Static is Magic! - Simco-Ion
... (Anti) Static is Magic! Come to the Interpack to see our 10 new products for controlling static electricity! These products all belong to a new family called IQ Easy, and all have the unique feature of 24V DC supply voltage. Anti-static bars, static measuring, static bonding and special products for ...
... (Anti) Static is Magic! Come to the Interpack to see our 10 new products for controlling static electricity! These products all belong to a new family called IQ Easy, and all have the unique feature of 24V DC supply voltage. Anti-static bars, static measuring, static bonding and special products for ...
Topics for Exam #1
... Charge/Time = Current DC Current --- Constant, do not change with time Voltage – Joule/Coulomb Resistance and Conductance Resistivity Determine resistance of a piece of material Resistors Standard Values Tolerance Color Coding ...
... Charge/Time = Current DC Current --- Constant, do not change with time Voltage – Joule/Coulomb Resistance and Conductance Resistivity Determine resistance of a piece of material Resistors Standard Values Tolerance Color Coding ...
LOCOMOTIVE LIGHTING USING SURFACE MOUNT LEDs
... technique is the push several LEDs through holes at the corners of a piece of thin plastic or cardboard, wire everything together and test it on the workbench, and drop it into place as a false ceiling. With 12 V power, four LEDs with one resistor makes a great combination. ...
... technique is the push several LEDs through holes at the corners of a piece of thin plastic or cardboard, wire everything together and test it on the workbench, and drop it into place as a false ceiling. With 12 V power, four LEDs with one resistor makes a great combination. ...
Multiple DDC Signal Input to Proportional Resistance Output
... two digital signals, one for increase and the other for decrease. The floating point full scale rate of change is 55 seconds. Some triac input signals require an accessory (see ordering information). Custom input signal types and ranges are also available. The DRN4 is supplied in an enclosure that c ...
... two digital signals, one for increase and the other for decrease. The floating point full scale rate of change is 55 seconds. Some triac input signals require an accessory (see ordering information). Custom input signal types and ranges are also available. The DRN4 is supplied in an enclosure that c ...
ECE 331: Electronics Principles I Fall 2013
... procedure of performing basic measurement on electronic circuit and device Measure the small-signal parameters of the common source amplifier built with ALD1106. Record and calculate the parameters as described below: The components and instruments used in this lab include: ...
... procedure of performing basic measurement on electronic circuit and device Measure the small-signal parameters of the common source amplifier built with ALD1106. Record and calculate the parameters as described below: The components and instruments used in this lab include: ...
Unit 2 content
... supply hence ‘Lost Volts’ • E.M.F. Maximum energy to push unit charge around circuit • Terminal potential difference , work to push unit charge through external circuit ( load ) ...
... supply hence ‘Lost Volts’ • E.M.F. Maximum energy to push unit charge around circuit • Terminal potential difference , work to push unit charge through external circuit ( load ) ...
Physics 536 - Assignment #8 - Due April 7
... (c) What is the advantage of using the circuit on the left when a load applied to the current source changes at a high frequency? (d) What is the advantage of using the circuit on the right when the current IC0 is constant but the temperature of the circuit changes? ...
... (c) What is the advantage of using the circuit on the left when a load applied to the current source changes at a high frequency? (d) What is the advantage of using the circuit on the right when the current IC0 is constant but the temperature of the circuit changes? ...
Investigating Components having Non-Linear Characteristics 6EM
... Consider the circuit shown below, in which E = 1·1 V and r = 25 Ω. (A diode connected as shown below is said to be “forward biased”.) E ...
... Consider the circuit shown below, in which E = 1·1 V and r = 25 Ω. (A diode connected as shown below is said to be “forward biased”.) E ...
Voltage regulator
... VOLTAGE REGULATOR LAB OBJECTIVE In this lab we will be designing a circuit that takes an input voltage of an arbitrary value, and outputs 5 volts. There are many ways to achieve this, such as using a voltage divider. However, a voltage divider can limit the current from input to output. A practical ...
... VOLTAGE REGULATOR LAB OBJECTIVE In this lab we will be designing a circuit that takes an input voltage of an arbitrary value, and outputs 5 volts. There are many ways to achieve this, such as using a voltage divider. However, a voltage divider can limit the current from input to output. A practical ...
TGS 5342 - for the detection of Carbon Monoxide
... friendly, it poses no risk of electrolyte leakage, can detect concentrations as high as 1% CO, operates in a range from -40˚ and +70˚C, and it has lower sensitivity to interferant gases. With a long life, good long term stability, and high accuracy, this sensor is the ideal choice for CO detectors w ...
... friendly, it poses no risk of electrolyte leakage, can detect concentrations as high as 1% CO, operates in a range from -40˚ and +70˚C, and it has lower sensitivity to interferant gases. With a long life, good long term stability, and high accuracy, this sensor is the ideal choice for CO detectors w ...
Domestic Solar Assisted Battery Charging Station with
... Programming the microprocessor with control techniques including PLL, PI controller and Park Transformation ...
... Programming the microprocessor with control techniques including PLL, PI controller and Park Transformation ...
CN-0008 利用AD5380多通道DAC进行输出通道监控
... The AD5380 and AD7476 must have ample supply bypassing of 10 μF in parallel with 0.1 μF on each supply pin, located as close to the packages as possible, ideally right up against the devices (this is not shown on the simplified diagram). The 10 μF capacitors are the tantalum bead type. The 0.1 μF c ...
... The AD5380 and AD7476 must have ample supply bypassing of 10 μF in parallel with 0.1 μF on each supply pin, located as close to the packages as possible, ideally right up against the devices (this is not shown on the simplified diagram). The 10 μF capacitors are the tantalum bead type. The 0.1 μF c ...
Opto-isolator
In electronics, an opto-isolator, also called an optocoupler, photocoupler, or optical isolator, is a component that transfers electrical signals between two isolated circuits by using light. Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 10 kV/μs.A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.