Program-Controlled High-Voltage Pulse Generator for Ion Beams
... case the maximum peak current corresponds to the code of 255 50.11 A is chosen that corresponds to the voltage of 0.511 V on the current sensor. Taking into account the fact that the constant component at the PLM output varies from 0 to 5 V, the necessary division coefficient is about 9.7. For the c ...
... case the maximum peak current corresponds to the code of 255 50.11 A is chosen that corresponds to the voltage of 0.511 V on the current sensor. Taking into account the fact that the constant component at the PLM output varies from 0 to 5 V, the necessary division coefficient is about 9.7. For the c ...
FST6800 10-Bit Bus Switch with Precharged Outputs FST6 800 1
... Note 4: Typical values are at VCC = 5.0V and T A= +25°C Note 5: Measured by the voltage drop between A and B pins at the indicated current through the switch. On resistance is determined by the lower of the voltages on the two (A or B) pins. ...
... Note 4: Typical values are at VCC = 5.0V and T A= +25°C Note 5: Measured by the voltage drop between A and B pins at the indicated current through the switch. On resistance is determined by the lower of the voltages on the two (A or B) pins. ...
Budapest University of Technology and Economics
... Bruno Riccò [2]. 2. The capacitor can be a part of an RC oscillator the frequency of which will change with the capacitance [8, 11]. This method – as will be shown in this paper – is very easily realizable and is more tolerant to noises than the previous one. High accuracy can not be achieved though ...
... Bruno Riccò [2]. 2. The capacitor can be a part of an RC oscillator the frequency of which will change with the capacitance [8, 11]. This method – as will be shown in this paper – is very easily realizable and is more tolerant to noises than the previous one. High accuracy can not be achieved though ...
BM1410A
... the Oscillator clock output causes the High-Side Power Switch to turn on and the Low-Side Power Switch to turn off. With the SW side of the inductor now connected to IN, the inductor current ramps up to store energy in the its magnetic field. The inductor current level is measured by the Current Sen ...
... the Oscillator clock output causes the High-Side Power Switch to turn on and the Low-Side Power Switch to turn off. With the SW side of the inductor now connected to IN, the inductor current ramps up to store energy in the its magnetic field. The inductor current level is measured by the Current Sen ...
evm
... The special feature of this instrument is the use of a giant sized, precision microamp meter provided with a large clearly marked, uniformly illuminated scale printed in two colours and clearly marked with a number of resistance, voltage, peak-to-peak voltage and decibel scales. The instrument consi ...
... The special feature of this instrument is the use of a giant sized, precision microamp meter provided with a large clearly marked, uniformly illuminated scale printed in two colours and clearly marked with a number of resistance, voltage, peak-to-peak voltage and decibel scales. The instrument consi ...
The Science of 4-20 mA Current Loops
... The 4 to 20mA current loop is a very robust sensor signaling standard. Current loops are ideal for data transmission. All the signaling current flows through all components; the same current flows even if the wire terminations are less than perfect. All the components in the loop drop voltage due to ...
... The 4 to 20mA current loop is a very robust sensor signaling standard. Current loops are ideal for data transmission. All the signaling current flows through all components; the same current flows even if the wire terminations are less than perfect. All the components in the loop drop voltage due to ...
Preliminary Work
... 1. Remove the high pass capacitor (the one in series with the source). 2. Adjust the period (PER) and the pulse width (PW=0.5*PER) until you can see what the low pass filtering does to the square wave. Start with a square wave with a frequency of 100 kHz (PW=5u and PER=10u). Be sure to explain in yo ...
... 1. Remove the high pass capacitor (the one in series with the source). 2. Adjust the period (PER) and the pulse width (PW=0.5*PER) until you can see what the low pass filtering does to the square wave. Start with a square wave with a frequency of 100 kHz (PW=5u and PER=10u). Be sure to explain in yo ...
Skill Sheet 20.2 Network Circuits
... We see now that the 1-ohm resistors are connected in series. Therefore, they represent a 2-ohm resistor connected in parallel with the 1.5-ohm resistor. The 2-ohm resistor in parallel with the 1.5 ohm gives a total resistance of 6⁄7 or 0.86 ohms. The total current drawn from the battery can be now f ...
... We see now that the 1-ohm resistors are connected in series. Therefore, they represent a 2-ohm resistor connected in parallel with the 1.5-ohm resistor. The 2-ohm resistor in parallel with the 1.5 ohm gives a total resistance of 6⁄7 or 0.86 ohms. The total current drawn from the battery can be now f ...
OHMS LAW
... To decrease the amount of voltage applied to a component The value of the resistor is marked on the body using coloured rings ...
... To decrease the amount of voltage applied to a component The value of the resistor is marked on the body using coloured rings ...
OHMS LAW
... To decrease the amount of voltage applied to a component The value of the resistor is marked on the body using coloured rings ...
... To decrease the amount of voltage applied to a component The value of the resistor is marked on the body using coloured rings ...
IFIT-3 - DIVOOM Europe
... Music anytime, anywhere! The “Ifit-3” from Divoom is a High quality stereo system with speakers integrated on both sides. Compatible with any iPhone / iPod / iPad at the same time can also be used with any MP3 player or any other smart phones via AUX. The clever space-saving, slanted design helps yo ...
... Music anytime, anywhere! The “Ifit-3” from Divoom is a High quality stereo system with speakers integrated on both sides. Compatible with any iPhone / iPod / iPad at the same time can also be used with any MP3 player or any other smart phones via AUX. The clever space-saving, slanted design helps yo ...
Block Diagram
... I2C interface can also be used for sensor diagnostics. An integrated temperature sensor can be read by the user through the VOUT pin and used to provide additional signal correction in the µC or monitored to verify temperature conditions at the sensor. The AFE is optimized for micro-power applicatio ...
... I2C interface can also be used for sensor diagnostics. An integrated temperature sensor can be read by the user through the VOUT pin and used to provide additional signal correction in the µC or monitored to verify temperature conditions at the sensor. The AFE is optimized for micro-power applicatio ...
Lab 3.8 Impedance of test instruments (p79)
... 1) What is the input resistance of your benchtop multimeter in voltage reading mode for a DC (zero frequency) input? Describe your method, sketch your setup, and show your calculations. 2) Do the same for channel-1 of your oscilloscope in DC coupling mode with input scaling of 1 volt per division an ...
... 1) What is the input resistance of your benchtop multimeter in voltage reading mode for a DC (zero frequency) input? Describe your method, sketch your setup, and show your calculations. 2) Do the same for channel-1 of your oscilloscope in DC coupling mode with input scaling of 1 volt per division an ...
Solutions - RF and microwave circuits
... 2. First note that node 6 is adjacent to both voltage sources in this circuit. If we choose this node as our reference, we can knock out two unknowns, nodes 5 and 6. We write the rest of the nodal equations in order, using conductances: G2 (v1 − Vs ) + G3 (v1 − v2 ) + G4 (v1 − v3 ) = is ...
... 2. First note that node 6 is adjacent to both voltage sources in this circuit. If we choose this node as our reference, we can knock out two unknowns, nodes 5 and 6. We write the rest of the nodal equations in order, using conductances: G2 (v1 − Vs ) + G3 (v1 − v2 ) + G4 (v1 − v3 ) = is ...
Valve RF amplifier
A valve RF amplifier (UK and Aus.) or tube amplifier (U.S.), is a device for electrically amplifying the power of an electrical radio frequency signal.Low to medium power valve amplifiers for frequencies below the microwaves were largely replaced by solid state amplifiers during the 1960s and 1970s, initially for receivers and low power stages of transmitters, transmitter output stages switching to transistors somewhat later. Specially constructed valves are still in use for very high power transmitters, although rarely in new designs.