MAX9984EVKIT.pdf
... As the differential IF outputs are relatively high impedance (200Ω), they are more susceptible to component parasitics. It is often good practice to relieve the ground plane directly underneath large components to reduce associated shunt-C parasitics. ...
... As the differential IF outputs are relatively high impedance (200Ω), they are more susceptible to component parasitics. It is often good practice to relieve the ground plane directly underneath large components to reduce associated shunt-C parasitics. ...
FDS6982AS Dual Notebook Power Supply N-Channel PowerTrench SyncFET
... Fairchild’s SyncFET process embeds a Schottky diode in parallel with PowerTrench MOSFET. This diode exhibits similar characteristics to a discrete external Schottky diode in parallel with a MOSFET. Figure 23 shows the reverse recovery characteristic of the FDS6982AS. ...
... Fairchild’s SyncFET process embeds a Schottky diode in parallel with PowerTrench MOSFET. This diode exhibits similar characteristics to a discrete external Schottky diode in parallel with a MOSFET. Figure 23 shows the reverse recovery characteristic of the FDS6982AS. ...
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... 3. Includes DC offsets due to frequency offsets between Rx and Tx carrier and demodulator tank offset due to mis-tuning. 4. With a 400mVP-P sinusoid at 600kHz driving Pin 10. Output load resistance 500Ω in series with 10nF. 5. With a DC input and capacitor in the RC load fully charged. 6. The switch ...
... 3. Includes DC offsets due to frequency offsets between Rx and Tx carrier and demodulator tank offset due to mis-tuning. 4. With a 400mVP-P sinusoid at 600kHz driving Pin 10. Output load resistance 500Ω in series with 10nF. 5. With a DC input and capacitor in the RC load fully charged. 6. The switch ...
The future Of Packaging
... Ask why we need so many I/Os for computer chips and the answer comes down to “we need more signals”. But electrons are rather poor messengers and that’s the problem. If we used only electrons to carry Internet messages, a web page might take an hour to download. The fleet-footed messenger of the Int ...
... Ask why we need so many I/Os for computer chips and the answer comes down to “we need more signals”. But electrons are rather poor messengers and that’s the problem. If we used only electrons to carry Internet messages, a web page might take an hour to download. The fleet-footed messenger of the Int ...
File
... What is the maximum current that it can take each time? There is a difference between the two leads for the current they can take when unwound because the leads are of different thicknesses. Leads have to be thicker to carry larger currents. ...
... What is the maximum current that it can take each time? There is a difference between the two leads for the current they can take when unwound because the leads are of different thicknesses. Leads have to be thicker to carry larger currents. ...
Circuit Clicker questions
... bulbs in parallel is ____ than the standard current. A. less than B. equal to C. greater than ...
... bulbs in parallel is ____ than the standard current. A. less than B. equal to C. greater than ...
10. energy efficient technologies in electrical systems
... In fact, modern AC variable speed drives are very close to the DC drive in terms of fast torque response and speed accuracy. However, AC motors are much more reliable and affordable than DC motors, making them far more prevalent. Most drives used in the field utilize Volts/Hertz type control, which ...
... In fact, modern AC variable speed drives are very close to the DC drive in terms of fast torque response and speed accuracy. However, AC motors are much more reliable and affordable than DC motors, making them far more prevalent. Most drives used in the field utilize Volts/Hertz type control, which ...
Chapter 6 - AutomationDirect
... to the AC drive output power. 2. Check the wiring connections between the AC drive and motor for possible short circuits. 3. Increase the Acceleration time (P 1-01 or P 1-05). 4. Check for possible excessive loading conditions at the motor. 5. If there are any abnormal conditions when operating the ...
... to the AC drive output power. 2. Check the wiring connections between the AC drive and motor for possible short circuits. 3. Increase the Acceleration time (P 1-01 or P 1-05). 4. Check for possible excessive loading conditions at the motor. 5. If there are any abnormal conditions when operating the ...
circuits worksheet
... 3. Fill out the table for the circuit diagramed at the right. Circuit Position ...
... 3. Fill out the table for the circuit diagramed at the right. Circuit Position ...
CRG20-12 High Rate Digital Angular Rate Sensor
... The CRG20 device is rated to 2kV using the Human Body Model (direct contact, 100pF/1.5kOhm). ...
... The CRG20 device is rated to 2kV using the Human Body Model (direct contact, 100pF/1.5kOhm). ...
Exercises on Voltage, Capacitance and Circuits Exercise 1.1 Instead
... start by assigning a value for the current in the various wires. Let I1 be the current that flows our of the 22 volt battery, and also through the 4Ω resistor. Let I2 be the current through the 5Ω resistor. Since the charge flow into a junction equals the charge flow out, the current through the 2Ω ...
... start by assigning a value for the current in the various wires. Let I1 be the current that flows our of the 22 volt battery, and also through the 4Ω resistor. Let I2 be the current through the 5Ω resistor. Since the charge flow into a junction equals the charge flow out, the current through the 2Ω ...
PSPICE tutorial: a simple DC circuit
... 1. Bias point. This calculates the DC values for all the node voltages and branch currents in the circuit. This corresponds to using the DC multi-meter to probe each voltage and current in the circuit. When using this option, the voltages and/or currents will be displayed directly on the circuit dia ...
... 1. Bias point. This calculates the DC values for all the node voltages and branch currents in the circuit. This corresponds to using the DC multi-meter to probe each voltage and current in the circuit. When using this option, the voltages and/or currents will be displayed directly on the circuit dia ...
Document
... Terminators (120 ohm) installed on clock vias and covered with epoxy Board manufacturer error; the inner layers are not 100u as requested – To much voltage drop over the integrated coil for the digital VDD of the OTIS, new coil mounted. – Less heat spreading and conduction in the board. ...
... Terminators (120 ohm) installed on clock vias and covered with epoxy Board manufacturer error; the inner layers are not 100u as requested – To much voltage drop over the integrated coil for the digital VDD of the OTIS, new coil mounted. – Less heat spreading and conduction in the board. ...
DRV8870 3.6-A Brushed DC Motor Driver (PWM
... The DRV8870 device is an optimized 8-pin device for driving brushed DC motors with 6.5 to 45 V and up to 3.6A peak current. The integrated current regulation restricts motor current to a predefined maximum. Two logic inputs control the H-bridge driver, which consists of four N-channel MOSFETs that h ...
... The DRV8870 device is an optimized 8-pin device for driving brushed DC motors with 6.5 to 45 V and up to 3.6A peak current. The integrated current regulation restricts motor current to a predefined maximum. Two logic inputs control the H-bridge driver, which consists of four N-channel MOSFETs that h ...
CIRCUITS WORKSHEET
... 3. Fill out the table for the circuit diagramed at the right. Circuit Position ...
... 3. Fill out the table for the circuit diagramed at the right. Circuit Position ...
2 Static Characteristics II
... As the base current is increased, the collector current also rises and with the load resistor, RC, in the collector circuit, the voltage drop across the transistor, VCE, falls. Ultimately, with further increase in base current, VCE falls to allow the base-collector junction to become forward biased. ...
... As the base current is increased, the collector current also rises and with the load resistor, RC, in the collector circuit, the voltage drop across the transistor, VCE, falls. Ultimately, with further increase in base current, VCE falls to allow the base-collector junction to become forward biased. ...
Training
... – information on “safe” testers – recommendations for testing in CSSD – voltages and currents for testing ...
... – information on “safe” testers – recommendations for testing in CSSD – voltages and currents for testing ...
Form B - Hydro One Brampton
... - Internal faults within the EG facility; - External phase and ground faults (in Hydro One Brampton’s distribution system); - Certain abnormal system conditions such as over / under voltage, over / under frequency, open phase(s); - Islanding Document Number: ...
... - Internal faults within the EG facility; - External phase and ground faults (in Hydro One Brampton’s distribution system); - Certain abnormal system conditions such as over / under voltage, over / under frequency, open phase(s); - Islanding Document Number: ...
SilverBullet - Boston Light Source
... watts/foot. With today’s lighting technology the connected load is far less than the per-foot requirements of these codes. ...
... watts/foot. With today’s lighting technology the connected load is far less than the per-foot requirements of these codes. ...
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.