Lab 6
... want, consistent with a standard bipolar transistor switch circuit. In a comparator, the voltage input is connected directly to the inverting input of an op amp, while the reference voltage is connected to the non-inverting input. No feedback loop is provided. Assume that the input voltage is bigger ...
... want, consistent with a standard bipolar transistor switch circuit. In a comparator, the voltage input is connected directly to the inverting input of an op amp, while the reference voltage is connected to the non-inverting input. No feedback loop is provided. Assume that the input voltage is bigger ...
Sub-1.0 pF Quad ESD Array
... are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor doe ...
... are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor doe ...
AN1637: Level Shifting Between 1.8V and 3.3V Using I2C
... potential overcurrent caused by the rise time accelerators on the buffer. A critical concern is the rise time accelerator from the I2C buffer damaging the 1.8V microcontroller. ESD diodes internal to the microcontroller are forward biased at ~0.5V above its supply rail. While the rise time accelerat ...
... potential overcurrent caused by the rise time accelerators on the buffer. A critical concern is the rise time accelerator from the I2C buffer damaging the 1.8V microcontroller. ESD diodes internal to the microcontroller are forward biased at ~0.5V above its supply rail. While the rise time accelerat ...
EE215, Assignment 9
... Design a Wheatstone Bridge whose resistor values are well matched to the needs of a particular resistive sensor (photocell, thermistor, etc.) in an application that you define. Your circuit should produce an output voltage of zero when the sensor is in its baseline condition. In your answer, includ ...
... Design a Wheatstone Bridge whose resistor values are well matched to the needs of a particular resistive sensor (photocell, thermistor, etc.) in an application that you define. Your circuit should produce an output voltage of zero when the sensor is in its baseline condition. In your answer, includ ...
January 23, 2013
... 2. Do not connect LV terminal to GND for supply voltage greater than 3.5V. 3. Do not short circuit the output to V+ supply for supply voltages above 5.5V for extended periods; however, transient conditions including start-up are okay. 4. When using polarized capacitors, the + terminal of C1 must be ...
... 2. Do not connect LV terminal to GND for supply voltage greater than 3.5V. 3. Do not short circuit the output to V+ supply for supply voltages above 5.5V for extended periods; however, transient conditions including start-up are okay. 4. When using polarized capacitors, the + terminal of C1 must be ...
Designing Flyback Converters Using Peak-Current-Mode
... MOSFET selection criteria include maximum drain voltage, peak/RMS current in the primary, and the maximum allowable power dissipation of the package without exceeding the junction temperature limits. The voltage seen by the MOSFET drain is the sum of the input voltage, the reflected secondary voltag ...
... MOSFET selection criteria include maximum drain voltage, peak/RMS current in the primary, and the maximum allowable power dissipation of the package without exceeding the junction temperature limits. The voltage seen by the MOSFET drain is the sum of the input voltage, the reflected secondary voltag ...
Circuit Theory - GTU e
... If power is negative into a circuit element, it means that the circuit element is supplying power. Only active elements (sources) can supply power to the rest of a circuit. ...
... If power is negative into a circuit element, it means that the circuit element is supplying power. Only active elements (sources) can supply power to the rest of a circuit. ...
Data Sheet Features General Description
... 1) The power traces, including the GND trace, the LX trace and the VIN trace should be kept direct, short and wide. 2) Put the input capacitor as close as possible to the VIN and GND pins. 3) The FB pin should be connected directly to the ...
... 1) The power traces, including the GND trace, the LX trace and the VIN trace should be kept direct, short and wide. 2) Put the input capacitor as close as possible to the VIN and GND pins. 3) The FB pin should be connected directly to the ...
RM13N600T2
... 13A, 600V, RDSON=0.38Ω(MAX) @VGS=10V Ultra low gate charge(typical 21nC) Low Reverse transfer capacitance (Crss typical 5.5pF) Fast switching capability ...
... 13A, 600V, RDSON=0.38Ω(MAX) @VGS=10V Ultra low gate charge(typical 21nC) Low Reverse transfer capacitance (Crss typical 5.5pF) Fast switching capability ...
Circuits
... (iii) It can be proved that when the resistance of the rheostat equals the internal resistance of the cell, maximum power output from the cell would be obtained. Find an expression of this maximum power output in terms of E and r, and calculate the corresponding output efficiency of the cell. ...
... (iii) It can be proved that when the resistance of the rheostat equals the internal resistance of the cell, maximum power output from the cell would be obtained. Find an expression of this maximum power output in terms of E and r, and calculate the corresponding output efficiency of the cell. ...
SOT-89-3L Plastic-Encapsulate MOSFETS CJA03N10
... SOT-89-3L Plastic-Encapsulate MOSFETS CJA03N10 ...
... SOT-89-3L Plastic-Encapsulate MOSFETS CJA03N10 ...
Beginning Breadboarding series student booklet – 2014
... a) A diode allows current to flow through it in only ____ONE_______ direction. b) A diode has two ends, the ___ANODE _____ and the __Cathode______. c) When the ___Cathode________ is connected to negative, the LED will light up. d) If the ______ANODE________ is connected to negative, the LED will NOT ...
... a) A diode allows current to flow through it in only ____ONE_______ direction. b) A diode has two ends, the ___ANODE _____ and the __Cathode______. c) When the ___Cathode________ is connected to negative, the LED will light up. d) If the ______ANODE________ is connected to negative, the LED will NOT ...
Power Electronics - Dr. Imtiaz Hussain
... • The modified sine wave topologies provide rectangular pulses with some dead spots between positive and negative half-cycles. • They are suitable for most electronic loads, although their THD is almost 24%. • They are the most popular low-cost inverters on the consumer market today, ...
... • The modified sine wave topologies provide rectangular pulses with some dead spots between positive and negative half-cycles. • They are suitable for most electronic loads, although their THD is almost 24%. • They are the most popular low-cost inverters on the consumer market today, ...
Pressure regulator circuit description
... The values of R10 (3.3k) and R11 (10M) are carefully calculated to give the desired amount of hysteresis. An adjustable reference voltage, (P3, 10k and R9, 2k2) corresponding to the desired pressure, is fed to the non-inverting (+) input (pin 10, IC1C). IC1C is used as a unity gain voltage follower ...
... The values of R10 (3.3k) and R11 (10M) are carefully calculated to give the desired amount of hysteresis. An adjustable reference voltage, (P3, 10k and R9, 2k2) corresponding to the desired pressure, is fed to the non-inverting (+) input (pin 10, IC1C). IC1C is used as a unity gain voltage follower ...
testequip-intro
... (1) Turn the multimeter to the ” mV” Voltage setting. Tightly grasp one meter lead in each hand and measure the voltage from your body. Record the voltage below. AC voltage generated from your body: ___________________ (2) Now measure the AC voltage from a classmate’s body. Record the voltage below ...
... (1) Turn the multimeter to the ” mV” Voltage setting. Tightly grasp one meter lead in each hand and measure the voltage from your body. Record the voltage below. AC voltage generated from your body: ___________________ (2) Now measure the AC voltage from a classmate’s body. Record the voltage below ...
Current Shunts Resistors
... continue to increase. The need for even lower resistance value ranges is already becoming evident, as is the need for these resistors to handle more power. The industry-wide trend is the emergence of smaller and smaller products. Token Electronics offers a wide variety of current sensing products fr ...
... continue to increase. The need for even lower resistance value ranges is already becoming evident, as is the need for these resistors to handle more power. The industry-wide trend is the emergence of smaller and smaller products. Token Electronics offers a wide variety of current sensing products fr ...
Current source
A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.