BDTIC www.BDTIC.com/infineon L E D Dr i ve r ... Dr i vin g 2W L...
... The PWM terminal on the PCB is an input for the pulse width modulated (PWM) signal to control the dimming of the LED string. The PWM signal’s logic high level should be at least 2.5 V or higher. For the default demo board circuit, a dimming frequency less than 300 Hz is recommended to maintain a 3 d ...
... The PWM terminal on the PCB is an input for the pulse width modulated (PWM) signal to control the dimming of the LED string. The PWM signal’s logic high level should be at least 2.5 V or higher. For the default demo board circuit, a dimming frequency less than 300 Hz is recommended to maintain a 3 d ...
Vector Controlled Doubly Fed Induction Generator for
... Change machine speed to 1.1 pu., with (rotor side) idref=0.5 pu and iqref =0. Notice that the torque stays the same, but the power goes up with no change in reactive power. This is because keeping idref constant maintains constant torque, and so P is proportional to speed. ...
... Change machine speed to 1.1 pu., with (rotor side) idref=0.5 pu and iqref =0. Notice that the torque stays the same, but the power goes up with no change in reactive power. This is because keeping idref constant maintains constant torque, and so P is proportional to speed. ...
Monitoring Voltage, Current and Temperature
... The most common way to measure a current flow is to measure the voltage across a resistor that is in the series path of the current flow. The sense resistor is selected so that it does not incur a significant voltage drop when the maximum expected current flows through it. System designers would hav ...
... The most common way to measure a current flow is to measure the voltage across a resistor that is in the series path of the current flow. The sense resistor is selected so that it does not incur a significant voltage drop when the maximum expected current flows through it. System designers would hav ...
AlexanderCh03finalR1
... 3.7 Nodal versus Mesh Analysis (1) To select the method that results in the smaller number of ...
... 3.7 Nodal versus Mesh Analysis (1) To select the method that results in the smaller number of ...
LTC4006
... CLN (Pin 12): Negative Reference for the Input Current Limit Amplifier, CL1. This pin also serves as the power supply for the IC. A 10µF to 22µF bypass capacitor should be connected as close as possible to this pin. TGATE (Pin 13): Drives the top external P-channel MOSFET of the battery charger buck ...
... CLN (Pin 12): Negative Reference for the Input Current Limit Amplifier, CL1. This pin also serves as the power supply for the IC. A 10µF to 22µF bypass capacitor should be connected as close as possible to this pin. TGATE (Pin 13): Drives the top external P-channel MOSFET of the battery charger buck ...
Alexander-Sadiku Fundamentals of Electric Circuits Chapter 3
... 3.7 Nodal versus Mesh Analysis (1) To select the method that results in the smaller number of ...
... 3.7 Nodal versus Mesh Analysis (1) To select the method that results in the smaller number of ...
1.8 V Low Power CMOS Rail-to-Rail Input/Output Operational Amplifier AD8515
... degradation of phase margin caused by additional phase lag from the capacitive load. The value of capacitive load that an amplifier can drive before oscillation varies with gain, supply voltage, input signal, temperature, and other parameters. Unity gain is the most challenging configuration for dri ...
... degradation of phase margin caused by additional phase lag from the capacitive load. The value of capacitive load that an amplifier can drive before oscillation varies with gain, supply voltage, input signal, temperature, and other parameters. Unity gain is the most challenging configuration for dri ...
Limits and hints how to turn off IGBTs with unipolar supply AN1401
... PROMGT.1023/ Rev.3/ Template Application Note ...
... PROMGT.1023/ Rev.3/ Template Application Note ...
ADP1612 数据手册DataSheet 下载
... The ADP1612 requires input and output bypass capacitors to supply transient currents while maintaining constant input and output voltage. Use a low ESR (equivalent series resistance), 10 μF or greater input capacitor to prevent noise at the ADP1612 input. Place the capacitor between VIN and GND as c ...
... The ADP1612 requires input and output bypass capacitors to supply transient currents while maintaining constant input and output voltage. Use a low ESR (equivalent series resistance), 10 μF or greater input capacitor to prevent noise at the ADP1612 input. Place the capacitor between VIN and GND as c ...
Answer ALL questions. Write your answers in the spaces provided in
... the white light source is replaced by a monochromatic laser. Comment on the suggestion.(2 marks) ...
... the white light source is replaced by a monochromatic laser. Comment on the suggestion.(2 marks) ...
A Compact Planar Rogowski Coil Current Sensor Silicon Carbide MOSFETs
... core coil wrapped around the current carrying conductor. It provides non-intrusive current measurement with good bandwidth and linearity. It has been used in applications such as motor control [4], power system relaying [5], and short circuit protection [6]. PCB Rogowski coil has a low profile desig ...
... core coil wrapped around the current carrying conductor. It provides non-intrusive current measurement with good bandwidth and linearity. It has been used in applications such as motor control [4], power system relaying [5], and short circuit protection [6]. PCB Rogowski coil has a low profile desig ...
TPS60230 数据资料 dataSheet 下载
... The enable pins EN1 and EN2 are used to enable the device or set it into shutdown. The TPS60230 is enabled if one of the enable pins is pulled higher than the enable trip point of 1.3 V. The device starts up by going through the soft start routine as described in the section Soft Start. Pulling both ...
... The enable pins EN1 and EN2 are used to enable the device or set it into shutdown. The TPS60230 is enabled if one of the enable pins is pulled higher than the enable trip point of 1.3 V. The device starts up by going through the soft start routine as described in the section Soft Start. Pulling both ...
Circulating Current and DC Current Ripple Control in MMC Under
... that during the unbalanced grid condition, circulating current consists of not only negative-sequence components, but also positive- and zero-sequence double-line components. A control strategy that suppresses the double-line frequency component of circulating current via acb to dq transform has bee ...
... that during the unbalanced grid condition, circulating current consists of not only negative-sequence components, but also positive- and zero-sequence double-line components. A control strategy that suppresses the double-line frequency component of circulating current via acb to dq transform has bee ...
5.3 Power Supply Systems Word Document | GCE AS/A
... For example, when VZ = 7.5V, R2 = 10k and R1 is set to 5k, VOUT 7.5 x (1 + 5 / 10) 11.3V When R1 is a variable resistor, the output voltage VOUT of the power supply can be changed by adjusting this variable resistor. For example, if R1 is a 10k variable resistor, and R2 = 10k, the output vol ...
... For example, when VZ = 7.5V, R2 = 10k and R1 is set to 5k, VOUT 7.5 x (1 + 5 / 10) 11.3V When R1 is a variable resistor, the output voltage VOUT of the power supply can be changed by adjusting this variable resistor. For example, if R1 is a 10k variable resistor, and R2 = 10k, the output vol ...
Power Supply Systems
... For example, when VZ = 7.5V, R2 = 10k and R1 is set to 5k, VOUT 7.5 x (1 + 5 / 10) 11.3V When R1 is a variable resistor, the output voltage VOUT of the power supply can be changed by adjusting this variable resistor. For example, if R1 is a 10k variable resistor, and R2 = 10k, the output vol ...
... For example, when VZ = 7.5V, R2 = 10k and R1 is set to 5k, VOUT 7.5 x (1 + 5 / 10) 11.3V When R1 is a variable resistor, the output voltage VOUT of the power supply can be changed by adjusting this variable resistor. For example, if R1 is a 10k variable resistor, and R2 = 10k, the output vol ...
A Novel Single Phase AC-AC Converter with Power Factor Control Suwat Kitcharoenwat
... consists of four switches S1 - S4 , two dc-link capacitors C1 and C2 , an inductor LS , and six diodes D1 D6 . A wide range of adjustable ac output voltage can be generated where the frequency may differ from the input signal. The input current is controlled to charge the dual voltage dc-link capacit ...
... consists of four switches S1 - S4 , two dc-link capacitors C1 and C2 , an inductor LS , and six diodes D1 D6 . A wide range of adjustable ac output voltage can be generated where the frequency may differ from the input signal. The input current is controlled to charge the dual voltage dc-link capacit ...
TRIAC
TRIAC, from triode for alternating current, is a genericized tradename for an electronic component that can conduct current in either direction when it is triggered (turned on), and is formally called a bidirectional triode thyristor or bilateral triode thyristor.TRIACs are a subset of thyristors and are closely related to silicon controlled rectifiers (SCR). However, unlike SCRs, which are unidirectional devices (that is, they can conduct current only in one direction), TRIACs are bidirectional and so allow current in either direction. Another difference from SCRs is that TRIAC current can be enabled by either a positive or negative current applied to its gate electrode, whereas SCRs can be triggered only by positive current into the gate. To create a triggering current, a positive or negative voltage has to be applied to the gate with respect to the MT1 terminal (otherwise known as A1).Once triggered, the device continues to conduct until the current drops below a certain threshold called the holding current.The bidirectionality makes TRIACs very convenient switches for alternating-current (AC) circuits, also allowing them to control very large power flows with milliampere-scale gate currents. In addition, applying a trigger pulse at a controlled phase angle in an AC cycle allows control of the percentage of current that flows through the TRIAC to the load (phase control), which is commonly used, for example, in controlling the speed of low-power induction motors, in dimming lamps, and in controlling AC heating resistors.