Latchable Negative Floating Hot Swap Power
... through an external resistor connected to ground, which is essentially a current drive as opposed to the traditional voltage drive. The onboard 10V shunt regulator protects the IC from excess voltage and serves as a reference for programming the maximum allowable output sourcing current during a fau ...
... through an external resistor connected to ground, which is essentially a current drive as opposed to the traditional voltage drive. The onboard 10V shunt regulator protects the IC from excess voltage and serves as a reference for programming the maximum allowable output sourcing current during a fau ...
Switched-Capacitor Voltage Converters _______________General Description ____________________________Features
... bucket capacitor C1 across V+ and charges C1. During the second half of each cycle, switches S2 & S4 close and switches S1 & S3 open, which connects the positive terminal of C1 to ground and shifts the negative terminal to VOUT. This connects C1 in parallel with the reservoir capacitor C2. If the vo ...
... bucket capacitor C1 across V+ and charges C1. During the second half of each cycle, switches S2 & S4 close and switches S1 & S3 open, which connects the positive terminal of C1 to ground and shifts the negative terminal to VOUT. This connects C1 in parallel with the reservoir capacitor C2. If the vo ...
BDTIC C C M - P F C
... during startup. The VCOMP pin is pull internally to ground via switch S1 during UVLO and other fault conditions (see later section on “System Protection”). During power up when VOUT is less than 83% of the rated level, OTA1 sources an output current, maximum 30mA, into the compensation network at pi ...
... during startup. The VCOMP pin is pull internally to ground via switch S1 during UVLO and other fault conditions (see later section on “System Protection”). During power up when VOUT is less than 83% of the rated level, OTA1 sources an output current, maximum 30mA, into the compensation network at pi ...
The Root-Mean Square of a Periodic Waveform
... diode to be ideal (VT = 0) then current will flow in the diode only if Vs is positive, the diode will act as a short circuit and V0 = Vi. For Vi < 0, the diode will be reverse biased, allowing no current flow and V0 will be zero. If the diode is not ideal, then for the current to flow, Vi must be eq ...
... diode to be ideal (VT = 0) then current will flow in the diode only if Vs is positive, the diode will act as a short circuit and V0 = Vi. For Vi < 0, the diode will be reverse biased, allowing no current flow and V0 will be zero. If the diode is not ideal, then for the current to flow, Vi must be eq ...
Control of Voltage Source Inverter with an LCL Filter without Voltage
... signals, which means that the observer is correct. Fig. 9 shows the PLL output, designed with the output of the observer, and the real angle waveform. It can be seen that there is no phase shift and its linearity is good enough. (For convience here, the real angle waveform is subtracted with a const ...
... signals, which means that the observer is correct. Fig. 9 shows the PLL output, designed with the output of the observer, and the real angle waveform. It can be seen that there is no phase shift and its linearity is good enough. (For convience here, the real angle waveform is subtracted with a const ...
16890_chapter-06-elect-measurements-meters
... Figure 6-13. When connecting a voltmeter into a circuit, be sure to observe polarity. ...
... Figure 6-13. When connecting a voltmeter into a circuit, be sure to observe polarity. ...
Electrical Circuits: Many real world electronic devices are just
... battery. As batteries get old, the internal resistance gets larger (and so they put out less current) Have you ever noticed that if you start your car with the lights on, the lights dim? That’s because of the internal resistance of the car battery- as current flows, there is some voltage drop across ...
... battery. As batteries get old, the internal resistance gets larger (and so they put out less current) Have you ever noticed that if you start your car with the lights on, the lights dim? That’s because of the internal resistance of the car battery- as current flows, there is some voltage drop across ...
SERVICE MANUAL SUPPLEMENT
... Many electrical and mechanical parts in this chassis have special characteristics. These characteristics often pass unnoticed and the protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. Replacement parts that have these s ...
... Many electrical and mechanical parts in this chassis have special characteristics. These characteristics often pass unnoticed and the protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. Replacement parts that have these s ...
Evaluates: MAX17007A MAX17007A Evaluation Kit General Description Features
... The MAX17007A regulates OUT1 to the voltage set at REFIN1. By changing the voltage at REFIN1 between two set voltages, the MAX17007A can be used in applications that require dynamic output-voltage changes. The external MOSFET (N7) is used to switch resistor R8 in and out of the REFIN1 resistor-divid ...
... The MAX17007A regulates OUT1 to the voltage set at REFIN1. By changing the voltage at REFIN1 between two set voltages, the MAX17007A can be used in applications that require dynamic output-voltage changes. The external MOSFET (N7) is used to switch resistor R8 in and out of the REFIN1 resistor-divid ...
LM111/LM211/LM311 Voltage Comparator
... feedback) around a comparator, to prevent oscillation, and to avoid excessive noise on the output because the comparator is a good amplifier for its own noise. In the circuit of Figure 2, the feedback from the output to the positive input will cause about 3 mV of hysteresis. However, if RS is larger ...
... feedback) around a comparator, to prevent oscillation, and to avoid excessive noise on the output because the comparator is a good amplifier for its own noise. In the circuit of Figure 2, the feedback from the output to the positive input will cause about 3 mV of hysteresis. However, if RS is larger ...
Automatic Routine Speeds Power-Supply
... during this calibration. A switch (such as the ADG715), which can be controlled over the SMBus, can be used to apply/remove the load as needed. When the user initiates a calibration routine for the differential-mode trim, the software queries the user to input certain data before the process begins. ...
... during this calibration. A switch (such as the ADG715), which can be controlled over the SMBus, can be used to apply/remove the load as needed. When the user initiates a calibration routine for the differential-mode trim, the software queries the user to input certain data before the process begins. ...
Evaluates: MAX8792 MAX8792 Evaluation Kit General Description Features
... The EV kit output is preset to 1.05V/1.5V. However, the output voltage can also be adjusted between 0 and 2V (FB = OUT) by selecting R1, R2, and R3 values. The MAX8792 regulates FB to the voltage set at REFIN. By changing the voltage at REFIN, the MAX8792 can be used in applications that require dyn ...
... The EV kit output is preset to 1.05V/1.5V. However, the output voltage can also be adjusted between 0 and 2V (FB = OUT) by selecting R1, R2, and R3 values. The MAX8792 regulates FB to the voltage set at REFIN. By changing the voltage at REFIN, the MAX8792 can be used in applications that require dyn ...
FOD2742A, FOD2742B, FOD2742C Optically Isolated Error Amplifier FOD2742A,
... error amplifier output has a minimum of the reference voltage, and the LED is in series with that. Minimum voltage applied to the LED pin is thus 2.5V + 1.5V = 4.0V. This voltage can be generated either directly from the output of the converter, or else from a slaved secondary winding. The secondary ...
... error amplifier output has a minimum of the reference voltage, and the LED is in series with that. Minimum voltage applied to the LED pin is thus 2.5V + 1.5V = 4.0V. This voltage can be generated either directly from the output of the converter, or else from a slaved secondary winding. The secondary ...
FSBB20CH60C Motion SPM 3 Series FSBB20CH60C M
... 2. By virtue of integrating an application-specific type of HVIC inside the Motion SPM® 3 product, direct coupling to MCU terminals without any optocoupler or transformer isolation is possible. 3. VFO output is open-collector type. This signal line should be pulled up to the positive side of the 5 V ...
... 2. By virtue of integrating an application-specific type of HVIC inside the Motion SPM® 3 product, direct coupling to MCU terminals without any optocoupler or transformer isolation is possible. 3. VFO output is open-collector type. This signal line should be pulled up to the positive side of the 5 V ...
Data sheet General Description
... Bootstrap pin. Connect a bootstrap capacitor from this pin to PHASE for creating a BOOT voltage suitable to drive a standard N-Channel MOSFET. Upper-gate drive pin. Connect this pin to the upper MOSFET gate providing the gate drive. This pin is monitored by the adaptive shoot-through protection circ ...
... Bootstrap pin. Connect a bootstrap capacitor from this pin to PHASE for creating a BOOT voltage suitable to drive a standard N-Channel MOSFET. Upper-gate drive pin. Connect this pin to the upper MOSFET gate providing the gate drive. This pin is monitored by the adaptive shoot-through protection circ ...
1. Objectives of the measurement
... completed total phase shift (i.e. 360°), for about a 2mm distance measured. The signals from the two secondary’s coils had a ¼ phase shift. Thus, the different output voltage of both coils can be interpreted as a position change, the distance between the units being known. Of course, interpretation ...
... completed total phase shift (i.e. 360°), for about a 2mm distance measured. The signals from the two secondary’s coils had a ¼ phase shift. Thus, the different output voltage of both coils can be interpreted as a position change, the distance between the units being known. Of course, interpretation ...
Developing Reliable Isolation Circuits - Low
... components that support a peak or dc working voltage of 354 V must tolerate a 4,800 VACRMS dielectric withstand potential for 1 minute to pass agency certification for a rated voltage of 4,800 VACRMS. In addition, the manufacturer’s production test for this isolator must include testing each compone ...
... components that support a peak or dc working voltage of 354 V must tolerate a 4,800 VACRMS dielectric withstand potential for 1 minute to pass agency certification for a rated voltage of 4,800 VACRMS. In addition, the manufacturer’s production test for this isolator must include testing each compone ...