MAX9173 Quad LVDS Line Receiver with Flow-Through Pinout and “In-Path” Fail-Safe General Description
... Note 3: Short only one output at a time. Do not exceed the absolute maximum junction temperature specification. Note 4: AC parameters are guaranteed by design and characterization. Note 5: CL includes scope probe and test jig capacitance. Note 6: Pulse generator output conditions: tR = tF < 1ns (0% ...
... Note 3: Short only one output at a time. Do not exceed the absolute maximum junction temperature specification. Note 4: AC parameters are guaranteed by design and characterization. Note 5: CL includes scope probe and test jig capacitance. Note 6: Pulse generator output conditions: tR = tF < 1ns (0% ...
Lab #11 Diodes - Northern Arizona University
... I = Io ·(eV/VT - 1) where typical values are Io 10-15 A and VT 26 mV at 22 °C. 4. The plot of the I-V relationship for the diode is shown in the figure. When the voltage reaches the turn-on voltage, Vturnon, the slope is very steep and the diode acts like a constant voltage source with voltage V ...
... I = Io ·(eV/VT - 1) where typical values are Io 10-15 A and VT 26 mV at 22 °C. 4. The plot of the I-V relationship for the diode is shown in the figure. When the voltage reaches the turn-on voltage, Vturnon, the slope is very steep and the diode acts like a constant voltage source with voltage V ...
Designing and Simulating a New Full Adder with Low Power
... oldest circuits of this method. Transistor N experineced a voltage drop when it was up to pass the resource voltage; transistor P caused a voltage rise when it passed the zero voltage; so, this method was not able to iniate the following levels. Designers then could not connect the circuit output wh ...
... oldest circuits of this method. Transistor N experineced a voltage drop when it was up to pass the resource voltage; transistor P caused a voltage rise when it passed the zero voltage; so, this method was not able to iniate the following levels. Designers then could not connect the circuit output wh ...
VACUUM INTERRUPTER IMPULSE VOLTAGE TESTING
... that can occur in a power system from normal switching operations or from more abnormal natural causes such as lightning. These ratings do not ensure that any possible overvoltage will be withstood, but the requirements do provide that most typical overvoltages that occur in service will be withstoo ...
... that can occur in a power system from normal switching operations or from more abnormal natural causes such as lightning. These ratings do not ensure that any possible overvoltage will be withstood, but the requirements do provide that most typical overvoltages that occur in service will be withstoo ...
Model 2290 10 kV Power Supply
... instrument. They must be protected from electric shock and contact with hazardous live circuits. Maintenance personnel perform routine procedures on the product to keep it operating properly, for example, setting the line voltage or replacing consumable materials. Maintenance procedures are describe ...
... instrument. They must be protected from electric shock and contact with hazardous live circuits. Maintenance personnel perform routine procedures on the product to keep it operating properly, for example, setting the line voltage or replacing consumable materials. Maintenance procedures are describe ...
MAX15049 Evaluation Kit Evaluates: General Description Features
... and tested PCB that demonstrates the capabilities of the MAX15049. The MAX15049 is a high-performance, triple-output synchronous buck controller with sequencing capability. The EV kit requires a 5V to 16V (12V, typ) DC input-voltage range for normal operation. The MAX15049 EV kit outputs are configu ...
... and tested PCB that demonstrates the capabilities of the MAX15049. The MAX15049 is a high-performance, triple-output synchronous buck controller with sequencing capability. The EV kit requires a 5V to 16V (12V, typ) DC input-voltage range for normal operation. The MAX15049 EV kit outputs are configu ...
Multi Pad for NLX/iMD Installation Manual
... terminate unused cables in order to avoid short–circuit. See the diagram below for details. ...
... terminate unused cables in order to avoid short–circuit. See the diagram below for details. ...
PAM8001
... detects output signal clip due to the over level input signal suppress the output signal clip automatically. Also control the gain for set max power. It can protect low wattage speaker from overdrive damage even same platform with high wattage model. It offers low THD+N, to produce ...
... detects output signal clip due to the over level input signal suppress the output signal clip automatically. Also control the gain for set max power. It can protect low wattage speaker from overdrive damage even same platform with high wattage model. It offers low THD+N, to produce ...
Phase-shifting Transformer Modeling in PSS®E
... For short circuit calculations the phase-shifting transformer model for the negative sequence network will employ the same leakage impedance used in the load flow calculations, but the sign of the phase shift angle will be reversed. Hence, if the phase shift angle is +Φ in the positive sequence netw ...
... For short circuit calculations the phase-shifting transformer model for the negative sequence network will employ the same leakage impedance used in the load flow calculations, but the sign of the phase shift angle will be reversed. Hence, if the phase shift angle is +Φ in the positive sequence netw ...
DEC Module 50/5 Operating Instructions
... Current limitation (cycle-by-cycle)............................................................ adjustable up to maximum 10 A Blockage ......................................................................... Motor current limitation if motor shaft is blocked ...
... Current limitation (cycle-by-cycle)............................................................ adjustable up to maximum 10 A Blockage ......................................................................... Motor current limitation if motor shaft is blocked ...
Infineon Power LED Driver
... capacitance value at the given output voltage is crucial. The effect of a capacitor’s DC bias is often underestimated. For selection of the proper COUT please refer to Chapter 2.5. STEP 6: Calculation and Selection of Input Capacitor - CIN The value of the input capacitance CIN of a boost converter ...
... capacitance value at the given output voltage is crucial. The effect of a capacitor’s DC bias is often underestimated. For selection of the proper COUT please refer to Chapter 2.5. STEP 6: Calculation and Selection of Input Capacitor - CIN The value of the input capacitance CIN of a boost converter ...
UC2834 数据资料 dataSheet 下载
... Driver Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 400mA Driver Source to Sink Voltage . . . . . . . . . . . . . . . . . . . . . . . 40V Crowbar Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −200mA +1.5V Reference Output Current . . . . . . . . . . ...
... Driver Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 400mA Driver Source to Sink Voltage . . . . . . . . . . . . . . . . . . . . . . . 40V Crowbar Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −200mA +1.5V Reference Output Current . . . . . . . . . . ...
MAX2043EVKIT.pdf
... RF signal generators’ SMA cables. This padding improves VSWR and reduces the errors due to mismatch. 3) Use the power meter to set the RF signal generators according to the following: • RF signal source: 0dBm into DUT at 1900MHz (this will be about +3dBm before the 3dB pad). • LO1 signal source: 0dB ...
... RF signal generators’ SMA cables. This padding improves VSWR and reduces the errors due to mismatch. 3) Use the power meter to set the RF signal generators according to the following: • RF signal source: 0dBm into DUT at 1900MHz (this will be about +3dBm before the 3dB pad). • LO1 signal source: 0dB ...
Accordion Amplifier
... it need not, the bottom triode’s rp would still spoil the chance of a lower output impedance. Depending how the drive circuit is arranged, we can configure both output tubes as either cathode followers or grounded-cathode amplifiers. But as drawn, the accordion amplifier uses both triodes as grounde ...
... it need not, the bottom triode’s rp would still spoil the chance of a lower output impedance. Depending how the drive circuit is arranged, we can configure both output tubes as either cathode followers or grounded-cathode amplifiers. But as drawn, the accordion amplifier uses both triodes as grounde ...
ADM6339 数据手册DataSheet 下载
... resistor divider network similar to that shown in Figure 14 to monitor supplies more negative than −5.0 V. The current through the external resistor divider should be greater than the input current for the −5.0 V monitor options. ...
... resistor divider network similar to that shown in Figure 14 to monitor supplies more negative than −5.0 V. The current through the external resistor divider should be greater than the input current for the −5.0 V monitor options. ...
FAN6224 Synchronous Rectification Controller for Flyback and Forward Freewheeling Rectification
... proprietary linear-predict timing-control technique. The benefits of this technique include a simple control method without current-sense circuitry to accomplish noise immunity. With PWM frequency tracking and secondary-side winding voltage detection, FAN6224 can operate in both fixed- and variable- ...
... proprietary linear-predict timing-control technique. The benefits of this technique include a simple control method without current-sense circuitry to accomplish noise immunity. With PWM frequency tracking and secondary-side winding voltage detection, FAN6224 can operate in both fixed- and variable- ...
12-Bit High Speed, Low Power Sampling
... Reasons for choosing an external reference over the internal reference vary, but there are two main reasons. One is to achieve a given input range. For example, a 2.048V reference provides for a 0V to 2.048V input range—or 500µV per LSB. The other is to provide greater stability over temperature. (T ...
... Reasons for choosing an external reference over the internal reference vary, but there are two main reasons. One is to achieve a given input range. For example, a 2.048V reference provides for a 0V to 2.048V input range—or 500µV per LSB. The other is to provide greater stability over temperature. (T ...
Power inverter
A power inverter, or inverter, is an electronic device or circuitry that changes direct current (DC) to alternating current (AC).The input voltage, output voltage and frequency, and overall power handling depend on the design of the specific device or circuitry. The inverter does not produce any power; the power is provided by the DC source.A power inverter can be entirely electronic or may be a combination of mechanical effects (such as a rotary apparatus) and electronic circuitry.Static inverters do not use moving parts in the conversion process.