AN-695 APPLICATION NOTE
... With the on-board, adjustable components, the evaluation board provides configurability of temperature setpoint, temperature setpoint range, TEC current and/or voltage limits, and a PID compensation network. The temperature setpoint range (factory default) circuit, optimized to work with 10 kΩ negat ...
... With the on-board, adjustable components, the evaluation board provides configurability of temperature setpoint, temperature setpoint range, TEC current and/or voltage limits, and a PID compensation network. The temperature setpoint range (factory default) circuit, optimized to work with 10 kΩ negat ...
FXMA108 Dual-Supply, 8-Bit Signal Translator with Configurable
... Drive Capacitive Loads. Automatically shifts to a higher current drive mode only during “Dynamic Mode” or HL / LH transitions. Lower Power Consumption. Automatically shifts to low-power mode during “Static Mode” (no transitions), lowering power consumption. ...
... Drive Capacitive Loads. Automatically shifts to a higher current drive mode only during “Dynamic Mode” or HL / LH transitions. Lower Power Consumption. Automatically shifts to low-power mode during “Static Mode” (no transitions), lowering power consumption. ...
05-Three Phase Analysis
... • Efficient use of conductors over three, single phases • Rotating field is needed for some loads (eg three phase motors) • Effective for power transfer • Per-phase analysis can be used in many cases • Constant power delivery to three phase loads ...
... • Efficient use of conductors over three, single phases • Rotating field is needed for some loads (eg three phase motors) • Effective for power transfer • Per-phase analysis can be used in many cases • Constant power delivery to three phase loads ...
Power Supply Noise Reduction - The Designer`s Guide Community
... will be attenuated, making it more likely that the regulator will be able to react and keep the supply voltage stable. FIGURE 6 Current paths in a typical decoupling network. ...
... will be attenuated, making it more likely that the regulator will be able to react and keep the supply voltage stable. FIGURE 6 Current paths in a typical decoupling network. ...
Slide 1
... •Higher Voltage Output Combined with the Need for High Efficiency Power Supplies: Due to the combined demand for higher output voltages and High efficiency Power Factor Correction (PFC) Switch Mode Power Supplies (SMPS) there is an increasing need for a higher DC voltage rated Fuse. Increase in dema ...
... •Higher Voltage Output Combined with the Need for High Efficiency Power Supplies: Due to the combined demand for higher output voltages and High efficiency Power Factor Correction (PFC) Switch Mode Power Supplies (SMPS) there is an increasing need for a higher DC voltage rated Fuse. Increase in dema ...
DES 70/10 Operating Instructions
... therefore be fitted with independent monitoring and safety equipment. If the equipment breaks down, if it is operated incorrectly, if the control unit breaks down or if the cables break, etc., it must be ensured that the drive or the complete apparatus is kept in a safe operating mode. Repairs Repai ...
... therefore be fitted with independent monitoring and safety equipment. If the equipment breaks down, if it is operated incorrectly, if the control unit breaks down or if the cables break, etc., it must be ensured that the drive or the complete apparatus is kept in a safe operating mode. Repairs Repai ...
EVALUATION AND DESIGN SUPPORT
... VGA used in this example, gain is controlled externally. Pins are provided for selecting between gain values mapped for 10-bit or 12-bit converters, and the impedance of the low noise stage is adjustable over a wide range of impedance values with a series R-C network. The high speed converter option ...
... VGA used in this example, gain is controlled externally. Pins are provided for selecting between gain values mapped for 10-bit or 12-bit converters, and the impedance of the low noise stage is adjustable over a wide range of impedance values with a series R-C network. The high speed converter option ...
Pulse-Width Modulated CMOS Power Amplifiers
... overlap of the voltage and current waveforms in the switching transistor, though the means by which they achieve these behaviors are quite different. The Class-D amplifier has been used extensively for the PWM applications, but it does have several drawbacks compared to the others. Most notably, it ...
... overlap of the voltage and current waveforms in the switching transistor, though the means by which they achieve these behaviors are quite different. The Class-D amplifier has been used extensively for the PWM applications, but it does have several drawbacks compared to the others. Most notably, it ...
LOW SKEW 1 TO 4 CLOCK BUFFER ICS553 Description Features
... External Components A minimum number of external components are required for proper operation. A decoupling capacitor of 0.01 µF should be connected between VDD on pin 1 and GND on pin 4, as close to the device as possible. A 33 Ω series terminating resistor may be used on each clock output if the t ...
... External Components A minimum number of external components are required for proper operation. A decoupling capacitor of 0.01 µF should be connected between VDD on pin 1 and GND on pin 4, as close to the device as possible. A 33 Ω series terminating resistor may be used on each clock output if the t ...
28 NA • iEEE SpEctrum • dEcEmbEr 2008 Authorized licensed use
... a high-performance memory, we had to make switches with a resistance ratio of at least 1000 to 1. In other words, in its off state, a switch had to be 1000 times as resistive to the flow of current as it was in its on state. What mechanism could possibly give a nanometer-scale device a threeorders-o ...
... a high-performance memory, we had to make switches with a resistance ratio of at least 1000 to 1. In other words, in its off state, a switch had to be 1000 times as resistive to the flow of current as it was in its on state. What mechanism could possibly give a nanometer-scale device a threeorders-o ...
IEEE 802.3at 高功率供电器件(PD) 接口带有外部栅极驱动器(Rev. A)
... CDB is an active low output that is pulled to RTN when the device is in inrush current limiting, going open when the inrush period has completed once the GATE output has become higher than 6 V. This ensures the external pass transistor is enhanced before the load is enabled. It remains in a high imp ...
... CDB is an active low output that is pulled to RTN when the device is in inrush current limiting, going open when the inrush period has completed once the GATE output has become higher than 6 V. This ensures the external pass transistor is enhanced before the load is enabled. It remains in a high imp ...
Allegro UCN5804b vs Steptronics – StepGenie
... experimentation, in case the motor power supply happens to share the same 5v supply and the designer forgets to bypass the 5v supply. TP0 This diagnostic output tracks the ENAB* signal. If this signal remains HI, it’s an indication that the ENAB* signal is not being received. When this signals is HI ...
... experimentation, in case the motor power supply happens to share the same 5v supply and the designer forgets to bypass the 5v supply. TP0 This diagnostic output tracks the ENAB* signal. If this signal remains HI, it’s an indication that the ENAB* signal is not being received. When this signals is HI ...
... back ~to the ge‘nei'atorrfi’l‘he' magnetizing running; this load consisting m'ere'ly of e?ect -‘ o'f-the winding‘ 17 "alwiiys ‘preponder hi'inpsi ignition-apparatus,‘ signal-‘horn, (etc, ates over the demagnetizirrgie?eettithe so that theieis no‘ danger’ of the battery be ‘llO winding 16,1 *so that‘ ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.