Evaluates: MAX1795/MAX1796/MAX1797 MAX1797 Evaluation Kit General Description Features
... The MAX1797 evaluation kit (EV kit) is a high-efficiency, step-up DC-DC converter for portable hand-held devices. Unlike typical boost circuits, the MAX1797 output is completely disconnected from the input in shutdown. The EV kit accepts a positive input voltage between 0.7V and VOUT and converts it ...
... The MAX1797 evaluation kit (EV kit) is a high-efficiency, step-up DC-DC converter for portable hand-held devices. Unlike typical boost circuits, the MAX1797 output is completely disconnected from the input in shutdown. The EV kit accepts a positive input voltage between 0.7V and VOUT and converts it ...
- PLC Direct
... • Tamper-proof: key protection can be set for individual keys to prevent a malfunction or tampering. • Battery-less memory retention: EEPROM is used to retain values in memory, so there is no need for battery maintenance. • Maintenance has been reduced via removable terminals. After wiring, the term ...
... • Tamper-proof: key protection can be set for individual keys to prevent a malfunction or tampering. • Battery-less memory retention: EEPROM is used to retain values in memory, so there is no need for battery maintenance. • Maintenance has been reduced via removable terminals. After wiring, the term ...
Power Factor Correction
... the incoming AC power to an RV is available to support other AC loads. PFC charging minimizes the amount of AC power needed to run your charger at full power. This maximizes available AC power usage, and given the limitations of park power or generator runtime, reduces the risk that AC loads running ...
... the incoming AC power to an RV is available to support other AC loads. PFC charging minimizes the amount of AC power needed to run your charger at full power. This maximizes available AC power usage, and given the limitations of park power or generator runtime, reduces the risk that AC loads running ...
Project - sunist
... application the field only has to be maintained for fractions of a second. In principle homopolar generators could be operated continuously but they are not believed to be an economic and viable option when operated in this mode. Compulsators, superconducting magnetic energy storage and capacitor st ...
... application the field only has to be maintained for fractions of a second. In principle homopolar generators could be operated continuously but they are not believed to be an economic and viable option when operated in this mode. Compulsators, superconducting magnetic energy storage and capacitor st ...
EET-223-ANALOG ELECTRONICS
... If the output of an amplifier is not a complete AC sine wave, then it is distorting the output. The amplifier is non-linear. This distortion can be analyzed using Fourier analysis. In Fourier analysis, any distorted periodic waveform can be broken down into frequency components. These components are ...
... If the output of an amplifier is not a complete AC sine wave, then it is distorting the output. The amplifier is non-linear. This distortion can be analyzed using Fourier analysis. In Fourier analysis, any distorted periodic waveform can be broken down into frequency components. These components are ...
Basic Electronics
... 9.1 10 ... times an appropriate power of 10 if required, so for example all of 3.9 , 39 , 390 , 3.9 k, 39 k, 390 k etc. are available. We normally try to use values between about 1 k and about 100 k where possible. Variable resistors (also called potentiometers) are also available. Where doe ...
... 9.1 10 ... times an appropriate power of 10 if required, so for example all of 3.9 , 39 , 390 , 3.9 k, 39 k, 390 k etc. are available. We normally try to use values between about 1 k and about 100 k where possible. Variable resistors (also called potentiometers) are also available. Where doe ...
Analog-Frequency converter XXXF70-90
... Isolation barrier (output-input-supply) is not allowed for mains (Vmax = 60 V) ...
... Isolation barrier (output-input-supply) is not allowed for mains (Vmax = 60 V) ...
Characteristic Min Typical Max Input Voltage 2.5V 2.6V to 12V 14V
... With the adjustment screw facing you, turning it clockwise increases the voltage, similar to the volume control on a stereo system. Current limits Input and output current to/from the AnyVolt Micro should be kept track of with a multimeter if you anticipate driving heavy loads. Stepping up from a lo ...
... With the adjustment screw facing you, turning it clockwise increases the voltage, similar to the volume control on a stereo system. Current limits Input and output current to/from the AnyVolt Micro should be kept track of with a multimeter if you anticipate driving heavy loads. Stepping up from a lo ...
AnyVoltMicro - Dimension Engineering
... With the adjustment screw facing you, turning it clockwise increases the voltage, similar to the volume control on a stereo system. Current limits Input and output current to/from the AnyVolt Micro should be kept track of with a multimeter if you anticipate driving heavy loads. Stepping up from a lo ...
... With the adjustment screw facing you, turning it clockwise increases the voltage, similar to the volume control on a stereo system. Current limits Input and output current to/from the AnyVolt Micro should be kept track of with a multimeter if you anticipate driving heavy loads. Stepping up from a lo ...
WM-UR800 8 Channel UHF Wireless Microphone
... individual channels to be used simultaneously (multiple receivers required, 200 point x 8 band =1600 channels). This is perfect for any situation where multiple microphones are required. This system provides the quality and durability required in venues such as a KTV room, karaoke bar, restaurant, o ...
... individual channels to be used simultaneously (multiple receivers required, 200 point x 8 band =1600 channels). This is perfect for any situation where multiple microphones are required. This system provides the quality and durability required in venues such as a KTV room, karaoke bar, restaurant, o ...
Specifying High Voltage Power Supplies
... supply when an arc occurs. With power supplies operating at high frequency rather than at line frequency, much smaller values of smoothing capacitance can be used, and the dangers of electrocution are thereby reduced. However, it should be noted that low ripple power supplies which include additiona ...
... supply when an arc occurs. With power supplies operating at high frequency rather than at line frequency, much smaller values of smoothing capacitance can be used, and the dangers of electrocution are thereby reduced. However, it should be noted that low ripple power supplies which include additiona ...
MG 35 SS-P
... 33 KVA THREE-PHASE AND 10 KVA SINGLE-PHASE / DIESEL ENGINE 1500 RPM Gen Set Features ...
... 33 KVA THREE-PHASE AND 10 KVA SINGLE-PHASE / DIESEL ENGINE 1500 RPM Gen Set Features ...
Low drop - Low supply voltage, Low ESR capacitor compatible
... The device's pins perform the dual function of providing an electrical connection as well as channeling heat away from the die. Use wide circuit-board traces and large, solid copper polygons to improve power dissipation. Using multiple vias to buried ground planes further enhances thermal conductivi ...
... The device's pins perform the dual function of providing an electrical connection as well as channeling heat away from the die. Use wide circuit-board traces and large, solid copper polygons to improve power dissipation. Using multiple vias to buried ground planes further enhances thermal conductivi ...
Switched-mode power supply
A switched-mode power supply (switching-mode power supply, switch-mode power supply, SMPS, or switcher) is an electronic power supply that incorporates a switching regulator to convert electrical power efficiently. Like other power supplies, an SMPS transfers power from a source, like mains power, to a load, such as a personal computer, while converting voltage and current characteristics. Unlike a linear power supply, the pass transistor of a switching-mode supply continually switches between low-dissipation, full-on and full-off states, and spends very little time in the high dissipation transitions, which minimizes wasted energy. Ideally, a switched-mode power supply dissipates no power. Voltage regulation is achieved by varying the ratio of on-to-off time. In contrast, a linear power supply regulates the output voltage by continually dissipating power in the pass transistor. This higher power conversion efficiency is an important advantage of a switched-mode power supply. Switched-mode power supplies may also be substantially smaller and lighter than a linear supply due to the smaller transformer size and weight.Switching regulators are used as replacements for linear regulators when higher efficiency, smaller size or lighter weight are required. They are, however, more complicated; their switching currents can cause electrical noise problems if not carefully suppressed, and simple designs may have a poor power factor.