BWR-15/165-D48
... The migration to distributed power is accelerating. The critical need for accurate voltages, tight regulation and rapid transient response is propelling the move to power processing at the "point-of-use" with low-power DC/DC converters physically located right at their loads. DATEL’s miniature, full ...
... The migration to distributed power is accelerating. The critical need for accurate voltages, tight regulation and rapid transient response is propelling the move to power processing at the "point-of-use" with low-power DC/DC converters physically located right at their loads. DATEL’s miniature, full ...
Accessible Wheelchair Scale
... important that the inputs and output of the voltage regulator share a common ground, otherwise the regulator may not function within the specifications listed on the datasheet. Additional .1 uF capacitors will be connected between the power and ground pins of the electronic components to provide add ...
... important that the inputs and output of the voltage regulator share a common ground, otherwise the regulator may not function within the specifications listed on the datasheet. Additional .1 uF capacitors will be connected between the power and ground pins of the electronic components to provide add ...
LM12CL 80W Operational Amplifier 80W Operational
... gives the lowest possible closed-loop output impedance at high frequencies and the best load-transient response. It is appropriate for such applications as voltage regulators. A feedback capacitor, C1, is connected directly to the output pin of the IC. The output capacitor, C2, is connected at the o ...
... gives the lowest possible closed-loop output impedance at high frequencies and the best load-transient response. It is appropriate for such applications as voltage regulators. A feedback capacitor, C1, is connected directly to the output pin of the IC. The output capacitor, C2, is connected at the o ...
Evaluates: MAX17007A MAX17007A Evaluation Kit General Description Features
... different dynamic output voltages. The OUT2 output can be configured for preset 1.5V (FB2 = REF) or adjustable from 0.7V to 2V by installing appropriate feedback resistors. See the OUT1 Voltage (VOUT1) and OUT2 Voltage (VOUT2) sections for more details. The outputs can also be combined to operate as ...
... different dynamic output voltages. The OUT2 output can be configured for preset 1.5V (FB2 = REF) or adjustable from 0.7V to 2V by installing appropriate feedback resistors. See the OUT1 Voltage (VOUT1) and OUT2 Voltage (VOUT2) sections for more details. The outputs can also be combined to operate as ...
MAX764/MAX765/MAX766 -5V/-12V/-15V or Adjustable, High-Efficiency, Low I DC-DC Inverters
... 1) They can operate with miniature (less than 5mm diameter) surface-mount inductors, because of their 300kHz switching frequency. 2) The current-limited PFM control scheme allows efficiencies exceeding 80% over a wide range of load currents. 3) Maximum quiescent supply current is only 120µA. Figures ...
... 1) They can operate with miniature (less than 5mm diameter) surface-mount inductors, because of their 300kHz switching frequency. 2) The current-limited PFM control scheme allows efficiencies exceeding 80% over a wide range of load currents. 3) Maximum quiescent supply current is only 120µA. Figures ...
AD835 250 MHz, Voltage Output 4-Quadrant Multiplier Data Sheet
... (a small signal rise time of 1 ns). Full scale (–1 V to +1 V) rise to fall times are 2.5 ns (with the standard RL of 150 ), and the settling time to 0.1% under the same conditions is typically 20 ns. Its differential multiplication inputs (X, Y) and its summing input (Z) are at high impedance. The ...
... (a small signal rise time of 1 ns). Full scale (–1 V to +1 V) rise to fall times are 2.5 ns (with the standard RL of 150 ), and the settling time to 0.1% under the same conditions is typically 20 ns. Its differential multiplication inputs (X, Y) and its summing input (Z) are at high impedance. The ...
1 GHz GaAs Buck Converter for High Power
... Chip inductors as they are usually applied on GaAs chips, give rise to resistive losses and low allowed maximum current, due to the used thin gold metal applied in narrow traces. With inductors on silicon chips, these problems increase, due to the use of aluminum being a worse conductor than gold an ...
... Chip inductors as they are usually applied on GaAs chips, give rise to resistive losses and low allowed maximum current, due to the used thin gold metal applied in narrow traces. With inductors on silicon chips, these problems increase, due to the use of aluminum being a worse conductor than gold an ...
Datasheet - Mouser Electronics
... The AD8618 quad op amp forms three simple current sources to drive the LEDs with a constant current. The EVAL-SDP-CB1Z generates a 5 kHz clock that modulates one LED by using the ADG633 single pole, double throw (SPDT) switch to turn its current source’s reference voltage on and off. Setting the cur ...
... The AD8618 quad op amp forms three simple current sources to drive the LEDs with a constant current. The EVAL-SDP-CB1Z generates a 5 kHz clock that modulates one LED by using the ADG633 single pole, double throw (SPDT) switch to turn its current source’s reference voltage on and off. Setting the cur ...
High-Voltage, Programmable Gain Difference Amplifier
... levels. High-voltage capability also affords inherent input protection. The input common-mode range extends beyond both supply rails, making the INA146 well-suited for both single and dual supply applications. On-chip precision resistors are laser-trimmed to achieve accurate gain and high common-mod ...
... levels. High-voltage capability also affords inherent input protection. The input common-mode range extends beyond both supply rails, making the INA146 well-suited for both single and dual supply applications. On-chip precision resistors are laser-trimmed to achieve accurate gain and high common-mod ...
modified_version_3
... decrease the load on pulse transformers, the capacitance of C1 should be greatly lower than C0. Therefore, the capacitance of C0 is chosen as 4mF. The voltage after being processed by the regulator is nearly 220V. And the voltage after the full-bridge rectifying circuit is nearly 310V. Thus C0 is ch ...
... decrease the load on pulse transformers, the capacitance of C1 should be greatly lower than C0. Therefore, the capacitance of C0 is chosen as 4mF. The voltage after being processed by the regulator is nearly 220V. And the voltage after the full-bridge rectifying circuit is nearly 310V. Thus C0 is ch ...
Comparison of SVPWM and SPWM Techniques for Back to Back
... the benefits [9-11]. BTB converter is formed by two identical voltage source converters (VSC) connected by a common dc-link. This topology presents several advantages in terms of power processing and allows bidirectional power flow with quasi-sinusoidal currents. The load can be active, passive or e ...
... the benefits [9-11]. BTB converter is formed by two identical voltage source converters (VSC) connected by a common dc-link. This topology presents several advantages in terms of power processing and allows bidirectional power flow with quasi-sinusoidal currents. The load can be active, passive or e ...
Line Follower tutorial v1.
... An array of sensors arranged in a straight row pattern is bolted under the front of the robot. It is used to locate the position of line below the robot. We can use any number of sensors. If we have lesser number then our robot movement is not smooth and it may face problems at sharp turns. If we us ...
... An array of sensors arranged in a straight row pattern is bolted under the front of the robot. It is used to locate the position of line below the robot. We can use any number of sensors. If we have lesser number then our robot movement is not smooth and it may face problems at sharp turns. If we us ...
Line Transformer - Selection Guide
... Use Isolation (series 172, 179 or 289) Could use “Auto” (series 175) Straight Isolation Use Isolation (series 169 or 171) ...
... Use Isolation (series 172, 179 or 289) Could use “Auto” (series 175) Straight Isolation Use Isolation (series 169 or 171) ...
Voltage regulator
A voltage regulator is designed to automatically maintain a constant voltage level. A voltage regulator may be a simple ""feed-forward"" design or may include negative feedback control loops. It may use an electromechanical mechanism, or electronic components. Depending on the design, it may be used to regulate one or more AC or DC voltages.Electronic voltage regulators are found in devices such as computer power supplies where they stabilize the DC voltages used by the processor and other elements. In automobile alternators and central power station generator plants, voltage regulators control the output of the plant. In an electric power distribution system, voltage regulators may be installed at a substation or along distribution lines so that all customers receive steady voltage independent of how much power is drawn from the line.