May 2001 LT1815: 220MHz, 1500V/µs Amplifier Saves Space and Power
... some other Linear Technology amplifiers, while the curve represents the continuous set of data points that the LT1815 and a well-chosen programming resistor can offer. While keeping in mind that every op amp is different, offering its own unique set of advantages, the LT1815 does in fact offer lower ...
... some other Linear Technology amplifiers, while the curve represents the continuous set of data points that the LT1815 and a well-chosen programming resistor can offer. While keeping in mind that every op amp is different, offering its own unique set of advantages, the LT1815 does in fact offer lower ...
RT6150A/B
... output voltage from an input supply that can be above, equal, or below the output voltage. The average inductor current is regulated by a fast current regulator which is controlled by a voltage control loop. The voltage error amplifier gets its feedback input from the FB pin. For adjustable output v ...
... output voltage from an input supply that can be above, equal, or below the output voltage. The average inductor current is regulated by a fast current regulator which is controlled by a voltage control loop. The voltage error amplifier gets its feedback input from the FB pin. For adjustable output v ...
X - CDMS
... with the Q output LOW, and the timing capacitor CEXT completely charged to VCC. When the trigger input A goes from VCC to GND (while inputs B and clear are held to VCC) a valid trigger is recognized, which turns on comparator C1 and Nchannel transistor N11. At the same time the output latch is set. ...
... with the Q output LOW, and the timing capacitor CEXT completely charged to VCC. When the trigger input A goes from VCC to GND (while inputs B and clear are held to VCC) a valid trigger is recognized, which turns on comparator C1 and Nchannel transistor N11. At the same time the output latch is set. ...
GS2 Sensor (AGS2) - Panasonic Industrial Devices
... in contact with water. • Avoid use in an environment where these products cause dew condensation. When water attached to the sensor chip freezes, the sensor output may be fluctuated or damaged. • Do not apply high-frequency oscillation, such as ultrasonic waves, to the product. ...
... in contact with water. • Avoid use in an environment where these products cause dew condensation. When water attached to the sensor chip freezes, the sensor output may be fluctuated or damaged. • Do not apply high-frequency oscillation, such as ultrasonic waves, to the product. ...
User Manual VME64x 7U
... approval for this unit. In Order to enable stand-alone functionality, additional elements are required. An operational system is achieved only by way of appropriate VME / VME64x boards. The completion and final testing of the units have been carried out, or at least supervised, by qualified technici ...
... approval for this unit. In Order to enable stand-alone functionality, additional elements are required. An operational system is achieved only by way of appropriate VME / VME64x boards. The completion and final testing of the units have been carried out, or at least supervised, by qualified technici ...
BD7931F
... When IC is used, design in such a manner that the output transistor to a motor does not exceed absolute maximum ratings and ASO. (9) Thermal shutdown circuit (TSD) (common) When junction temperature (Tj) becomes thermal shutdown ON temperature 175°C, the thermal shutdown circuit (TSD circuit) is act ...
... When IC is used, design in such a manner that the output transistor to a motor does not exceed absolute maximum ratings and ASO. (9) Thermal shutdown circuit (TSD) (common) When junction temperature (Tj) becomes thermal shutdown ON temperature 175°C, the thermal shutdown circuit (TSD circuit) is act ...
Bourns Technology Enables Efficient and Compact DC
... There are several styles of DC-DC converters including buck, boost, buck-boost, and Sepic. Each uses five main components including a diode (D), inductor (L), resistor (R), transistor (Q), and output filter capacitor (C) as shown in Figures 1-4. The transistor is switched on and off at a fixed rate, ...
... There are several styles of DC-DC converters including buck, boost, buck-boost, and Sepic. Each uses five main components including a diode (D), inductor (L), resistor (R), transistor (Q), and output filter capacitor (C) as shown in Figures 1-4. The transistor is switched on and off at a fixed rate, ...
AN2454
... leading edge during switch-on may cause the problems described above. To eliminate this problem, the parasitic capacitance must be reduced as much as possible by optimizing the layout and the transformer. When this is accomplished, the above effects can be minimized futher by additional fine tuning ...
... leading edge during switch-on may cause the problems described above. To eliminate this problem, the parasitic capacitance must be reduced as much as possible by optimizing the layout and the transformer. When this is accomplished, the above effects can be minimized futher by additional fine tuning ...
JL2215911596
... connecting a CMOS transmission gate and we used newer ternary circuits to synthesis the ternary output. The logical symbol of the ternary AND is shown in Fig.5. As we know that, transmission gate is used as a switch. To design a TAND, we make the used conventional binary design of transmission gate. ...
... connecting a CMOS transmission gate and we used newer ternary circuits to synthesis the ternary output. The logical symbol of the ternary AND is shown in Fig.5. As we know that, transmission gate is used as a switch. To design a TAND, we make the used conventional binary design of transmission gate. ...
A Capacitance-Compensation Technique for Improved Linearity in CMOS Class-AB Power Amplifiers
... power amplifiers. The method involves placing a PMOS device alongside the NMOS device that works as the amplifying unit, such that the overall capacitance seen at the amplifier input is a constant, thus improving linearity. The technique is developed with the help of computer simulations and Volterr ...
... power amplifiers. The method involves placing a PMOS device alongside the NMOS device that works as the amplifying unit, such that the overall capacitance seen at the amplifier input is a constant, thus improving linearity. The technique is developed with the help of computer simulations and Volterr ...
FA295564 - Schneider Electric
... Before injecting voltage please do not to forget to swap the wiring between Omicron (or any other test set) and relay; as an illustration swap V1 and V2. In other words, you need to connect voltage output channel No. 1 of Omicron to voltage input channel No.2 of relay and vice versa. Here below you ...
... Before injecting voltage please do not to forget to swap the wiring between Omicron (or any other test set) and relay; as an illustration swap V1 and V2. In other words, you need to connect voltage output channel No. 1 of Omicron to voltage input channel No.2 of relay and vice versa. Here below you ...
MAX8570–MAX8575 High-Efficiency LCD Boost with True Shutdown General Description
... The MAX8570 family features a minimum off-time current-limited control scheme operating in discontinuous mode. An internal p-channel MOSFET switch connects VCC to SW to provide power to the inductor when the converter is operating. When the converter is shut down, this switch disconnects the input s ...
... The MAX8570 family features a minimum off-time current-limited control scheme operating in discontinuous mode. An internal p-channel MOSFET switch connects VCC to SW to provide power to the inductor when the converter is operating. When the converter is shut down, this switch disconnects the input s ...
PART 1 – GENERAL - Hammond Power Solutions
... secondary windings through cancellation of the zero sequence fluxes. Simply trapping these currents in the delta primary winding is NOT acceptable. For 5th, 7th, 17th & 19th harmonics provide the appropriate primary-secondary phase shift in order to cancel these harmonic currents with those of other ...
... secondary windings through cancellation of the zero sequence fluxes. Simply trapping these currents in the delta primary winding is NOT acceptable. For 5th, 7th, 17th & 19th harmonics provide the appropriate primary-secondary phase shift in order to cancel these harmonic currents with those of other ...
Switched-Mode Parallel-Circuit Class E Tuned Power Amplifiers
... The switched-mode Class E tuned power amplifiers with a shunt capacitance have found widespread application due to their design simplicity and high efficiency operation [1]. Such a circuit configuration consists of the shunt capacitance, series inductance, RF choke to provide the connection to the D ...
... The switched-mode Class E tuned power amplifiers with a shunt capacitance have found widespread application due to their design simplicity and high efficiency operation [1]. Such a circuit configuration consists of the shunt capacitance, series inductance, RF choke to provide the connection to the D ...
edc-module_ia-dc_generator
... The value of Radj can be adjusted to obtain various speed such that the armature current Ia (hence torque, Te=KadIa) remains constant. Armature resistance control is simple to implement. However, this method is less efficient because of loss in Radj. This resistance should also been designed to car ...
... The value of Radj can be adjusted to obtain various speed such that the armature current Ia (hence torque, Te=KadIa) remains constant. Armature resistance control is simple to implement. However, this method is less efficient because of loss in Radj. This resistance should also been designed to car ...
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.