MAX5082/MAX5083 1.5A, 40V, MAXPower Step-Down DC-DC Converters General Description
... The MAX5082/MAX5083 are 250kHz PWM step-down DC-DC converters with an on-chip, 0.3Ω high-side switch. The input voltage range is 4.5V to 40V for the MAX5082 and 7.5V to 40V for the MAX5083. The output is adjustable from 1.23V to 32V and can deliver up to 1.5A of load current. Both devices utilize a ...
... The MAX5082/MAX5083 are 250kHz PWM step-down DC-DC converters with an on-chip, 0.3Ω high-side switch. The input voltage range is 4.5V to 40V for the MAX5082 and 7.5V to 40V for the MAX5083. The output is adjustable from 1.23V to 32V and can deliver up to 1.5A of load current. Both devices utilize a ...
Pendulum Quartet II Operating Manual
... cause them to shaken loose from their sockets. Please avoid rough handling. Ventilation For proper operation, it is very important that adequate ventilation is provided. Vacuum tubes produce a significant amount of heat that must be removed from inside the chassis. The side panel and top panel vents ...
... cause them to shaken loose from their sockets. Please avoid rough handling. Ventilation For proper operation, it is very important that adequate ventilation is provided. Vacuum tubes produce a significant amount of heat that must be removed from inside the chassis. The side panel and top panel vents ...
Lab #4 - Instructional Physics Lab
... 3. What is the resonant frequency,wo, for an RLC circuit with a 1000 Ohm resistor; a 68 mH inductor and a 1000 pf capacitor? What is the decay rate for this circuit? Bonus: At what frequency would the undriven circuit oscillate? 4. Consider the circuit described in question three driven by a voltage ...
... 3. What is the resonant frequency,wo, for an RLC circuit with a 1000 Ohm resistor; a 68 mH inductor and a 1000 pf capacitor? What is the decay rate for this circuit? Bonus: At what frequency would the undriven circuit oscillate? 4. Consider the circuit described in question three driven by a voltage ...
Transimpedance Amplifiers (TIA)
... Table 1 results show that the LMH6629 delivers the highest SNR for this application by virtue of its ultralow input noise voltage (en) which is low enough to be a non-factor and also results in a minimal "input capacitance term" as well. In the end, which amplifier gives the best SNR is determined b ...
... Table 1 results show that the LMH6629 delivers the highest SNR for this application by virtue of its ultralow input noise voltage (en) which is low enough to be a non-factor and also results in a minimal "input capacitance term" as well. In the end, which amplifier gives the best SNR is determined b ...
firing circuit for three-phase fully controlled bridge dual
... current waveforms, and firing sequence of thyristors. The three-phase six-pulse bridge can be operated in a converter or inverter mode depending upon the delay angle to be less than or above 90º. Each SCR remains on for 120º duration and is turned off only when the next SCR of the same portion in se ...
... current waveforms, and firing sequence of thyristors. The three-phase six-pulse bridge can be operated in a converter or inverter mode depending upon the delay angle to be less than or above 90º. Each SCR remains on for 120º duration and is turned off only when the next SCR of the same portion in se ...
C3_F5_Electronics_R2..
... For most amplifiers, the voltage gain of an op-amp is too large to be of practical use. It is not possible to adjust the open loop voltage gain of an op-amp to enable them to be used in normal amplifier circuits so Negative Feedback is used to reduce the overall gain of the circuit. With negative fe ...
... For most amplifiers, the voltage gain of an op-amp is too large to be of practical use. It is not possible to adjust the open loop voltage gain of an op-amp to enable them to be used in normal amplifier circuits so Negative Feedback is used to reduce the overall gain of the circuit. With negative fe ...
LTC3201 - 100mA Ultralow Noise Charge Pump LED Supply with
... The value at the FB pin is then compared to the output of the DAC. The charge pump output voltage is then changed to equalize the DAC output and the FB pin. The value of the sense resistor determines the maximum value of the output current. When the charge pump is enabled, a two-phase nonoverlapping ...
... The value at the FB pin is then compared to the output of the DAC. The charge pump output voltage is then changed to equalize the DAC output and the FB pin. The value of the sense resistor determines the maximum value of the output current. When the charge pump is enabled, a two-phase nonoverlapping ...
AD7191 数据手册DataSheet下载
... 4.92 MHz clock is used as the clock source to the AD7191. Gain Select, Digital Input Pin. This pin is used in conjunction with PGA1 to set the gain. See Table 7. Gain Select, Digital Input Pin. This pin is used in conjunction with PGA2 to set the gain. See Table 7. Channel Select, Digital Input Pin. ...
... 4.92 MHz clock is used as the clock source to the AD7191. Gain Select, Digital Input Pin. This pin is used in conjunction with PGA1 to set the gain. See Table 7. Gain Select, Digital Input Pin. This pin is used in conjunction with PGA2 to set the gain. See Table 7. Channel Select, Digital Input Pin. ...
Linear Four-Quadrant Multiplier
... at Pin 4 is approximately − 4.3 V. For optimum temperature stability of these regulated voltages, it is recommended that |I2| = |I4| = 1.0 mA (equivalent load of 8.6 kΩ). As will be shown later, there will normally be two 20 kΩ potentiometers and one 50 kΩ potentiometer connected between Pins 2 and ...
... at Pin 4 is approximately − 4.3 V. For optimum temperature stability of these regulated voltages, it is recommended that |I2| = |I4| = 1.0 mA (equivalent load of 8.6 kΩ). As will be shown later, there will normally be two 20 kΩ potentiometers and one 50 kΩ potentiometer connected between Pins 2 and ...
Thermoelectric Cooler (TEC) Controller ADN8831 GENERAL DESCRIPTION
... around the compensation amplifier. The user can adjust this network to optimize the step response of the TEC temperature, either in terms of settling time or maximum current change. Details of how to adjust the compensation network are in the PID Compensation Amplifier (Chop2) section. The TEC is di ...
... around the compensation amplifier. The user can adjust this network to optimize the step response of the TEC temperature, either in terms of settling time or maximum current change. Details of how to adjust the compensation network are in the PID Compensation Amplifier (Chop2) section. The TEC is di ...
Bass Guitar preamp design
... bass preamps is listed in appendices 2. These solutions will be used to create a specification for the artefact. ...
... bass preamps is listed in appendices 2. These solutions will be used to create a specification for the artefact. ...