Precision Adjustable Shunt Regulator
... The UC39431 is an adjustable shunt voltage regulator with 100mA sink capability. The architecture, comprised of an error amplifier and transconductance amplifier, gives the user separate control of the small signal error voltage frequency response along with a fixed linear transconductance. A minimu ...
... The UC39431 is an adjustable shunt voltage regulator with 100mA sink capability. The architecture, comprised of an error amplifier and transconductance amplifier, gives the user separate control of the small signal error voltage frequency response along with a fixed linear transconductance. A minimu ...
LTC6905.pdf
... V+ (Pin 1): Voltage Supply (2.7V ≤ V+ ≤ 5.5V). This supply must be kept free from noise and ripple. It should be bypassed directly to the GND (Pin 2) with a 0.1µF capacitor or higher. GND (Pin 2): Ground. Should be tied to a ground plane for best performance. SET (Pin 3): Frequency-Setting Resistor ...
... V+ (Pin 1): Voltage Supply (2.7V ≤ V+ ≤ 5.5V). This supply must be kept free from noise and ripple. It should be bypassed directly to the GND (Pin 2) with a 0.1µF capacitor or higher. GND (Pin 2): Ground. Should be tied to a ground plane for best performance. SET (Pin 3): Frequency-Setting Resistor ...
HMC586LC4B
... Voltage Controlled Oscillator which incorporates the resonator, negative resistance device, and varactor diode. Output power and phase noise performance are excellent over temperature due to the oscillator’s monolithic construction. The Vtune port accepts an analog tuning voltage from 0 to +18V. The ...
... Voltage Controlled Oscillator which incorporates the resonator, negative resistance device, and varactor diode. Output power and phase noise performance are excellent over temperature due to the oscillator’s monolithic construction. The Vtune port accepts an analog tuning voltage from 0 to +18V. The ...
Amplifier Remote Control for Modal Exciter Systems
... DISABLED with one master control • Local and Remote displays are “coordinated” – showing same information; minimizes operator uncertainty of status and wasted time running back and forth from amplifier to control room • Loss of or failure of Ethernet connection does not stop SSPA from running – goes ...
... DISABLED with one master control • Local and Remote displays are “coordinated” – showing same information; minimizes operator uncertainty of status and wasted time running back and forth from amplifier to control room • Loss of or failure of Ethernet connection does not stop SSPA from running – goes ...
GainMaker 低增益 二端口系统放大器 1 GHz,40/52 MHz 分割 (英文)
... Data is based on stations configured for 2-way operation. AC currents specified are based on measurements made with typical CATV type ferro-resonant AC power supply (quasi-square wave), and standard GainMaker System Amplifier power supply (2.2 amp, 24 V DC, pn 734771). DC supply has a user configura ...
... Data is based on stations configured for 2-way operation. AC currents specified are based on measurements made with typical CATV type ferro-resonant AC power supply (quasi-square wave), and standard GainMaker System Amplifier power supply (2.2 amp, 24 V DC, pn 734771). DC supply has a user configura ...
chapter31.1 - Colorado Mesa University
... For a circuit junction, Kirchoff’s Junction rule holds… ...
... For a circuit junction, Kirchoff’s Junction rule holds… ...
Capacitor Self
... The Agilent E3631A power supply provides two variable supplies with a common ground and a variable low voltage supply. As shown in Fig. 1, the jack labeled “COM” between the VCC supplies is connected to circuit ground. 2. Adjust the output so the +VCC and –VCC are equal — but opposite in sign — at 1 ...
... The Agilent E3631A power supply provides two variable supplies with a common ground and a variable low voltage supply. As shown in Fig. 1, the jack labeled “COM” between the VCC supplies is connected to circuit ground. 2. Adjust the output so the +VCC and –VCC are equal — but opposite in sign — at 1 ...
lab1 - Berkeley Robotics and Intelligent Machines Lab
... a. Run 3T3Ropamp.asc, build that circuit, and do part 2b again. (Note that positive and negative inputs have switched with the addition of a second stage with negative gain.) b. Run 3T3RopampFB.asc, build that circuit, and try to do part 2c. You may see oscillations. Reduce the feedback factor (incr ...
... a. Run 3T3Ropamp.asc, build that circuit, and do part 2b again. (Note that positive and negative inputs have switched with the addition of a second stage with negative gain.) b. Run 3T3RopampFB.asc, build that circuit, and try to do part 2c. You may see oscillations. Reduce the feedback factor (incr ...
5 Experiment - Characteristics of Bipolar Junction Transistors
... York, New York, 2001), Chap 4. ...
... York, New York, 2001), Chap 4. ...
HMC586LC4B
... The HMC586LC4B is a wideband GaAs InGaP Voltage Controlled Oscillator which incorporates the resonator, negative resistance device, and varactor diode. Output power and phase noise performance are excellent over temperature due to the oscillator’s monolithic construction. The Vtune port accepts an a ...
... The HMC586LC4B is a wideband GaAs InGaP Voltage Controlled Oscillator which incorporates the resonator, negative resistance device, and varactor diode. Output power and phase noise performance are excellent over temperature due to the oscillator’s monolithic construction. The Vtune port accepts an a ...
AN1681 - How to Keep a FLYBACK Switch Mode Supply Stable with
... current. This necessitates a temporary duty-cycle augmentation which (with only two operational states) causes the diode conduction time to diminish. Therefore, it implies a decrease in the average diode current at first, rather than an increase as desired. When heavily into the continuous mode and ...
... current. This necessitates a temporary duty-cycle augmentation which (with only two operational states) causes the diode conduction time to diminish. Therefore, it implies a decrease in the average diode current at first, rather than an increase as desired. When heavily into the continuous mode and ...
balanced modulator
... AM at VHF, UHF, and microwave frequencies. PIN diodes are special type silicon junction diodes designed for use at frequencies above 100 MHz. When PIN diodes are forward-biased, they operate as variable resistors. Attenuation caused by PIN diode circuits varies with the amplitude of the modula ...
... AM at VHF, UHF, and microwave frequencies. PIN diodes are special type silicon junction diodes designed for use at frequencies above 100 MHz. When PIN diodes are forward-biased, they operate as variable resistors. Attenuation caused by PIN diode circuits varies with the amplitude of the modula ...
TMS470R1x Zero-Pin Phase-Locked Loop
... TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and application s using TI components. To minimize the risks associated with customer products and applications, customers should provide adequate design and operating safegua ...
... TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and application s using TI components. To minimize the risks associated with customer products and applications, customers should provide adequate design and operating safegua ...
Feng_T_T_2017
... The main problem for downhole electronics is the temperature limitation, being that the pressures are handled mechanically. Despite wells being classified beyond 210 °C the current drilling temperatures do not exceed 200 °C [1]- [2]. This is due to that face that the current electronics, which made ...
... The main problem for downhole electronics is the temperature limitation, being that the pressures are handled mechanically. Despite wells being classified beyond 210 °C the current drilling temperatures do not exceed 200 °C [1]- [2]. This is due to that face that the current electronics, which made ...
Oscilloscope mode AUTO NORMAL sweep generator – free running
... At the left-hand side of the figure, the first block is a differential input stage with emitter followers (Ql and Q2) driving common-base stages (Q3 and Q4). The transistors Q5 and Q6 form an active load for Q3 and Q4. Transistors Q7, Q5, Q6 and their emitter resistances form a simple current mirror ...
... At the left-hand side of the figure, the first block is a differential input stage with emitter followers (Ql and Q2) driving common-base stages (Q3 and Q4). The transistors Q5 and Q6 form an active load for Q3 and Q4. Transistors Q7, Q5, Q6 and their emitter resistances form a simple current mirror ...