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TS6001G3-2.5DB Datasheet
... 4) An optional load resistor ≥ 5kΩ and capacitor up to 2200pF can be soldered on the board. Solder the resistor on pads R1 and the capacitor on pads C1. If a load is not desired, leave these pads open and proceed to step 5. 5) Turn on the power supply and check that the digital voltmeter is reading ...
... 4) An optional load resistor ≥ 5kΩ and capacitor up to 2200pF can be soldered on the board. Solder the resistor on pads R1 and the capacitor on pads C1. If a load is not desired, leave these pads open and proceed to step 5. 5) Turn on the power supply and check that the digital voltmeter is reading ...
The transistor
... always lie between 1 and 2 volts centred on 1.5 V. The output voltage would be centred on 5 V and varying between 0 and 10 V. Any input voltage below 1 volt would always yield a 0 V output and any input voltage above 2 V would always yield a 10 V output. Under these circumstances the output voltage ...
... always lie between 1 and 2 volts centred on 1.5 V. The output voltage would be centred on 5 V and varying between 0 and 10 V. Any input voltage below 1 volt would always yield a 0 V output and any input voltage above 2 V would always yield a 10 V output. Under these circumstances the output voltage ...
Avoiding Op Amp Instability Problems In Single-Supply Applications
... fundamental issue is, if the signal is to swing both positive and negative with respect to “common,” this zero-signal reference voltage must be at a fixed level between the supply rails. The principal advantage of dual supplies is that their common connection provides a stable, low-impedance zero re ...
... fundamental issue is, if the signal is to swing both positive and negative with respect to “common,” this zero-signal reference voltage must be at a fixed level between the supply rails. The principal advantage of dual supplies is that their common connection provides a stable, low-impedance zero re ...
Low Offset Voltage | RRIO E-Trim TM Op-amp
... data acquisition for the highest accuracy in test and measurement. No like existing op amps, the OPAx192 realizes the high DC precision without auto-zero topology. By avoiding internal clocking impact, the OPAx192 has a low voltage noise of only 5.5nV/√Hz at 1kHz and low THD+N of 0.00008% at 1kHz. R ...
... data acquisition for the highest accuracy in test and measurement. No like existing op amps, the OPAx192 realizes the high DC precision without auto-zero topology. By avoiding internal clocking impact, the OPAx192 has a low voltage noise of only 5.5nV/√Hz at 1kHz and low THD+N of 0.00008% at 1kHz. R ...
Preliminary User`s Manual
... electro-optical VCA principle. This method - controlling the gain by the means of a light dependent resistor - is not as fast as the varimu method, but much more subtle sonically. This principle is known from e.g. the classic Universal audio LA2, LA3 and LA4 compressors, although we use a considerab ...
... electro-optical VCA principle. This method - controlling the gain by the means of a light dependent resistor - is not as fast as the varimu method, but much more subtle sonically. This principle is known from e.g. the classic Universal audio LA2, LA3 and LA4 compressors, although we use a considerab ...
439QS16GE - Hittite Microwave Corp.
... phase-frequency detectors intended for use in low noise phase-locked loop applications for inputs from 10 to 1300 MHz. Its combination of high frequency of operation along with its ultra low phase noise floor make possible synthesizers with wide loop bandwidth and low N resulting in fast switching a ...
... phase-frequency detectors intended for use in low noise phase-locked loop applications for inputs from 10 to 1300 MHz. Its combination of high frequency of operation along with its ultra low phase noise floor make possible synthesizers with wide loop bandwidth and low N resulting in fast switching a ...
DAC_WangChen
... Weighted-Resistor DAC – VOUT is a weighted sum of V3, …, V0 with weights proportional to the conductances G3, .., G0. – If X3:0 is a binary number we want conductances in the ratio 8:4:2:1. –Fast: gate slew rate ≈ 3 V/ns. – We can scale the resistors to give the output impedance we want. – Not good ...
... Weighted-Resistor DAC – VOUT is a weighted sum of V3, …, V0 with weights proportional to the conductances G3, .., G0. – If X3:0 is a binary number we want conductances in the ratio 8:4:2:1. –Fast: gate slew rate ≈ 3 V/ns. – We can scale the resistors to give the output impedance we want. – Not good ...
SNA-386 DC-3 GHz, Cascadable GaAs MMIC Amplifier Product Description
... this information, and all such information shall be entirely at the users own risk. Prices and specifications are subject to change without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. Sirenza Microdevices does not authorize ...
... this information, and all such information shall be entirely at the users own risk. Prices and specifications are subject to change without notice. No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. Sirenza Microdevices does not authorize ...
Capacitor Self
... 3) Press the Stop hardkey, then press the Display hardkey followed by the Vectors On softkey. Vectors On essentially "connects the dots", giving a better display of the trace for Channel 2. Notable is the large amplitude of the first current pulse, due to the filter capacitor being uncharged initial ...
... 3) Press the Stop hardkey, then press the Display hardkey followed by the Vectors On softkey. Vectors On essentially "connects the dots", giving a better display of the trace for Channel 2. Notable is the large amplitude of the first current pulse, due to the filter capacitor being uncharged initial ...
Low Cost, Precision JFET Input Operational Amplifiers / ADA4000-1
... precision, very low bias current, and low power. Combining high input impedance, low input bias current, wide bandwidth, fast slew rate, and fast settling time, the ADA4000-1/ADA40002/ADA4000-4 are ideal amplifiers for driving analog-to-digital inputs and buffering digital-to-analog converter output ...
... precision, very low bias current, and low power. Combining high input impedance, low input bias current, wide bandwidth, fast slew rate, and fast settling time, the ADA4000-1/ADA40002/ADA4000-4 are ideal amplifiers for driving analog-to-digital inputs and buffering digital-to-analog converter output ...
Power Supply Using Power Transistors
... configuration presented in Figure 8.25, and reproduced to the right, allows the output current to increase to about 5A while still preserving the thermal shutdown and short circuit protection of the IC. The concept of this circuit is that the external power transistor Q1, which acts as a pass transi ...
... configuration presented in Figure 8.25, and reproduced to the right, allows the output current to increase to about 5A while still preserving the thermal shutdown and short circuit protection of the IC. The concept of this circuit is that the external power transistor Q1, which acts as a pass transi ...
Section J4: FET Biasing
... By comparing the equations developed and/or defined for the MOSFET and JFET in the previous section, you can see that they are the same except for the expressions for the zero-gate drain current IDSS, the constant K and the notation for the threshold voltage (VT for MOSFET, VP for JFET). This actual ...
... By comparing the equations developed and/or defined for the MOSFET and JFET in the previous section, you can see that they are the same except for the expressions for the zero-gate drain current IDSS, the constant K and the notation for the threshold voltage (VT for MOSFET, VP for JFET). This actual ...
The Product Detector
... up the frequency-determining components for the BFO. C16’s purpose is to pull Y4 up a bit in frequency just like RFC2 pulled the transmit LO down. The output is taken from the mixer in a balanced configuration. The capacitor across pins 4 and 5 is there to allow the RF parts of the mixer output to p ...
... up the frequency-determining components for the BFO. C16’s purpose is to pull Y4 up a bit in frequency just like RFC2 pulled the transmit LO down. The output is taken from the mixer in a balanced configuration. The capacitor across pins 4 and 5 is there to allow the RF parts of the mixer output to p ...
Worksheets
... (iii) If the voltage at V3 is to equal the voltage at V2 at a temperature of 30°C, what resistance setting is required for the variable resistor? Resistance ___________? ...
... (iii) If the voltage at V3 is to equal the voltage at V2 at a temperature of 30°C, what resistance setting is required for the variable resistor? Resistance ___________? ...
Noise Coupling Part II
... could appear between these two systems. This would cause a noise current to flow along the cable screen, which in turn would be converted to differential-mode noise across the line drivers at either end of the data cable depending on the pair balance of the cabling system. In researching the informa ...
... could appear between these two systems. This would cause a noise current to flow along the cable screen, which in turn would be converted to differential-mode noise across the line drivers at either end of the data cable depending on the pair balance of the cabling system. In researching the informa ...
Chapter 17 - RL Circuits
... Power Factor Correction • Power factor of an inductive load can be increased by the addition of a capacitor in parallel – The capacitor compensates for the the phase lag of the total current by creating a capacitive component of current that is 180 out of phase with the inductive component – This ...
... Power Factor Correction • Power factor of an inductive load can be increased by the addition of a capacitor in parallel – The capacitor compensates for the the phase lag of the total current by creating a capacitive component of current that is 180 out of phase with the inductive component – This ...
Inverting Amplifier
... Exercise 2.24: Consider an inverting amplifier with a nominal gain of 1000 constructed from an op amp with an input offset voltage of 3 mV and with output saturation levels of ±10 V. (a) What is the peak sine-wave input signal that can be applied without output clipping? (b) If the effect of VOS is ...
... Exercise 2.24: Consider an inverting amplifier with a nominal gain of 1000 constructed from an op amp with an input offset voltage of 3 mV and with output saturation levels of ±10 V. (a) What is the peak sine-wave input signal that can be applied without output clipping? (b) If the effect of VOS is ...