Published:2009/6/24 22:47:00 Author:May
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Published:2009/6/24 22:46:00 Author:May
The 2N5485 has low input capacitance which makes this compound series-feedback buffer a wide-band unity gain amplifier. (View)
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Published:2009/6/24 22:43:00 Author:May
The input is dc biased to mid-operating point and is ac coupled. Its input impedance is approximately 500K at low frequencies. For dc loads referenced to ground, the quiescent cur-rent is increased by the load current set at the input dc bias voltage. (View)
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Published:2009/6/24 22:42:00 Author:May
The sine wave output has a relatively high output impedance (1K typ). The circuit provides buffering, gain, and amplitude adjust ment. A simple op amp follower could also be used. (View)
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Published:2009/6/24 22:42:00 Author:May
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Published:2009/6/24 22:30:00 Author:May
Use this circuit to sense four quadrant motion of a light source. By proper summing of the signals from the X and Y axes, four quadrant output may be fed to an X-Y plotter, oscilloscope, or computer for simulation. IC = NE/SE5514 (View)
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Published:2009/6/24 22:24:00 Author:May
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Published:2009/6/24 22:23:00 Author:May
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Published:2009/6/24 22:22:00 Author:May
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Published:2009/6/24 22:21:00 Author:May
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Published:2009/6/24 22:18:00 Author:May
This circuit uses 1/4 of an LM3900 to build a simple variable-gain front end for an oscilloscope. R7 is the gain control. Also shown is a simple preamp if you need more than 10X of gain. (View)
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Published:2009/6/24 22:17:00 Author:May
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Published:2009/6/24 22:16:00 Author:May
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Published:2009/6/24 22:16:00 Author:May
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Published:2009/6/24 22:16:00 Author:May
Meter amplifiers normally require one or two 9-V transistor batteries. Because of the heavy cur-rent drain on these supplies, the meters must be switched to the OFF position when not in use. The meter circuit described here operates on two 1.5-V flashlight batteries and has a quiescent power drain so low that no on/off switch is needed. A pair of Eveready No. 950 D cells will serve for a min-irnum of one year without replacement. As a dc ammeter, the circuit will provide current ranges as low as 100 nA full-scale.
The basic meter amplifier circuit shown is a current-to-voltage converter. Negative feedback around the amplifier ensures that currents IIN and If are always equal, and the high gain of the op amp ensures that the input voltage between pins 2 and 3 is in the microvolt region. Output voltageVO is therefore equal to -IfRf. Considering the ±1.5-V sources (±1.2 V end of life) a practical value ofVO for full-scale meter deflection is 300 mV. With the master bias-current setting resistor (RS) set at 10 MΩ, the total quiescent current drain of the circuit is 0.6μA for a total power supply drain of 1.8 pW. The irtput bias current, required by the amplifier at this low level of quiescent current, is in the range of 600μA. (View)
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Published:2009/6/24 22:15:00 Author:May
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Published:2009/6/24 22:13:00 Author:May
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Published:2009/6/24 22:12:00 Author:May
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Published:2009/6/24 22:08:00 Author:May
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Published:2009/6/24 22:07:00 Author:May
This circuit includes input guarding, cable bootstrapping, and bias current compensation. Differential bandwidth is reduced by C1 which also makes common-mode rejection less dependent on matching of input amplifiers. (View)
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