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university:courses:electronics:electronics-lab-21 [14 Dec 2012 21:16] – [Appendix:] Doug Mercer | university:courses:electronics:electronics-lab-21 [23 Mar 2017 16:34] – [Directions:] Doug Mercer | ||
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===== Materials: ===== | ===== Materials: ===== | ||
- | Analog Discovery Lab hardware\\ | + | ADALM2000 Active Learning Module\\ |
Solder-less breadboard\\ | Solder-less breadboard\\ | ||
Jumper wires\\ | Jumper wires\\ | ||
- | 2 - 0.1uF capacitor (104)\\ | + | 2 - 0.1 uF capacitor (104)\\ |
- | 1 - 47Ω resistor\\ | + | 1 - 47 Ω resistor\\ |
1 - 1 mH inductor\\ | 1 - 1 mH inductor\\ | ||
- | 1 - CD4069A, CD4069UB or 74HCU04 unbuffered hex inverter (be sure not to use the buffered 74HC04 version) Alternatively three simple CMOS inverters can be built using the CD4007 transistor array. Note the appendix at the end.\\ | + | 1 - CD4069A, CD4069UB or 74HCU04 unbuffered hex inverter (be sure not to use the buffered 74HC04 version) Alternatively three simple CMOS inverters can be built using the CD4007 transistor array. Note the appendix at the end. |
===== Background: ===== | ===== Background: ===== | ||
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===== Directions: ===== | ===== Directions: ===== | ||
- | First build the simple example shown figure 2 to test the input to output transfer function of the simple CMOS amplifier. The green boxes indicate connections to the connector on Analog Discovery. Connect Vp (+5V) power to V< | + | First build the simple example shown figure 2 to test the input to output transfer function of the simple CMOS amplifier. The green boxes indicate connections to the connector on The ADALM2000. Connect Vp (+5V) power to V< |
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