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university:courses:electronics:electronics-lab-27 [30 Oct 2017 04:44] – Trecia Agoylo | university:courses:electronics:electronics-lab-27 [23 Aug 2019 14:03] – Antoniu Miclaus | ||
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==== Hardware Setup: ==== | ==== Hardware Setup: ==== | ||
Connect your circuit to the ADALM2000 I/O connector as indicated by the green boxes. It is best to ground the unused negative scope inputs when not being used. The breadboard connections are shown in figure below. | Connect your circuit to the ADALM2000 I/O connector as indicated by the green boxes. It is best to ground the unused negative scope inputs when not being used. The breadboard connections are shown in figure below. | ||
- | {{ : | + | {{ : |
<WRAP centeralign> | <WRAP centeralign> | ||
==== Procedure: ==== | ==== Procedure: ==== | ||
- | Configure waveform generators, W1, with 100 Hz triangle wave with 0 V offset and 6 V amplitude values. Use the oscilloscope in the x-y mode to observe the voltage-transfer curve of the circuit. | + | Configure waveform generators, W1, with 100 Hz triangle wave with 0 V offset and 6 V amplitude |
{{ : | {{ : | ||
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==== Hardware Setup: ==== | ==== Hardware Setup: ==== | ||
Connect your circuit to the ADALM2000 I/O connector as indicated by the green boxes. It is best to ground the unused negative scope inputs when not being used. The breadboard connections are shown in figure below. | Connect your circuit to the ADALM2000 I/O connector as indicated by the green boxes. It is best to ground the unused negative scope inputs when not being used. The breadboard connections are shown in figure below. | ||
- | {{ : | + | {{ : |
<WRAP centeralign> | <WRAP centeralign> | ||
==== Procedure: ==== | ==== Procedure: ==== | ||
- | Configure waveform generators, W1, with 100 Hz triangle wave with 0 V offset and 6 V amplitude values and W2, 100 Hz triangle wave with 0 V offset and 6 V amplitude values and 90° phase. Use the oscilloscope to observe the output of the circuit, CH2. | + | Configure waveform generators, W1, with 100 Hz triangle wave with 0 V offset and 6 V amplitude |
{{ : | {{ : | ||
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The output circuitry of a typical TTL logic gate is commonly referred to a totem-pole output because the two output transistors are stacked one above the other like carvings on a totem pole. Is a gate circuit with a totem-pole output stage able to source load current, sink load current, or do both? | The output circuitry of a typical TTL logic gate is commonly referred to a totem-pole output because the two output transistors are stacked one above the other like carvings on a totem pole. Is a gate circuit with a totem-pole output stage able to source load current, sink load current, or do both? | ||
+ | <WRAP round download> | ||
+ | *Resources: | ||
+ | * Fritzing files: [[ https:// | ||
+ | * LTspice files: [[ https:// | ||
+ | </ | ||
=====For Further Reading: | =====For Further Reading: | ||