Unterschiede
Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
| Beide Seiten der vorigen Revision Vorhergehende Überarbeitung Nächste Überarbeitung | Vorhergehende Überarbeitung | ||
|
circuit_design:uebung_3.3.2 [2021/11/11 19:15] slinn |
circuit_design:uebung_3.3.2 [2023/03/28 10:12] (aktuell) mexleadmin |
||
|---|---|---|---|
| Zeile 1: | Zeile 1: | ||
| <panel type=" | <panel type=" | ||
| - | <WRAP right> {{ : | + | In this exercise, the same question should be assumed as in exercise 3.3.1. This time, however, the influence of the impedance converter on the sensor signal is to be analyzed. The signal curve of the ECG voltage must be simulated by the voltage source. To do this, select '' |
| - | <fs 70%> | + | In addition, the influence on the current (= output resistor of the sensor) must be taken into account. To do this, insert a resistor with $20 ~\rm M\Omega$ directly in front of the non-inverting inputs. |
| - | In this exercise, the same question should be assumed as in exercise 3.3.1. This time, however, the influence of the impedance converter on the sensor signal is to be analyzed. The signal curve of the ECG voltage must be simulated by the voltage source. To do this, select " | + | ++++Instruction| |
| - | In addition, the influence on the current (= output resistor of the sensor) must be taken into account. To do this, insert a resistor with 20 M Ohm directly in front of the non-inverting inputs. | + | <sxh> |
| - | + | ||
| - | < | + | |
| - | <code> | + | |
| 120ms, 0 | 120ms, 0 | ||
| Zeile 14: | Zeile 11: | ||
| 200ms, 0 | 200ms, 0 | ||
| 260ms, 0 | 260ms, 0 | ||
| - | 270ms, -0.2m | + | 270ms, |
| - | 320m,1m | + | 320ms, 1m |
| - | 340m,-0.3m | + | 340ms,-0.3m |
| - | 350m,0 | + | 350ms, 0 |
| - | 440ms,0 | + | 440ms, 0 |
| - | 520ms,0.1m | + | 520ms, 0.1m |
| 600ms, 0 | 600ms, 0 | ||
| 820ms, 0 | 820ms, 0 | ||
| Zeile 26: | Zeile 23: | ||
| 960ms, 0 | 960ms, 0 | ||
| 970ms, -0.2m | 970ms, -0.2m | ||
| - | 1020m,1m | + | 1020ms, 1m |
| - | 1040m,-0.3m | + | 1040ms,-0.3m |
| - | 1050m,0 | + | 1050ms, 0 |
| - | 1140ms,0 | + | 1140ms, 0 |
| - | 1220ms,0.1m | + | 1220ms, 0.1m |
| 1300ms, 0 | 1300ms, 0 | ||
| 1400ms, 0 | 1400ms, 0 | ||
| - | </code> | + | </sxh> |
| - | ++++</ | + | ++++ |
| - | - Now simulate the time course for 0 s to 2 s with "Use initial conditions" | + | - Now simulate the time course for $0 ~\rm s$ to $2 ~\rm s$ with "Use initial conditions" |
| - What is the only difference in the output signals? (note y-axis) | - What is the only difference in the output signals? (note y-axis) | ||
| - | - For the real operational amplifier, 3 additional current sources and an additional voltage source must be taken into account in the equivalent circuit diagram (see figure on the right). In Tina, the values of these current sources can be viewed in the specifications of the simulated operational amplifier (double click on the OPV in Circuit >> Type… >> Model Parameters). The analysis of the entire circuit (including the equivalent circuit diagram) is not to be considered here. It is assumed that the "input bias current" | + | - For a more realistic |
| - To simplify matters, think about the additional input voltage that results from the current of a single bias current source at the sensor resistor. | - To simplify matters, think about the additional input voltage that results from the current of a single bias current source at the sensor resistor. | ||
| + | |||
| + | <WRAP right>< | ||
| </ | </ | ||