5-24. Calculate the value of R, in Fig. 5-14(a) to design a signal conditioning circuit that interfaces with a microcontroller's A/D converter. The voltage range of the converter is 0 to 5 V. R= 10 kQ ± 1% -15 V wo AD590 15 V 10 mV OP-177 V, = ()× (temperature in "C) 54.9 k. IS V 273 A -15 V (a) V,=0 V at 0°C and 1000 mV at 100°C. R= 18.18 ka 10 k2 -15 V wo- ADS90 15 V 10 mV OP-177 -()x (temperature in "F) 58.8 ka 6. IS V 255 µA -15 V (b) V,-0 V at OF and 1000 mV at 100°E. FIGURE 5-14 Temperature-to-voltage converters for (a) Celsius degrees and (b) Fahrenheit degrees.
5-24. Calculate the value of R, in Fig. 5-14(a) to design a signal conditioning circuit that interfaces with a microcontroller's A/D converter. The voltage range of the converter is 0 to 5 V. R= 10 kQ ± 1% -15 V wo AD590 15 V 10 mV OP-177 V, = ()× (temperature in "C) 54.9 k. IS V 273 A -15 V (a) V,=0 V at 0°C and 1000 mV at 100°C. R= 18.18 ka 10 k2 -15 V wo- ADS90 15 V 10 mV OP-177 -()x (temperature in "F) 58.8 ka 6. IS V 255 µA -15 V (b) V,-0 V at OF and 1000 mV at 100°E. FIGURE 5-14 Temperature-to-voltage converters for (a) Celsius degrees and (b) Fahrenheit degrees.
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Transcribed Image Text:5-24. Calculate the value of R, in Fig. 5-14(a) to design a signal conditioning circuit that interfaces
with a microcontroller's A/D converter. The voltage range of the converter is 0 to 5 V.
R= 10 kQ ± 1%
10 k2 +
-15 V wo
ADS90
15 V
V, = (m)× (temperature in "C)
54.9 k.
OP-177
15 V+
273 HA
-15 V
(a) V, = 0 V at 0°C and 1000 mV at 100°C.
R= 18.18 ka
10 ka -
-15 V W
AD590
15 V
OP-177
→ V,=()x (temperature in "F)
58.8 ka
6.
15 V-
255 µA
-15 V
(b) V, = 0 V at 0°F and 1000 mV at 100°F.
FIGURE 5-14 Temperature-to-voltage converters for (a) Celsius degrees and (b)
Fahrenheit degrees.
7.
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