Designtype system to producer V. Use and to competence timer At TOYOTD 1200 and 0.00% gehen Assame that the reference te

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Designtype System To Producer V Use And To Competence Timer At Toyotd 1200 And 0 00 Gehen Assame That The Reference Te 1 (22.55 KiB) Viewed 21 times

Designtype System To Producer V Use And To Competence Timer At Toyotd 1200 And 0 00 Gehen Assame That The Reference Te 2 (30.01 KiB) Viewed 21 times

Designtype System To Producer V Use And To Competence Timer At Toyotd 1200 And 0 00 Gehen Assame That The Reference Te 3 (30.01 KiB) Viewed 21 times

Designtype system to producer V. Use and to competence timer At TOYOTD 1200 and 0.00% gehen Assame that the reference temperature changes from som 10 1 VW 18(1 + 100k - Tw)) 10 kg R4 W 10 KO Vout ww 10 RTD w R2 w v2 và là w 10 www TOFTEVN) R2 WE mwan www.need to find the under 1.2.64 und VZ in lowe opet out changes from sev when the temperature changes from to 130 the output must not depend on TRO. The 0 an MO
Design a J-Type thermocouple system were 130°C produces 2 V. Use an RTD sensor to compensate the reference temperature. At T-40°C: RTD= 120 Q and a=0.005, neglect self-heating. Assume that the reference temperature changes from 0° to 50°C. F GOOST-T) 1kg 1 VW 10KO WW R4 ww Vout 10 KG w 10 KG RTD w R2 w V210R www 10 KO TETRA R2 Notes: In the figure we have 1. TR: is the reference actual temperature (variable). 2. To: the 40°C 3. Ro: the 1200 4. S: the slope of the thermocouple curve = V(50°C)/50 5. VM: the thermocouple output voltage (variable) You need to find the unknown values: R2, R4, and V2 in the figure so that we get Vout changes from 0 to 6 V when the temperature changes from 0 to 130°C (the output must not depend on TR). The answers: R2 ΚΩ R4= ΜΩ V2= v <