having a lower voltage across the 1st cap on LCLC and other differences as mentioned in the rectifier datasheet?
here's what i'm thinking
lclc:
xformer -> 5V4G/5U4GB -> 10H 200mA 87ohm-> 10uF -> 10H 200mA -87ohm > 100uF
clc:
xformer -> 5V4G/5U4GB -> 10uF -> 10H 200mA 87ohm -> 100uF
the B+ after the 100uF will be regulated using a design found in the RCA designer's handbook (chap 33 fig 33.14).
thank you for the help
here's what i'm thinking
lclc:
xformer -> 5V4G/5U4GB -> 10H 200mA 87ohm-> 10uF -> 10H 200mA -87ohm > 100uF
clc:
xformer -> 5V4G/5U4GB -> 10uF -> 10H 200mA 87ohm -> 100uF
the B+ after the 100uF will be regulated using a design found in the RCA designer's handbook (chap 33 fig 33.14).
thank you for the help
When a choke I/P filter (LCLC) is used, additional regulation circuitry is usually not needed. The O/P voltage of a choke I/P filter is quite stable, even as the draw varies.
Have you studied the theory of choke I/P filters? If not, READ. Don't forget to ensure that the critical current gets drawn. In the case of a 10 H. 1st inductor, place a high wattage rated 10 KOhm bleeder resistor across the 1st filter cap.
Have you studied the theory of choke I/P filters? If not, READ. Don't forget to ensure that the critical current gets drawn. In the case of a 10 H. 1st inductor, place a high wattage rated 10 KOhm bleeder resistor across the 1st filter cap.
Eli Duttman said:
can you suggest what article to read?
also, someone from AA suggested a 220K-330K on the last cap. is he wrong? maybe it's applicable to clc only?
thanks for the reply.
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