AVO_CT160A_extra维修电路原理图.pdf

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1、 Page 1 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Y

2、utaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie thus using half wave rectification for both normal valve testing and rectifier/diode testing. No resistor to ground could be seen, and the circuit can be improved by adding this; otherwise you will not get a correct reading with a high imped

3、ance meter when measuring the voltage on the anode or diode connections, owing to the build up of charge, which makes correct measurements impossible; just as my friend Euan MacKenzie found and also tested in his AVO CT160; which he modified in a similar way (a Silicon diode and a 100k resistor were

4、 inserted after the Anode selector switch before SH1). However, in my opinion the most important finding was that the wiring of the components in the calibration resistor path was found to differ substantially from the earlier AVO schematic, which was the only schematic known to exist at the time. I

5、n the earlier schematic, the components RV6, R41, D2 and R3 (the 1.22M “calibration resistor”) were not drawn correctly either. A modification was assumed by me, since the connection drawn in the schematic diagram would not work; as the voltage from the 66V winding drawn in the schematic was insuffi

6、cient. This could easily be checked if you calculated the voltages needed for the circuit to work. The schematic showed that the circuit was powered from the 66V winding; calculations showed that it would need power from the 99V winding to work correctly. However the latest CT160A showed a totally d

7、ifferent wiring; the wiring was traced by Mr. Yutaka Matsuzaka to check how it all was connected. I could see that RadioFans.CN 收音机爱 好者资料库 Page 2 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during

8、 December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie which is used for the calibration voltage and leakage/isolation tests. This is a smart design change as

9、 it will make it possible to calibrate the tester over a wider voltage span than with the calibration circuit just connected to one voltage tap. This method of connecting RV6 was made in the original factory wiring; and was not something that had been changed later; this could be seen from the way t

10、he wires had been soldered, they had not been resoldered or altered in any way. The voltage levels used in the above description are RMS voltages; this means that the 66V winding corresponds to 60V Mean DC, the 82.5V corresponds to 75V Mean DC, the 99V corresponds to 90V Mean DC and the 110V corresp

11、onds to 100V Mean DC, where the Mean DC voltage is the voltage that is printed on the front of the tester, and also on the labels on the transformer. This change of connection for the calibration resistor in the CT160A is necessary, since the voltage level, where the calibration voltage is tapped in

12、 an AVO CT160, had to be changed in the CT160A; owing to the introduction of the X1/X2 switch for the grid voltage. It is therefore no longer possible to use the grid voltage control in combination with another winding to obtain the calibration voltage needed. So AVO had to change the calibration vo

13、ltage circuit. In my opinion, the combined circuit used in the earlier AVO Valve Characteristic Meters (VCMs) was a better design, as it lets you know that both the grid voltage and the calibration voltage are correct; as the needle will not reach the SET mark otherwise. The current necessary for th

14、e needle to reach the SET mark is obtained by the addition of two half wave rectified voltages:- one half wave from the grid voltage winding (a separate transformer in the AVO Mk IV) and one half wave from the calibration voltage, which is taken from the Anode/Screen transformer. In the AVO Mk IV yo

15、u will also get a check that the phase of the voltage from the separate transformer, for the grid voltage is out of phase with the Anode/Screen volts transformer! This information will also be present in the other AVO VCMs, but for the AVO Mk IV it shows that both the primary and the secondary windi

16、ngs have the correct phase relationship on the grid volts transformer compared to the Anode/Screen volts transformer; in the other AVO VCMs it shows that the secondary winding has the correct phase relationship! Now with the CT160A you will only know that the calibration voltage is correct and know

17、nothing about the grid voltage. This should not be a problem, provided that the calibration is correct for the grid volts control, but you have no simple means of knowing if it is, as you have in the other models. In the CT160A you will have to measure the grid voltage separately if you want to chec

18、k it, but this is also made simpler now since it only contains the grid voltage and not the calibration voltage, so there is a small advantage there. RadioFans.CN 收音机爱 好者资料库 Page 3 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot

19、 by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie however it is possible to make this modification, if you wish to. Al

20、ternatively, if you would like to extend the range of the grid volts control to minus 80V, you will have to install an additional grid volts transformer, which has a 120V secondary. You can see these corrections in the schematic, now that it has been corrected by comparisons with two actual CT160A V

21、alve Testers. You can also see the modifications made to the relay circuit, the two extra resistors used to decrease the relay sensitivity, and the extra diode in the Anode circuit, in the photos provided. I would like to thank my friend Mr. Yutaka Matsuzaka for taking all of the photographs, close

22、to 250, and for all help and encouragement from my friend Euan MacKenzie. I would also like to thank Mr. Ippei Soma for letting us borrow his AVO CT160A for photographing while it was being checked for calibration and also thank the unknown contributor who offered to sell his AVO CT160A to Mr. Yutak

23、a Matsuzaka, this meant that we were able to find out even more details about these instruments, as we were now able to compare two different specimens. RadioFans.CN 收音机爱 好者资料库 Page 4 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were s

24、hot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 Photo 1: R37 (R37A & R37B) can be s

25、een in the centre of the picture as two 27 resistors in parallel, close to the two yellow wires RadioFans.CN 收音机爱 好者资料库 Page 5 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and

26、January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 Photo 2: Diode D5, BY127, and capacitor C4, 50F 30/35V, across relay coil in the AC mains ci

27、rcuit RadioFans.CN 收音机爱 好者资料库 Page 6 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold b

28、y an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 Photo 3: Modification to the relay coil in the AC mains circuit from behind, winding going to the point between diode and capacitor, to the cathode side of the diode D5 RadioFans.CN

29、收音机爱 好者资料库 Page 7 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contri

30、butor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 Photo 4: Diodes D2 & D3 (Lucas DD0058 was found in one CT160A, shown above and BY127 was found in the other CT160A) at the back of the PCB with Vg x 1 & Vg x 2 (RV3 & RV5) potentiometers and R4 RadioFa

31、ns.CN 收音机爱 好者资料库 Page 8 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown

32、contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 Photo 5: Different angle of components at the back of the PCB RadioFans.CN 收音机爱 好者资料库 Page 9 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia,

33、 photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 Photo 6: Front of PCB

34、 with components found in CT160A, to the far left RED diode D6 in Anode & D/R circuit, to the far right GREEN diode D1 in screen circuit, in the center GREEN diode D4 in “backing-off” Anode Current circuit. Resistor R41 at 82k can be seen close to R38 at 100k near the Vg x 2 potentiometer. RV6 is ri

35、ght below the Vg x 2 potentiometer. RadioFans.CN 收音机爱 好者资料库 Page 10 of 10 This document is a collaboration between Martin Forsberg, Sweden, and Euan MacKenzie, Australia, photos were shot by Yutaka Matsuzaka, Japan, during December 2010 and January 2011 of one CT160A borrowed from Mr. Ippei Soma, Japan, and a second CT160A sold by an unknown contributor to Yutaka Matsuzaka. Copyright Martin Forsberg, Euan MacKenzie & Yutaka Matsuzaka 2011-02-16 RadioFans.CN 收音机爱 好者资料库