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stealthghost
- Sep 9, 2011
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I was gonna ask if you've revised your schematics.
I've been creating different power supply from different sites with different designs and it seems I'm not satisfied with the results.
Anyways, can I replace 2N3055 with Toshiba's 2SC5200 or 2SC5198? This is what I have for now.
Found it though!
I've been creating different power supply from different sites with different designs and it seems I'm not satisfied with the results.
Anyways, can I replace 2N3055 with Toshiba's 2SC5200 or 2SC5198? This is what I have for now.
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stealthghost
- Sep 9, 2011
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Hello audioguru,
can I ask which of these transistors I can replace for 2N3055
2SC5198
http://www.toshiba.com/taec/components2/Datasheet_Sync/66/7886.pdf
2SC2922
http://www.sanken-ele.co.jp/en/prod/semicon/pdf/2sc2922e.pdf
2SC5198
http://www.toshiba.com/taec/components2/Datasheet_Sync/66/7890.pdf
I have these transistors in my work bench and if possible, I could use them in this project.
But I don't know if it can replace 2N3055.
Thanks in advance!
can I ask which of these transistors I can replace for 2N3055
2SC5198
http://www.toshiba.com/taec/components2/Datasheet_Sync/66/7886.pdf
2SC2922
http://www.sanken-ele.co.jp/en/prod/semicon/pdf/2sc2922e.pdf
2SC5198
http://www.toshiba.com/taec/components2/Datasheet_Sync/66/7890.pdf
I have these transistors in my work bench and if possible, I could use them in this project.
But I don't know if it can replace 2N3055.
Thanks in advance!
audioguru2
- Apr 6, 2004
- 12,026
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Sorry but I don't have time to look at the datasheets of your Oriental transistors.stealthghost said:Hello audioguru,
can I ask which of these transistors I can replace for 2N3055
2SC5198
http://www.toshiba.com/taec/components2/Datasheet_Sync/66/7886.pdf
2SC2922
http://www.sanken-ele.co.jp/en/prod/semicon/pdf/2sc2922e.pdf
2SC5198
http://www.toshiba.com/taec/components2/Datasheet_Sync/66/7890.pdf
I have these transistors in my work bench and if possible, I could use them in this project.
But I don't know if it can replace 2N3055.
The spec's for a 2N3055 transistor are a Vceo of 60V, a minimum hFE of 20 at 4A and a max power dissipation of 115W. If your transistors are the same or better then they can be used.
what might be the problem if the LED did not light up but the output voltage is around 25v?
and also what might be the problem if a wire connecting the components at the lower left side of the schematic(somewhere around D5 and C1) was burned?
and also what might be the problem if a wire connecting the components at the lower left side of the schematic(somewhere around D5 and C1) was burned?
stealthghost
- Sep 9, 2011
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ok got it! thanks for the advice..audioguru said:
I didn't know how to compare before but based on your advice and spec requirements, the 2SC5198 is an OK replacement. These are some old transistors I found somewhere..
Redwire?
Could you please exlain the offboard wiring? Points 7a 7 8 3 and 1.
Also what it is with D7 Diode and if d2+d3 are replacing it? Or are they needed? 4 and 4a are ground? Current outputis wired from Output Transistor?
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once more,
RV3 is to set the maximum current to 3 or 5 amps (one way to set: short the PSU, adjust P2 (amp) to max, adjust the RV3 to desired maximum current, be quick, the transistor will get HOT).
RV2 is to set the maximum voltage to 30v (how to set: in open circuit adjust the P1 (volts) to max, adjust the RV2 to be 30v at the terminals of the PSU).
RV1 is to set the ZERO voltage (how to set: in open circuit adjust the P1 (volts) to min, adjust the RV1 to be 0v at the terminals of the PSU).
fly3rman
You are correct about the output transistor. Connections 7a (spare) and 7 for offboard power transistor (collector). Connection 8 is the base connection for power transistor and point 3 is the backfeed from the power transistor emitter. Connection 1 is a spare for the lcd display.
connection 4 and 4A (reserved for lcd display)are the same.
If you use an offboard power resistor r7 then connection 4B1 and 4 are used.
If an on board resistor is used then connections 4B and 4 are used.
In regards to D7 (5.6V Zener), it is not used in the latest design. It was replaced with the two diodes D2 and D3 for a -1.3 negative rail instead of the older -5.6 negative rail.
There is a small connection between C1 and 4B on the board. This is just a spare ground for the lcd display or the power resistor can use this hole instead of 4B.
You are correct about the output transistor. Connections 7a (spare) and 7 for offboard power transistor (collector). Connection 8 is the base connection for power transistor and point 3 is the backfeed from the power transistor emitter. Connection 1 is a spare for the lcd display.
connection 4 and 4A (reserved for lcd display)are the same.
If you use an offboard power resistor r7 then connection 4B1 and 4 are used.
If an on board resistor is used then connections 4B and 4 are used.
In regards to D7 (5.6V Zener), it is not used in the latest design. It was replaced with the two diodes D2 and D3 for a -1.3 negative rail instead of the older -5.6 negative rail.
There is a small connection between C1 and 4B on the board. This is just a spare ground for the lcd display or the power resistor can use this hole instead of 4B.
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Thanks alot redwire, it seems it got it then.
Here my toner-selfmade-double-side-etched-pcb. I hope you can see it on the pictures.
I will test it tomorrow with the small 18v trafo. If everyone finds any wiring problems ...
View attachment 41566
View attachment 41567
Here my toner-selfmade-double-side-etched-pcb. I hope you can see it on the pictures.
I will test it tomorrow with the small 18v trafo. If everyone finds any wiring problems ...
View attachment 41566
View attachment 41567
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audioguru2
- Apr 6, 2004
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1) The voltage and current from the transformers are much too small.
2) The circuit needs two 2N3055 output transistors not just one.
3) Each output transistor needs a 0.33 ohm emitter resistor, not a 33 ohm resistor.
1) Still it should work or will it not? I meant this transformators just for testing so far. Is it possible to trim it down with RV2? What is the minimum voltage needed for correct working of the voltagecontrol? Putting them in series with 36v is also a little high then :/
2) Yes, but only for higher currents right?
3) thanks, put a wrong on it, will replace.
Questions:
For understanding: So this always need the 3A current and atleast 28V AC and heat up everything not used by the consuming load? Otherwise the control doenst work?
Is it possible to trim it down to lets say 2A? As written before : "RV3 is to set the maximum current to 3 or 5 amps".
And actually i want to use an 120VA Trafo instead of 160VA because its 1/4 cheaper. It should can handle the missing 0.2A right? (someone ask before also)
and another one: Can anybody say something to the stability and possibility to control the current of this powersupply?
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audioguru2
- Apr 6, 2004
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Nobody knows if the circuit will work with your tiny transformers. If it does not work then you will not know if something in the circuit is wrong so the test will be useless.
Your tiny transformers might produce 46V AC without a load then the unregulated supply to the circuit will be 64V DC and blow up most parts in the circuit.
The circuit was designed to produce 0V to 30.0VDC at 3mA to 3A. It uses a 28V AC to 30V AC transformer rated at 126VA. You can reduce its output voltage and current and make it cheaper if you re-design it.
I don't know how low the current trimpot can adjust the maximum current but you can increase the value of the resistor in series with it to reduce the maximum current.
A 28V AC transformer at 120VA will allow a max output of 30.0V at 3.0A DC. A 30V AC transformer at 120VA will allow a maximum output of 30.0V DC at 2.83A. The 30V transformer will overheat a little if the output is 3.0A DC continuously.
The fixed and modified circuit is very stable and is very reliable. Its max output current is controlled by a pot.
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Iam aware of that. Also on the other side, one 18v/1.5VA transformer couldnt blow anything up, and still possible that it works ;]
Yep, got that.
3mA is fine enough. Redesigning is a little bit problematic at the moment because of the lack of overview and compelte understanding of the cirtcuit, but time will come ;]
But its possible without any problems in stability or something? If i trim down to lets say 1A max Output? (This, as i mentioned, would allow a later upgrade to a highpower transformer)
This is fine. Iam actually gonna use it in region of <1A most of the time.
Ive used the latest version. Nice.
Thanks for the input so far.
UPDATE: My Circuit works! Had wrong wiring on current / voltage control, but now it works.
With lower voltage and current transformer i am able to set voltage and current! Tested on 2 leds. Will show pictures later. Of course hard to set the current/voltage on this potis because of wrong dimensions.
But now iam aware its working i can get the expensive transofmer i think =)
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Hi all!
Sorry for my bad English.
I decided to build this PSU under the original scheme. I consider that the original scheme is not too bad, if to make small corrections.
My corrections in the original scheme:
- Replacement of C1 by more capacious 8200mf 63V
- Use of two MJE3055T in parallel connection
- Use of operational amplifiers OP07CP U1, U2, U3
- Use of BD139 in Q2
* For use of operational amplifier OP07CP (U2) in the original scheme, I have changed in places contacts 5 and 8, look at the picture below.
* Also for parallel connection MJE3055T, I have made the small PCB, look at the picture below (7,8,9 are contacts on PCB).
As a result when all has been done, nothing works. Target voltage regulates from 0 to 0,65 volt, and U2 strongly heats up.
Also strongly heats up R1, R2, i think replacing them with more powerful resistors will solve the problem of their heating.
My actions:
- Before soldering, all parts were checked on serviceability. So all of them were in working order.
- I have checked PCB on a possible cracks, but found nothing.
- After soldering, i have checked polarity of all parts, all is established correctly.
- I have checked all connections with tester (multimetr). All in contact!
Help me please! I do not know where can be a problem?
Can be some part burned down? Though there are no traces of ignition. Unsolder all parts and to check them, there is no desire.
View attachment 41569
View attachment 41570
View attachment 41571
Sorry for my bad English.
I decided to build this PSU under the original scheme. I consider that the original scheme is not too bad, if to make small corrections.
My corrections in the original scheme:
- Replacement of C1 by more capacious 8200mf 63V
- Use of two MJE3055T in parallel connection
- Use of operational amplifiers OP07CP U1, U2, U3
- Use of BD139 in Q2
* For use of operational amplifier OP07CP (U2) in the original scheme, I have changed in places contacts 5 and 8, look at the picture below.
* Also for parallel connection MJE3055T, I have made the small PCB, look at the picture below (7,8,9 are contacts on PCB).
As a result when all has been done, nothing works
. Target voltage regulates from 0 to 0,65 volt, and U2 strongly heats up. Also strongly heats up R1, R2, i think replacing them with more powerful resistors will solve the problem of their heating.
My actions:
- Before soldering, all parts were checked on serviceability. So all of them were in working order.
- I have checked PCB on a possible cracks, but found nothing.
- After soldering, i have checked polarity of all parts, all is established correctly.
- I have checked all connections with tester (multimetr). All in contact!
Help me please! I do not know where can be a problem?
Can be some part burned down? Though there are no traces of ignition. Unsolder all parts and to check them, there is no desire.
View attachment 41569
View attachment 41570
View attachment 41571
All sources are included in link to *.zip file below. PCBs are in *.lay format (Sprint Layout 5.0).
- original PCB with OpAmp OP07CP correction
- PCB for parallel connection of 2N3055 or MJE3055
PSULay.zip
- original PCB with OpAmp OP07CP correction
- PCB for parallel connection of 2N3055 or MJE3055
PSULay.zip
audioguru2
- Apr 6, 2004
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The OP07 opamps will be destroyed in the original circuit because their maximum supply is plus and minus 18V (a total of 36V) but the 24V AC transformer will be 26V AC with no load and the positive unregulated supply will be +35.4V DC. U2 and U3 also have the -5.6V supply so their maximum supply will be too high at 41V DC.
There is too much voltage loss in the circuit for the output to produce 30.0V at 3A.
Many parts in the original circuit are overloaded (they get too hot) including the transformer.
The latest modified circuit should be used.
There is too much voltage loss in the circuit for the output to produce 30.0V at 3A.
Many parts in the original circuit are overloaded (they get too hot) including the transformer.
The latest modified circuit should be used.
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