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Hans wrote:
clc wrote: Im still trying to come up with a high current DC supply for my mobile HF rig. I have 4 - transformers that are all the same part number, there output is 4amp at 18.5 vac. I want to hook a bridge to each & then connect the DC outputs of each in parallel to increase current to my regulator circut. I should end up with 17 - 18 VDC @ 16 amps. Does this sound like it would work ok, Im not sure about paralleling DC supplies ? Why don't you connect the transformers in parallel and rectify / stabilize the total AC current? Hans There is a "chance" that the voltages won't be exactly the same. As a result you can have circulating currents in the transformers from that difference. The diodes solve that potential problem. Bill K7NOM |
just paralleling up the power supplies will probably not result in any
power exceeding the power supplied by the transformer with the largest swing. let me describe this for you: your rectifiers act as switches, whenever the voltage across them exceeds 0.6 volts (for silicon diodes), they will conduct. now you connect the anodes of two rectifiers that are driven from the other side by a voltage generators. If you imagine that one of the two diodes are driven by a voltage source that is higher than the other by 0.6 volts, then the diode will never switch on as the other diode will reverse bias this diode. so, simply paralleling up the dc outputs may not work. A 0.6 volts difference between two transformers is almost a given. my recommendation to you would be to wire up the primary windings in parallel and the secondary (18v) windings in series. That way, if the phase is proper you will get 18-0-18v (36 v) across the two secondaries. A bridge will get you 18V. Something like this : ----+-3| | 3|C--------------||---+ | 3|C | | 3|C------+ | -+--|-3| | | | | | +-------+----O 18 DC +v | | |---- Gnd | | -|--+-3| | | === | 3|C------+ | === filter cap. | 3|C | | | 3|C--------------||---+ Gnd -+----3| this uses just two of the four transformers. besure that the voltages of the secondary are in phase. (you will not get more than a volt or so if the are not). there is probably a way to also utilise four transformers, it is in the corner of my eye, but the above given is a cookbook recipe. However, if you require 36v, then it is a simple matter to extend this by using two supplies with secondaries in series on each side of the rectifier bridge. - farhan |
just paralleling up the power supplies will probably not result in any
power exceeding the power supplied by the transformer with the largest swing. let me describe this for you: your rectifiers act as switches, whenever the voltage across them exceeds 0.6 volts (for silicon diodes), they will conduct. now you connect the anodes of two rectifiers that are driven from the other side by a voltage generators. If you imagine that one of the two diodes are driven by a voltage source that is higher than the other by 0.6 volts, then the diode will never switch on as the other diode will reverse bias this diode. so, simply paralleling up the dc outputs may not work. A 0.6 volts difference between two transformers is almost a given. my recommendation to you would be to wire up the primary windings in parallel and the secondary (18v) windings in series. That way, if the phase is proper you will get 18-0-18v (36 v) across the two secondaries. A bridge will get you 18V. Something like this : ----+-3| | 3|C--------------||---+ | 3|C | | 3|C------+ | -+--|-3| | | | | | +-------+----O 18 DC +v | | |---- Gnd | | -|--+-3| | | === | 3|C------+ | === filter cap. | 3|C | | | 3|C--------------||---+ Gnd -+----3| this uses just two of the four transformers. besure that the voltages of the secondary are in phase. (you will not get more than a volt or so if the are not). there is probably a way to also utilise four transformers, it is in the corner of my eye, but the above given is a cookbook recipe. However, if you require 36v, then it is a simple matter to extend this by using two supplies with secondaries in series on each side of the rectifier bridge. - farhan |
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"Jim, N2VX" wrote in message . ..
On 27 Oct 2003 19:02:07 -0800, (clc) wrote: Im still trying to come up with a high current DC supply for my mobile HF rig. I have 4 - transformers that are all the same part number, there output is 4amp at 18.5 vac. I want to hook a bridge to each & then connect the DC outputs of each in parallel to increase current to my regulator circut. I should end up with 17 - 18 VDC @ 16 amps. Does this sound like it would work ok, Im not sure about paralleling DC supplies ? I did it with 2 of them and it worked OK. As you described use a separate rectifier on each and combine the rectifier outputs. Start scrounging hamfests, etc. for electrolytic capacitors. You can't have too much filtering. In this case more is better. For a regulator use a 7815 IC to drive several 2N3055's. ARRL handbooks have a good example of 2N3055's in parallel. 5 2N3055's on a decent heatsink will run nice and cool. Scrounge for heatsinks, too. They tend to be cheap at hamfests because most people are appliance operators. And if you want to make life easier for the rectifiers add a soft start cicruit using a relay. The handbook has an example of it. Good luck and 73, Jim A 7815 would give 15 volts, wouldnt that be alittle high? A 7812 would be a little low, so i thought of a 723 ang just adjust the voltage to 13.8. |
On 29 Oct 2003 10:16:56 -0800, (clc) wrote:
"Jim, N2VX" wrote in message . .. On 27 Oct 2003 19:02:07 -0800, (clc) wrote: Im still trying to come up with a high current DC supply for my mobile HF rig. I have 4 - transformers that are all the same part number, there output is 4amp at 18.5 vac. I want to hook a bridge to each & then connect the DC outputs of each in parallel to increase current to my regulator circut. I should end up with 17 - 18 VDC @ 16 amps. Does this sound like it would work ok, Im not sure about paralleling DC supplies ? I did it with 2 of them and it worked OK. As you described use a separate rectifier on each and combine the rectifier outputs. Start scrounging hamfests, etc. for electrolytic capacitors. You can't have too much filtering. In this case more is better. For a regulator use a 7815 IC to drive several 2N3055's. ARRL handbooks have a good example of 2N3055's in parallel. 5 2N3055's on a decent heatsink will run nice and cool. Scrounge for heatsinks, too. They tend to be cheap at hamfests because most people are appliance operators. And if you want to make life easier for the rectifiers add a soft start cicruit using a relay. The handbook has an example of it. Good luck and 73, Jim A 7815 would give 15 volts, wouldnt that be alittle high? A 7812 would be a little low, so i thought of a 723 ang just adjust the voltage to 13.8. You get 15 - (transistor drop + balancing emitter resistor drop). I got 14 volts out of it. That's in the range of car charging systems and I've measured that much on some cars with the engine running. There's another setup where you get IC regulator voltage + transistor drop + resistor drop, using PNP transistors. Check the handbook for details. Power PNP's are less common and it's hard to beat the venerable 2N3055's price and availability. How about a LM317? As I recall they are good for more current than 723's and easy to use. Regulator current at the IC is (output current) / (transistor gain) Then you can adjust to get 13.8 on the output. 73, Jim |
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