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G8MNY > TECHNI 02.07.19 09:34l 125 Lines 6282 Bytes #999 (0) @ WW
BID : 10841_GB7CIP
Read: GAST
Subj: A Common High Current PSU
Path: DB0FFL<DB0FHN<DB0BLO<DB0ERF<OK0NAG<OK0NBR<OK2PEN<GB7CIP
Sent: 190702/0814Z @:GB7CIP.#32.GBR.EURO #:10841 [Caterham Surrey GBR]
From: G8MNY@GB7CIP.#32.GBR.EURO
To : TECH@WW
By G8MNY (Updated Dec 12)
(8 Bit ASCII graphics use code page 437 or 850, Terminal Font)
This is a simple & therefore reliable common design used on commercial PSU.
e.g. TRIO PS30 & ICOM PS55. Component values differ slightly between models.
HOW IT WORKS
The rectifiers charge up C1 to 25V. R3 puts some voltage on the output (>1.5V),
a fraction of this turns (pot arm) on Q2 (0.5V on Q2 base). This turns on Q1
that drives the 2 large high current power pass Transistors T1 & 2. When the
output voltage is >10V the zener conducts turning off Q2 as it pulls up the
emitter voltage compared to Q2's base on the VR1 pot output fraction setting.
ÚÄÄÄÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄ2.2êÄÂÄÄÄÄÄÂÄÄÄÄÄÄÄÄÄÄ¿
³ +19-25V ³ 4m7³+ R1 +³C3 4k7 ³/e TIP
_³_ _³_ === === ÃÄÄÄÄÄÄÄÄ´ Driver
/_\ /_\ C4ÃÄÄÄÄÄÄÙ4m7 ³ Q1³\ 2SD596
³D1 ³D2 ³ +15-25V ³ ³
³ ÉÍÍÍÍ)ÍÍÍËÍÍ)ÍÍÍÑÍÍÍÍÍÍÍÍ)ÍÍÍÍËÍÍÍÍÍ)ÍÍÍÍÍ» 2x TO-3
³ / \ ³ º ³ ³ ³ \³ ³ ³/ Fan Cooled
AC_³_/' B1`\_³AC º ³ R3 ³ T2ÃÄÄÄÁÄÄÄ´T1 & Insulated
~ ³ \ / ~ º ³ 56ê ³ e/³ 2x ³\e on Heatsink
³ `\ /'35A º ³ ³ ³ º 2SD797 º
³ º Bridge º ³ ³ ³ R8 R7
L _³_ º º ³ ³ ³ 0.05ê 0.05ê 20A
E \_/ º º ³ ÃÄÄÄÄÄÄÄÄ)ÄÄÄÄÊÍÍÑÍÍÍÍÍÍÍÍÊÍÑÍÍÍÑÍÍo--oÍÍÍ>+13.8V
D ³D2 º 68mF º+ ³ R6 1k8 ÃÄ¿ ³ ³ ³ @ 20A
_³_ º C1 === ³ ³ Q2³/ ³C7 _³_D3 R9 ³
D4\_/ º 25V º ³ 500<ÄÄÄÄ´ === '/_\10V 220ê ³+
³ º º ³ POT VR1 ³\e ³10n ³Zener ³ ===C5
390ê º º ³ ³ ÀÄÁÄÄÂÄÄÙ ³ ³4m7
³ º º ³ R5 820ê R4 120ê ³ ³
E>ÍÏÍÍÍÍÊÍÍÍÍÍÍÍÍÊÍÍÏÍÍÍÏÍÍÍÍÍÍÍÍÍÍÍÍÍÏÍÍÍÍÍÍÍÍÍÍÍÍÍÏÍÍÍÏÍÍÍÍÍÍÍÍ>-VE
Some of the reference numbers are repeated as components are on different PCBs.
AC
The mains transformer is a conventional (not toroidal) type 17V @ 26A (2x 13A)
for the 20A rated PSU. The high pulse current AC wiring to the bridge & to the
reservoir C, are in thick & twisted wire to keep the losses & magnetic pulse
radiation down. A slow blow mains fuse of 6A is used.
PSU FEATURES
It has 2 power rails, this is because the bridge rectifier & capacitor losses
under heavy load can give the driver's supply up to 1V more. This allows for
better peak drive current when it is needed.
The 2R2 limits the drive current when C5 is exhausted allowing for higher peak
currents than the steady rating, but this current limiting is very dependent on
the mains voltage! Current "Foldback" is provided with reference zener D3 fed
from the output. The start up current comes from the R3 56ê, & R9 220ê is the
minimum discharge load.
A quiet thermally switched DC cylinder fan comes in when the heatsink is at a
scalding 60øC.
On the ICOM unit, the mains is remotely switched on the rig with the same lead
as the high current DC output. Polarity of the plug is "VERY CRITICAL", as if
it is forced to accidentally connect upside down, (not easy to do) live mains
will flow to the +ve DC side of your Rig! (it may be safer to remotely switch
neutral as that current would be lighter!)
OTHER LIMITATIONS
There is no rig protection from a shorts of T1/2 pass transistors & 25V output
will damage your rig!
ÚÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÂÄÄÄÄ¿ Leads
³ ÚÄÄÄÄÄÄÄÄ¿ ³ ÅÄÄ Fuse
³|P ³ Cap ³ ³ F ÅÄÄ
³| ÀÄÄÂÄÄÄÂÄÙ ³ ÅÄÄ
³|C /³ ³\ ³ A ÅÄÄ Bridge
³| ³ ³ ³ ³ ³ ÅÄÄ
³|B ³ ³ ³ ³ ³ N ÅÄÄ 2x T03
³ \³ ³/ ³ ÅÄÄ
ÀÄÄÄÄÄÄÁÄÄÄÁÄÄÄÄÁÄÄÄÄÙ
MODIFICATIONS. I have done to my ICOM one..
1/ Heatsink added to Q1 & bolted flat to PCB location provided.
2/ Blackened main T1 & T2 heatsink, so the thermal controlled fan runs less.
3/ Fused added on T1 & T2 emitters on PCB tags (13A ones soldered in).
4/ Squeezed in more main smoothing 2x 33mF @25V for /P work with poor AC power.
5/ Proper current limiting (@ 15A/transistor) with 2 extra PNPs Q3 & Q4.
These will also shut the PSU down if a 13A fuses blows.
6/ Removed the 2R2 the old current limiting method, to gain more output current
drive when the AC supply is poor.
7/ Changed D1 & 2 for lower voltage drop BYW29, for when the AC supply is poor.
8/ Added an output overvoltage protection zener (like an SCR Crowbar).
9/ Larger output Cap (10mF 16V) wired across PCB output tags.
10/ Mains Transformer tuned (PF=1) for /P work with 1uF 250VAC.
11/ Added a trip switch fuse low current output, for accessories.
12/ Added Battery "crock leads" & 30A trip.
ÚÄÄÄÄÄÄÄÄÄÂÄÄÄÄÄÄÂÄÄÄÂÄÄÄÄÄÂÄÄÄÄÄÄÄÄÄÄÄÄÄÄ¿
³ +18-25V ³ 4m7³+ +³4m7 4k7 ³/e TIP Driver
_³_ _³_ === === ÃÄÄÄÄÄÄÄÄÄÄÄÄ´ on Heatsink
/_\ BYW29 /_\ C4ÃÄÄÄÙC5 ³ Q1³\
³D1 ³D2 ³+15-25V ³ ³ 2x TO-3
³ ÉÍÍÍÍ)ÍÍÍËÍÍ)ÍÍÑÍÍÍÍÍÍ)ÍÍÍÍËÍÍÍÍÍÍÍÍÍ)ÍÍÍÍÍÍÍÍÍ» Mounted on
³ / \ ³ º ³ ³ ³ \³ ³ T2³/ Blackened Fan
AC³_/' B1`\_³AC º ³ R3 ³ T1ÃÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄ´ Cooled Heatsink
~³ \ / ~ º ³ 56ê ³ e/³ ³\e
³ `\ /'35A º ³ ³ ³ ÇÄÄÄÂÄÄÄ¿ 1nÚÄÄÄÂÄÄĶ
³ º Bridge º ³ ³ ³ º e³ === === ³e º
³ º + º ³ ³ ³ Fuse \³ ³1n ³ ³/ Fuse Rig
³ ÌÍÍ͵ÆÍÍ͹ ³ ³ ³ º Q3ÃÄ´ ÃÄ´Q4 º ÉÍÍÍÍÍ>+13.8V
L_³_ º 33mF º ³ ³ ³ 0.05ê /³1k5 1k5³\ 0.05ê º @20A
E\_/ð º + º ³ ÃÄÄÄÄÄÄ)ÄÄÄÄÊÍÑÍ)ÍÍÍÏÍÍÍÏÑÍÍ)ÍÑÍÊÍÍÑÍÍÍÍÍÑÍ͹ 2A
D ³ ÌÍÍ͵ÆÍÍ͹ ³ 1k8 ÃÄ¿ ³ ³ ³ ³ ³ ³ 10mF³+ ÇÄo-oÂ>+13.8V
_³_ º 33mF º ³ ³ Q2³/ ³ _³_ÀÄÄÄÄÄÂÄÄ)ÄÄÙ ³ _³_ === º À> 2A
\_/ º º+ ³ 500<ÄÄ´ === '/_\ ³ ³ +³ '/_\ 16V³ º 30A
D4³ º C1 === ³ POT ³\e ³10n ³ 10v ³ R9 === ³17V ³ ÈÍo-oÍ<>Batt+
390ê º 68mF º ³ ³ ÀÄÁÄÂÄÄÁÄÄÄÄÄÄÄÙ 220ê ³C5 ³75A ³ ÉÍÍÍÍÍ<>Batt-
³ º º ³ 820ê 120ê ³ ³4mF ³ ³ ÇÄÄÄÄÄ>Earth
E>ÏÍÍÍÍÊÍÍÍÍÍÍÍÍÊÍÍÏÍÍÏÍÍÍÍÍÍÍÍÍÍÏÍÍÍÍÍÍÍÍÍÍÍÍÍÏÍÍÍÍÏÍÍÍÍÏÍÍÍÍÍÏÍÍÊÍÍÍÍÍ>-VE
With these modifictions the PS will do 22A @ 13.8V output with 200-240V input.
Why Don't U send an interesting bul?
73 De John, G8MNY @ GB7CIP
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