Hi
I must start with a word of warning, the 08563-60064 board carries out two distinct functions. If you look at it with the transformer T301 uppermost and looking at the component side, to the right hand side of the transformer T301 is the low voltage regulator feedback side which is coupled back to the left hand switching controller side via the U308 optical coupler. All of the left hand side is at high voltage with lethal currents available DO NOT USE ANY GROUNDED TEST EQUIPMENT TO LOOK AT THE LEFT HAND SIDE when the PSU is connected to the mains supply as the PSU high voltage side is permanently energised, if you do so there are considerable health risks to you and you WILL destroy the power supply.
I would recommend that the 08563-60064 board is removed and independently powered by a 12 to 15VDC current limited power supply, set for a low current limit, to test and repair it. If you do it this way accidental probe slippages will not destroy the 08563-60064 board.
The main switch mode power supply is turned on/off by using the remote control pin 10 of the NE5560D switch mode controller U309. The front panel on/off switch does no more than shorting out a winding on T301, pins 1 and 4, via a 10R resistor, this provides an voltage isolation barrier for the power supply. T301 forms part of an oscillator using pins 5 through 8 and part of U303 and surrounding components which is prevented from oscillating by shorting out pins 1 and 4 of T301, with the 08563-60064 board externally powered you can just hear the oscillator running.
I have never drawn the schematic for the 08563-60064 board myself so you will have to trace the control signal from the T301 oscillator to the control pin 10 of U309 yourself. Pay particular attention to the diodes around U303, CR301, CR302 and CR306, sometimes these are the cause of the power supply not switching on by going leaky. In the past a number of individuals claim to have reverse engineered the 08563-60064 board, but as far as I know the resulting schematic¡¯s have never been made available.
There are a number of power supply protection circuits implemented using U302, U304, U306, U307 and possibly using U301 as a reference voltage for them, but these should not prevent at least an initial turn on of the supply. Bizarrely one of the protection circuits appears to turn the switching stage, and as a result the SA, on when the incoming mains voltage exceeds a set level, I presume this is done to protect the main bulk storage electrolytic capacitors from being subjected to over voltage by applying a load to them.
In the past I have made a number of notes regarding the 08563-60064 board, in time I may be able to help you further from them. This switch mode power supply will not operate without a minimum load on the +5VDC supply. I say again, this power supply is fully energised on the incoming AC/DC side whenever it is connected to the mains, be very careful.
Hope that this helps you.
73 George G6HIG Dover UK
On Saturday, 12 September 2020, 04:32:20 BST, lanzhu@... <lanzhu@...> wrote:
hi, George, I find this circuit diagram comes from 08563-60064.
My HP8592L PSU £¨5062-8229£© was bad to. all the LED is off¡£?I doubt on swtiching board Q140 4N50E and SMD bord U302 LP339¡£ the Q140 4N50E? gate pin connect the SMD board LP339 pin2 (out)£¬ only 0.9V and also zenner nearby¡£? LP339 Vcc is 15V from zenner VR110 is ok.
the? LP339 comparator connect some transistor(?)and no circuit ,so I cannot check more.? pls do you have any idea?? ?
thx
de BG8AAK
China
