Hi,
Thankyou for getting back. I'll investigate shortly ...but for now, i've again been told that this set-up is going to be OK, despite having raised my concerns.
Dear Readers,
I am designing phase loss detection circuitry for the input 3-phase supply for an electric drive.
This circuitry must simply do the following….
1. Detect when all three input phases are present
2. Detect when one input phase has been lost
3. Detect when two input phases...
Dear Engineers,
I am currently making an offline flyback SMPS. It uses two MOSFETs in the primary circuit and so I need an isolated gate drive.
Here is my investigative attempt thus far. Unfortunately, the output is only 0 to 7V instead of the required 0 to 16V.
I would be very grateful...
Hello
Thankyou for your replies.
Please may I now be specific as you raise interesting points of concern.
I’m certain I divulge nothing confidential here as its just a resistive load.
The real set-up is 300R of resistance.
This comprises four parallel pairs of 150R resistors.
These resistors...
I have thick film planar resistors dissipating 2KW.
They are mounted on a heatsink with thermal resistance = 0.144 degree C/watt.
The resistor datasheet says that if the heatsink gets above 210 degrees C then the resistors can handle zero percent of their rated power. (Each resistor can handle...
Hi,
The idea of putting zeners across series sections of LEDs was shown to me by the Senior Electronic Engineer at a fairly large lighting company. (-they make warning beacons etc). This was at an interview. He asked me what the zeners were for and i said to stabilise voltage....he then replied...
Hi,
I used to test LED lighting products at work and the problem is, as you say, that they are too dim...or rather, they are bright but only in the "zenith" direction.......to get them spraying light around more you end up having to use too opaque diffusers.
I once switched a nine Watt LED...
the only problem with start-up, is that of burning out the windings due to the fact that a stationary motor is not yet generating enough back-EMF to "reduce" the supply current.
I would get a current clamp round the motor supply and see how much it gets up to with slowly increasing start-up times.
I must apologise......the attenuator after the signal generator cuts the input signal (to the amplifier) down to 100mV peak to peak....not 2V peak to peak as first described.
(i unfortunately got mixed up.....the 2V peak to peak signal is what is measured at the output of the signal generator...
I think that these rotary type converters are like kind_of_motors with the three sets of windings spaced around the rotor to give the three phases.........since its a mechanical device, and since the rotor may not always spin at constant speed -also since the physical spacing of the phase...
Thankyou all for these valuable replies.
VE1BLL....i am having doubts about the use of the attenuator myself, as well as the 30 minute "warm-up".
melone....Unfortunately the design engineer works elsewhere usually. He is very busy and i could not ask him something unless i was absolutely...
I would be very grateful for help on the test procedure for a video amplifier that my company makes.
I am sure my company will not be harmed by me anonymously posting a link to a brief-ish form of the schematic here, as its only simple inverting stages and an analog multiplier IC...
Hi,
I am definetley sure it's push-pull....here is a very rough diagram of it....
The TL598 PWM controller IC, with pins 13 and 14 connected, is specially made for push-pull circuits.
http://www.ortodoxism.ro/datasheets2/9/0oguit27jufq3wdyw7f9gyuo7lyy.pdf
Even more interesting is the fact...
In line with what VE1BLL said....here is a circuit for a current mirror....
http://en.wikipedia.org/wiki/Current_mirror
The current mirror will give you constant current of any value set by the "so called programming resistor".
