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Originally posted by Andi68
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I just Love You Man
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You need to use a shielded cable to connect the coil to the control box.Originally posted by Mr.Jaick View PostComment
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my coil is not shielded so that means i need to use a RG58 cable then connect the core copper to +12v and the stranded shield to end of the coilOriginally posted by Qiaozhi View Post
or you refer to a double core + shield wire?Comment
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we call a wire end running to MOSFET's DRAIN as 'HOT END', a coil wire end to power line 'COLD END' respectively.
so COLD END is shield point connection. ALWAYS. simply understand that and remember.
not so hard to understand.Comment
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If your coil is a mono (which it appears to be) then you only need a single-core coax cable. The ground (0V) connection is attached to the outer shield.Originally posted by Mr.Jaick View PostComment
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I got it, solid explanation thank you.Originally posted by kt315 View Post
so actually we're taking about AC analysis here which the battery becomes a big capacitor and short to groundComment
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thank you very muchOriginally posted by Qiaozhi View Post
in my case it's +VDD which is the same as ground for those pulses i guessComment
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can anybody help on this problem?
i made my own PCB for this polones schematic
layout is ok connections are ok but it hardly detects a big iron lock
coil information:
0.75mm enameled
13 turns
1 ohm
should be about 260uh
damping resistor 470 ohms
gain of PreAmp is 3700 (on the high side)
here are all the necessary information of the running circuit
settings are : volt/div= 5v time/div= 2ms otherwise mentioned
1_oscillator output
2_gate of IRF740
3_Drain of IRF740
volt/div = 20V time/div = 2ms
4_drain of IRF740 zoomed out Back EMF
volt/div = 10v time/div = 20us
it has a bit of undershoot on the falling edge about 0.5V
5_cathode of 3,3V zener in front of PreAmp
6_pin 10 of 4011BP
7_pin 6 of preAmp
any help would be greatComment
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a better view:
Comment
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2_gate of IRF740
IRF740_gate.jpg
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how much PULSE WIDTH?Comment
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the hole pulse on and off time is 10ms (each division 2ms) = 100HzOriginally posted by kt315 View Post
so i think it's about 200us on top(peak) of the pulse and 400us on the bottom side
but over all the duty cycle is 2%
by the way i changed the two gate drive resistors by calculation
the series one to (R6) 27ohms and the pulldown one to (R7) 33K which is ok for the frequency i think.Comment
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200us PULSE WIDTH gives 400V p-p. you can not check pulse on the gate because you DO NOT SEE IT.
so also it is HIGHT VOLTAGE and you will burn your o-scope in moment.Comment
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i changed the pulldown resistor(R7) on the gate from 33k to 220 ohms and i think it was too low that the mosfet didn't fully turn on(it was dead cold)Originally posted by kt315 View Post
I changed that to 2.2k and it's better i guess
now the PULSE WIDTH is 70us or there about and mosfet doesn't get hot at all
detection is improved just tiny bit and i think the problem must be in coil driver and coil itself
do you know what is the optimum gate pulldown resistor for the IRF740 ??
the series resistor for gate(R6) is 27 ohms
now i'll just add couple of turns to the coil see what happensComment
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Bernte did you put trimmers in place of the two 33k resistors to enable changing the sample delay?Originally posted by bernte_one View PostComment
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How did you choose the size of your damping resistor? Did you use the variable damping tool? I am thinking that it is not sized optimally.Originally posted by Mr.Jaick View Post
CheersComment
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