Low resistance would upset your circuit placed on it, and potentially be quite dangerous. Static does not have much energy, so easily bleeds away with very high values of resistance.
All anti-static gear is within a range of 1M Ohm to 1G Ohm. That is the dissipative range. Values less than 1M are considered conductive and potentially dangerous with grounding errors. This is why all wrist strap assemblies require a 1M Ohm resistor. The upper limit is a bit more complicated, but it primarily has to do with the time it takes to discharge static electricity to ground. It must discharge faster than a human could disconnect from the circuit to ground. 1G Ohm to ground is the standard to prevent human base model ESD events.
Dave, you absolutely must investigate the magnetic effects of pine wood in your next video. NOT using a mat directly on the pine may be causing THEIR measurements to be wrong!
@mshine5 Don't forget the thermal noise in the meter and the cosmic backgroung radiation from the big bang and the earths tectonic shift and the virtual particle interference through casimir effect and the nuclear fallout from Japan and the suns solar flares activity of 2012 and the extra-dimension fluctuations from string theory and the quantum particle wave collapse through observation/ measurement. :)
Did my own test today and my mat went down to hundreds of kΩ on the underside, staying infinite on the upper side. Tested again with my old UT890D+ just to see if it was not a Fluke.
Thanks a lot Dave. I watched this video and took a C64 board, put it on the ESD mat knowing it won't affect anything, powered it on, started measuring the 5V line and almost had a heart attack when the scope displayed 196V! The C64's PSU is isolated but the grounded ESD mat does affect measurements, at least on the scope. Lifted the C64 board to a plastic platform and the problem went away.
@MetalPhreakAU You've got it all wrong. It's not magnetic effects and not pine. What you have to worry about is the static electric charge is built up every time you rub a hard rubber comb with fir.
@TheNitramneb That's not his garage. Where have you been? He moved his lab out of the garage to a commercial building months ago. Go back and watch the videos where he first moved in, built his benches, had the King of Australia anoint his toilet, etc.
I forgot to bring my earphones to the library, so I couldn't hear the audio. But like the silent movies, the plot came through loud and clear. But there is always the nagging thought that Dave replaced the ESD mat with a sheet of regular plastic of the exact same shade of blue just for this video on the theory you should never give a sucker an even break.
@ 7:22 how did the recipricol of 0.3^(-9) become 3.3GΩ? 50805.3 comes up. Reciprocal of 0.3 x 10^(-9) does however equal 3.3GΩ Perhaps I'm tired and missed something.
1Mohm is a safety current limiting resistor in the event the user is exposed to 250VAC (or less) by way of the wrist strap in the event of a fault. Note that it doesn't protect you if you are working with voltages larger than 250V as this is the voltage rating of the resistor (250V)
I've got problems measuring MLCC capacitor value with DMM when the capacitor was direclty on the ESD mat. I've found that when the MLCC capacitor is put on paper it gave me good readings.
@pikuorguk All those old truck tires have to get used somewhere. Grinding them up and making them into mats is a lot cheaper than hauling them off to China... Oh, wait, that's EXACTLY how they got made into mats.
Dave, I'm looking for a video you did where you show the voltage along a mat that was behaving like a grid of resistors. I thought it was this one, but it's not. Have you any idea of what the link might be? Thanks!
Sarah Cartwright Don't recall that. I have my recent one on conductive foam that works like that. And the actual resistor grid video, but recall any others.
@@emmetmyers AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
Can you do a video explaining how these mats work? As a noobie I would think you would want a low resistance mat to discharge the static electricity. Can someone explain?
From what somebody else just said high voltage low energy static easily dissipates over High Resistance surfaces but honestly I don't get it myself. I'd love for Dave to make a video on this.
@@goophoba Standard human body model has capacity of 100pF. You can easily discharge such a small capacity through a couple of Gohms. E.g. when charged to 5kV and discharged through 1Gohm, the voltage drops to 200V in cca 320ms. I think the resistance may be even lower for a high voltages, but I don't have any information about that. Also, there isn't just ESD mats, but also wrist bands (not wireless, please :-) ionized air generators, humidifiers, etc. The latter are more expensive and more professional, but the mat + wrist band should be absolute minimum even for hobby users.
That's just additional ESD protection in addition to wrist band, so there's nothing around you that has any slightest charge. Same as with wrist band mat is just grounded conductor; there's usually a snap in the corner of quality ESD mats that are used to connect mat to the ground and some have two snaps: one for the wrist band wire and second one for the ground wire. This is how I understand it.
DIscharging too quickly can cause problems, especially if it isn't static. If you accidentally touch your power supply positive to the mat then you don't want it shorting to ground through a low resistance. Resistances in the gigaohm range are perfectly fine for dissipating static but you generally do not want a conductive work surface when working with electronics.
I was thinking "horseshit" myself. Unless you are doping microscopic silicon semicons and monitoring the process, that is not going to make any difference. I noticed that with some of the critical power supplies for power plants stock brokerage hoses, etc, were sensitive enough to sway the readings on the meters as I moved about the room. You are affecting the readings with your body far far more than those mats. My antiquated Teague ESI LCR shows a reading way up in the gigohms range with 50 volts externally biased placed across the mat at a distance of 1cm. That is just absurd. That being said, what type of shoes are you wearing, and what color is your underwear? If anything, the mats probably bring some stability to the readings.
hello. I need an anti static mat or anythink on my work desk that would discharge me. what is your suggestion? I have my cat on my desk that makes me charged and i am afraid to touch my VA panel (it can kill pixels). what sould get to discharde the ions ?
Is this also safe when using a mat, that your power point(powerbar) is switched off & plug into the outlet. Also that the PSU is switched off and plug into the powerbar. Use a motherboard Standoffs on the psu screw hole & attaching the alligator clip to the standoffs. Is this okay? is the mat grounded? This is a brand new build. What if its not a brand new build, what do u suggest?
AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
Your measurements were completely off. The humidity caused errors because you had the A/C off and were breathing towards the meter as well as touching the mat with your greasy hands. Oh and the lights and camera's electric fields were causing the meter to fluctuate. :)
what do you mean that it "doesn't do anything" i guess i am a bit confused... what measurements... i just bought a pretty expensive mat for working on computer hardware and now i am skeptical that i just wasted money on something i might not need.
AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries. If you have any interesting, please feel free to contact us.(Email:Nicole@sh-anping.com.cn) Thanks.
ESD mat works. The resistance is miniscule only for regular circuits with regular voltages. Not for static charges, HV circuits or super-sensitive circuits.
The mat is doing something. It's just minuscule, because it's incredibly resistive. Like the original response. Standard electronics which are sensitive to static electricity, i.e. integrated circuits, are not going to have the energy to "see" ground through a dissipative material. The effect is negligible, unless you have a super marginal design requirement. Which in that case, you need to bring your product back to design.
It would be bad mat, if it would have some capacitance, wouldn't it?It would charge, you'd put some expensive chip on it and BOOM, it would discharge! ;)
AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
EEVblog 0:50 Rubber? Antistatic??!! Pfffffttttfftttffffthahahaaahahaha! Hahahaha! Please tell Robert Jemison Van De Graaff about it!! What is this here? Kangaroo science? People these days.... bloody unbelievable!
bloody unbelievable @the kaiser you thinking that your comment is a contribution, not to mention you have none videos either. Van de Graaff generators use a motorized insulating belt (usually made of rubber)...
@@thekaiser4333 There are many rubber materials and even more additives. In this case of ESD mat, both rubbers - the blue and the black - are nitrile rubber. One is conductive, one is not. Why? Because additives. I have LDPE ziplock bags. Ones are regular white LDPE bags, ones are static dissipative pink coloured LDPE bags. When you take regular bag and rub it on clean hairs, you get sparks crackling. When you do the same with ESD bag, you get nothing. And now the best part. When you swipe the ESD bag with alcohol, seemingly nothing changed. It's still pink LDPE bag. But when you rub it, it generates static charge as regular bag. My theory is, there is some surface treatment or material additive, which can be washed away with organic solvent.
Low resistance would upset your circuit placed on it, and potentially be quite dangerous. Static does not have much energy, so easily bleeds away with very high values of resistance.
Dave, all of you measurements were affected by the ESD mat in this video.
No they weren't you must be thinking of anti static foam they use for packaging sensitive ic's
@@xtremediy1815Our company have many anti static Ion bar and ionizing air blow in ESD
5:47 it beeps. So clearly something is being affected!
All anti-static gear is within a range of 1M Ohm to 1G Ohm. That is the dissipative range. Values less than 1M are considered conductive and potentially dangerous with grounding errors. This is why all wrist strap assemblies require a 1M Ohm resistor. The upper limit is a bit more complicated, but it primarily has to do with the time it takes to discharge static electricity to ground. It must discharge faster than a human could disconnect from the circuit to ground. 1G Ohm to ground is the standard to prevent human base model ESD events.
I had always worried about setting a live board on my mat. Thanks for clearing that up!
Dave, you absolutely must investigate the magnetic effects of pine wood in your next video. NOT using a mat directly on the pine may be causing THEIR measurements to be wrong!
Super-critical probing. Sounds like a visit to the proctologist.
Thanks for going through the extra trouble, Dave.
Thanks for clarifying this myth!
@mshine5 Don't forget the thermal noise in the meter and the cosmic backgroung radiation from the big bang and the earths tectonic shift and the virtual particle interference through casimir effect and the nuclear fallout from Japan and the suns solar flares activity of 2012 and the extra-dimension fluctuations from string theory and the quantum particle wave collapse through observation/ measurement. :)
Did my own test today and my mat went down to hundreds of kΩ on the underside, staying infinite on the upper side. Tested again with my old UT890D+ just to see if it was not a Fluke.
Thanks a lot Dave. I watched this video and took a C64 board, put it on the ESD mat knowing it won't affect anything, powered it on, started measuring the 5V line and almost had a heart attack when the scope displayed 196V! The C64's PSU is isolated but the grounded ESD mat does affect measurements, at least on the scope. Lifted the C64 board to a plastic platform and the problem went away.
thing is most likely the same would have happend on any other surface. It means you have measured some parasitic voltage.
@MetalPhreakAU You've got it all wrong. It's not magnetic effects and not pine. What you have to worry about is the static electric charge is built up every time you rub a hard rubber comb with fir.
@TheNitramneb That's not his garage. Where have you been? He moved his lab out of the garage to a commercial building months ago. Go back and watch the videos where he first moved in, built his benches, had the King of Australia anoint his toilet, etc.
Put 40kV across the mat and they soon start conducting (and burning!).
I forgot to bring my earphones to the library, so I couldn't hear the audio. But like the silent movies, the plot came through loud and clear. But there is always the nagging thought that Dave replaced the ESD mat with a sheet of regular plastic of the exact same shade of blue just for this video on the theory you should never give a sucker an even break.
@ 7:22 how did the recipricol of
0.3^(-9) become 3.3GΩ?
50805.3 comes up.
Reciprocal of 0.3 x 10^(-9) does however equal 3.3GΩ
Perhaps I'm tired and missed something.
Whoa whoa! That mat is not calibrated, Dave! Gotta send that back to the cal lab before you start doing REAL work.
Hello Dave. What brand is the blue mat ?
Oritech
What is the story about the ground wire with 0 ohms or 1M ohms respectfully?
1Mohm is a safety current limiting resistor in the event the user is exposed to 250VAC (or less) by way of the wrist strap in the event of a fault. Note that it doesn't protect you if you are working with voltages larger than 250V as this is the voltage rating of the resistor (250V)
I've got problems measuring MLCC capacitor value with DMM when the capacitor was direclty on the ESD mat.
I've found that when the MLCC capacitor is put on paper it gave me good readings.
Then your mat sucks, throw it out.
Haha it wasn't my personal mat but the one they're using in the lab where I work.
They are all black.
Paper is dissipative too. Lol
@pikuorguk All those old truck tires have to get used somewhere. Grinding them up and making them into mats is a lot cheaper than hauling them off to China... Oh, wait, that's EXACTLY how they got made into mats.
You've proved once again that the most outspoken individuals generally have no idea what they're talking about.
Dave, I'm looking for a video you did where you show the voltage along a mat that was behaving like a grid of resistors. I thought it was this one, but it's not.
Have you any idea of what the link might be?
Thanks!
Sarah Cartwright Don't recall that. I have my recent one on conductive foam that works like that. And the actual resistor grid video, but recall any others.
EEVblog thanks! It must be that one I was thinking of.
Sarah Cartwright I was looking for that same one. There was a vid where a mat was working like a resistor.... maybe i can find it
thanks
@@emmetmyers AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
Can you do a video explaining how these mats work? As a noobie I would think you would want a low resistance mat to discharge the static electricity. Can someone explain?
From what somebody else just said high voltage low energy static easily dissipates over High Resistance surfaces but honestly I don't get it myself. I'd love for Dave to make a video on this.
And I'm sure he has I just haven't found it yet.
@@goophoba Standard human body model has capacity of 100pF. You can easily discharge such a small capacity through a couple of Gohms. E.g. when charged to 5kV and discharged through 1Gohm, the voltage drops to 200V in cca 320ms. I think the resistance may be even lower for a high voltages, but I don't have any information about that. Also, there isn't just ESD mats, but also wrist bands (not wireless, please :-) ionized air generators, humidifiers, etc. The latter are more expensive and more professional, but the mat + wrist band should be absolute minimum even for hobby users.
That's just additional ESD protection in addition to wrist band, so there's nothing around you that has any slightest charge. Same as with wrist band mat is just grounded conductor; there's usually a snap in the corner of quality ESD mats that are used to connect mat to the ground and some have two snaps: one for the wrist band wire and second one for the ground wire. This is how I understand it.
DIscharging too quickly can cause problems, especially if it isn't static. If you accidentally touch your power supply positive to the mat then you don't want it shorting to ground through a low resistance. Resistances in the gigaohm range are perfectly fine for dissipating static but you generally do not want a conductive work surface when working with electronics.
Where can I buy the blue work mat? Can’t find them
I was thinking "horseshit" myself. Unless you are doping microscopic silicon semicons and monitoring the process, that is not going to make any difference. I noticed that with some of the critical power supplies for power plants stock brokerage hoses, etc, were sensitive enough to sway the readings on the meters as I moved about the room. You are affecting the readings with your body far far more than those mats. My antiquated Teague ESI LCR shows a reading way up in the gigohms range with 50 volts externally biased placed across the mat at a distance of 1cm. That is just absurd. That being said, what type of shoes are you wearing, and what color is your underwear? If anything, the mats probably bring some stability to the readings.
No, not in a gigaohm resistance range no way, that would be microamps of current
I've got a cheapo rubber mat. It *stinks* of rubber but seems mostly resistant to soldering irons and knives. But my god... it stinks of cheap rubber.
a faraday cage should work to reduce outside interference
hello. I need an anti static mat or anythink on my work desk that would discharge me. what is your suggestion? I have my cat on my desk that makes me charged and i am afraid to touch my VA panel (it can kill pixels). what sould get to discharde the ions ?
Wait, are you sure you had your tongue sticking out at the right angle when you were taking the measurements in the previous video?
Is this also safe when using a mat, that your power point(powerbar) is switched off & plug into the outlet. Also that the PSU is switched off and plug into the powerbar. Use a motherboard Standoffs on the psu screw hole & attaching the alligator clip to the standoffs.
Is this okay? is the mat grounded?
This is a brand new build.
What if its not a brand new build, what do u suggest?
are you talking about assembling a desktop computer? You will be fine doing that on your desk.
AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
Your measurements were completely off. The humidity caused errors because you had the A/C off and were breathing towards the meter as well as touching the mat with your greasy hands. Oh and the lights and camera's electric fields were causing the meter to fluctuate. :)
Great job busting all the BS info out there! You're the EE Mythbuster!
Oh Dave.....!!! We could se Fluke 87V vs Gossen Metrawatt Xtra instead of this :)))
maybe the mat affected the measurements
what do you mean that it "doesn't do anything" i guess i am a bit confused... what measurements... i just bought a pretty expensive mat for working on computer hardware and now i am skeptical that i just wasted money on something i might not need.
The mat doesn't affect any measurement readings. The mat's do what they are supposed to and designed to do.Don't worry.
ah... that makes me feel better... thanks!
What is the exact mat you have?
Maybe the blue affected the commenters' brains? Do any of your more expensive multimeter's measure blue?
Dave, what brand mats do you use, I'm looking to replace the stuff on my benches at work.
AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
If you have any interesting,
please feel free to contact us.(Email:Nicole@sh-anping.com.cn) Thanks.
@mshine5 Luckily, all cancelled out by the current phase of the moon.
* affect
Been on a roll , lately ?
great video. thank you!
So in other words, the ohm resistance is so minuscule that the mat is effectively not even working?
ESD mat works. The resistance is miniscule only for regular circuits with regular voltages. Not for static charges, HV circuits or super-sensitive circuits.
The mat is doing something. It's just minuscule, because it's incredibly resistive. Like the original response. Standard electronics which are sensitive to static electricity, i.e. integrated circuits, are not going to have the energy to "see" ground through a dissipative material. The effect is negligible, unless you have a super marginal design requirement. Which in that case, you need to bring your product back to design.
I feel like you were less angry here than you are now....
But what angle was your tongue at?!
It would be bad mat, if it would have some capacitance, wouldn't it?It would charge, you'd put some expensive chip on it and BOOM, it would discharge! ;)
You're a married man. It doesn't work if you are. That's what they told me at least ;)
conductive.... rubber?
I'm not even sure what these mats are supposed to do that would possibly help against ESD.
Can anyone explain?
That was a joke...
@macmcseboy The most expensive ones you can find. Seriously. ;)
eh... i guess a rubber ESD mat wouldn't be very helpful with my GLASS workbench. :P
AP&T brand series products include ionizing air blower, ionizing air gun, ion bar, ion nozzle with various specifications are wildly used in semi conduct, encapsulation, opto-electrical, electronics, communication, spray finishing, printing, textile, pharmaceutical equipment, construction material, injection molding industries.
Wrong type of measurement tool
...trolls will b trolls
brand
7:20 "nano seamen's"
ahhahahah
Werner von Siemens is not amused
upload.wikimedia.org/wikipedia/commons/0/08/Wvs_1885.jpg
Brilliant
CROIKAYYYYYY!
nice~
lol nanosiemens
Trolls...
Dave said semen multiple times. 4:85
seeman
EEVblog
0:50 Rubber? Antistatic??!!
Pfffffttttfftttffffthahahaaahahaha! Hahahaha! Please tell Robert Jemison Van De Graaff about it!!
What is this here? Kangaroo science?
People these days.... bloody unbelievable!
bloody unbelievable @the kaiser you thinking that your comment is a contribution, not to mention you have none videos either.
Van de Graaff generators use a motorized insulating belt (usually made of rubber)...
It's a static electricity collection belt made of rubber.
@@thekaiser4333 There are many rubber materials and even more additives. In this case of ESD mat, both rubbers - the blue and the black - are nitrile rubber. One is conductive, one is not. Why? Because additives.
I have LDPE ziplock bags. Ones are regular white LDPE bags, ones are static dissipative pink coloured LDPE bags. When you take regular bag and rub it on clean hairs, you get sparks crackling. When you do the same with ESD bag, you get nothing. And now the best part. When you swipe the ESD bag with alcohol, seemingly nothing changed. It's still pink LDPE bag. But when you rub it, it generates static charge as regular bag. My theory is, there is some surface treatment or material additive, which can be washed away with organic solvent.