Category Archives: General

New logic circuit PSU transformer

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I call back that last update (see previous post). Apparently the transformer wasn’t sufficient after all due to lack of mechanical protection of windings. The safety standard for transformers, EN 61558-1, requires that insulation must not be easily damageable during device assembly. So windings must be mechanically protected from being hit by other objects.

Luckily I found near perfect “drop-in” replacement for the transformer. This model actually probably would have been chosen in the first place if it were available at the time of logic circuit PSU design. The new transformer type was just introduced to market at late 2012.

The new transformer mounted with "3D" installation method

The new transformer mounted using the “3D” installation method familiar to all tinkerers

Laser diode drivers & Quick update

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This week I have been wandering around Photonics West exhibition at San Francisco. I have been collecting leads for our new product area: laser diode drivers. LD drivers are a natural expansion to motor drives category as they share many of the closed loop current control technologies. Check out Intensify Nx50 product site!

Intensift Nx50 laser diode driver

Intensify Nx50 laser diode driver

Meanwhile Argon prototype has been sent to a reputable standard verification company to ensure it’s compliance to EN 61800-5-1 safety stadard. Safety is a highly critical part to get correct as failures to comply could become very expensive. Granite Devices is taking product liability seriously.

Front panel art

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Below is the current state of front panel art of Argon drive. The enclosure will be made out of steel sheet metal + aluminium heat sink plate as bottom. Front side of the drive will have silk screen printed artwork.

Argon front panel art release candidates

Which one of the variations you’d prefer? With some trees or without. Please leave a comment!

Survival course

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Yesterday was a day full of sparks – electrostatic discharge sparks. Tests were done by shooting sparks to to different targets including cables, casing and open connectors while the drive was operating. Also various ESD types were tested: contact discharge, air discharge, varying voltages and different polarities. All ESD tests were passed without a single hiccup.

ESD test table and ESD gun

However, ESD is only one mode of high voltage harassment drive must cope with. Another test type is EFT (electrical fast transient) which is induced to cabling through capacitive clamp. Several kilovolts with nanosecond scale rise times were injected as 75 spike bursts into the clamp at frequency of 5 kHz and repeated 10 times. This simulates interference spikes emitted by nearby sparking or EMI. No problems recorded.

Encoder cable going through capacitive EFT test clamp

The last test was a surge test. A high energy and relatively long pulse were applied to supply voltage inputs. This is typically the most difficult harassment to filter out in electronics.

Surge & EFT test equipment – above is the 24V PSU and the device below is the EFT & Surge injector.

Difficulty of surge may be imagined by the funny fact that cheap lab power supplies tend to die during the test even when it’s not the target. So heavy duty PSU had to be used as supply to avoid it breaking.

In this test we found a problem. The voltage regulator of Argon died when shot with 400 V and ~40 A pulse in negative polarity to 24V input. However, drive survived a 500 V positive polarity surge. 500 V is the required level to pass the test. Failing one tests means that some circuit/layout changes has to be done to address the problem.

First post!

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Welcome to my very first blog! A year ago I would never have believed to ever become a blogger, but now I am.

This blog has been dedicated for my enthusiasm towards electronics, robotics and, most importantly for my greatest achievement, industrial grade motor drives.