For forty years vendors of computing equipment and their attendant programs have used power to sell products. A year on, and a revised product is unveiled as yet more powerful. At the same time, these devices are diverting energy from their primary task to run fans and other cooling equipment, in an attempt to mitigate the negative effects of their energy usage, notably the production of heat, that creates unbearable working environments for people, not to mention silicon.
Power architecture refers to IBM’s RISC microprocessors, promoted by power.org, used in the PowerPC and the Apple PowerBook. Power software was an IBM operating system enhancement package. Not to be outdone, Microsoft has PowerPoint, its slide presentation software, and PowerShell, a task automation and configuration management framework. Power is pervasive.
An Apple Macintosh PowerBook 140, from October 1991. (photo: Bluedisk at English Wikipedia)
The computer industry is not the only sector to be obsessed with power. Vehicle manufacturers are worse. Not only do vehicles come equipped with factory air and cassette tape decks, there is an endless supply of power products, including power brakes, power steering, power windows, power seats and the more generic power accessories. People unable to understand kilowatts, can even use horsepower to express themselves, 1 HP = 746 W. Even the Swedish Amcar magazine is called Power.
Power Magazine (2017-4), available from 13 June 2017, Sweden’s contribution to a better understanding of older American cars. (source: Power Magazine)
Give me adequate power, but nothing more than that. Purchasing computers always involves compromise. Along with numerous Gigabyte Brix models, another desktop computer I considered before purchasing an Asus VivoMini VC65, was the CompuLab Mint Box Mini. It comes with Linux Mint pre-installed, but with the Mate desktop. It has 64 GB internal SSD storage, compared to the VC65’s 128 GB SSD and 1 TB HDD. While the Mint Box is fanless, the Asus retains a fan. I decided to purchase the Asus because it offered the best compromise, and was the only computer on my short list to have a DVD-reader.
Youtube Vlogger Joe Collins, in his Top 5 Mistakes New Linux Users Make, has several recommendations regarding equipment. Several of them are broken in the Mint Box Mini, including his advice to use Intel processors, and avoid AMD graphics cards. The Mint Box is powered by a 1GHz AMD A4 Micro-6400T 64bit Processor (Quad-Core), 4GB DDR3 Ram, AMD Radeon R3 Graphics and Realtek HD Audio.
A CompuLab Mint Box Mini running Linux Mint. An adequate machine for most purposes, but lacking a DVD reader I currently need. (photo: CompuLab)
I am truly thankful that the age of fanless computers has arrived. Miniaturization without excessive heat. Silence. I am equally thankful that the age of electric cars has also arrived, and an age of autonomous vehicles is on the horizon. If not silence, at least less noise. I will not mourn the disappearance of Harley-Davidson.
When I purchase products from abroad, it is usually because these products are unavailable from any Norwegian sources. In a few isolated cases, it is to save money. This situation is about to change, and I may have to purchase larger quantities from abroad.
At the moment it is possible to purchase goods outside of Norway and to import them duty and value tax free, if their value (including postage) is less than NOK 350 (USD 43). If the value is over NOK 350, but under NOK 3000, then 25% Value Added Tax is added, in addition to the NOK 146 (USD 18) customs fee.
Proposed changes would eliminate duty and value tax free import of goods. Everything imported would be subject to customs fees and value added tax.
An example. I have recently been looking at purchasing an “In Wall AC/DC PCB (with Relay) for MySensors”. On eBay, the price is about NOK 40 (USD 5) each. I would probably purchase just one, for experimental and testing purposes. My total cost would be about NOK 40 for this first product. If the testing shows positive results, then I would probably import ten more. If I imported them in groups of five and five, then ten of them would cost NOK 400 or USD 80.
With the proposed changes, I would have to investigate the utility of any purchase. The price of a single PCB would increase from NOK 40 to NOK 196 (USD 24). That is almost a five fold increase. While one can tolerate such an increase for a single purchase, this may make any form of experimentation much more difficult.
The price of 11 PCBs would increase from NOK 440 in two purchases, to NOK 696 in a single purchase, for an average price of over NOK 63. (USD 8).
The reason for this proposed change is to accommodate a Norwegian political party, who wants to use this change in fees to create Norwegian jobs. The result may be the opposite. If informal co-operatives are formed, that are capable of purchasing larger quantities of goods, then the results may be increased imports.
It should be noted here, that Norway is in a special situation. It is not a member of the European Customs Union. Membership here would have eliminated customs fees, but increased prices on most goods by 25%. This is a solution that could be accepted by many.
This weblog post was updated 2021/12/21. to eliminate Weeds from the title. This post formed part of a Needs, Seeds and Weeds website that belonged to my daughter, Shelagh. In addition, other things are also out of date, or my opinions have changed. Apart from the title, updating the text to a block format and other minor formatting changes, the text above this paragraph remains as it was before. Any significant content changes are found below this paragraph.
Breathing. It’s a task Ethan & Ethel do all the time, to stay alive. Unfortunately, there are environments that make this breathing uncomfortable, even damaging, sometimes deadly. This post is going to look at how a woodworking workshop can be constructed to ensure that most sawdust is collected, and the air is filtered so it is fit to breathe.
Sawdust
There are three levels of sawdust collection that can be used: 0) broom and dustpan or shovel; 1) shop vacuum; 2) detached, ducted extraction system.
Level 0: Just cleaning up after yourself with a broom, may make a workshop look clean, but it will not provide a healthy environment. This is an unacceptable level of dust collection.
Level 1: The minimum acceptable level of dust collection involves the use of a shop vacuum attached directly to a tool being used.
A shop vacuum can be developed into a dust system by including a hose reel and a separator. A hose reel will hold 10 meters of 50 mm diameter hose, with a crank and tension adjustment. Due to the length of the hose on the reel, considerable power (e.g. 3 kW or more) may be required to power the vacuum.
A hose reel encourages use of a dust separator that can be permanently positioned in a fixed location. A dust separator captures sawdust, wood chips, and other debris before it enters the vacuum. Most separators contain cyclones that disrupt air flow, causing most wood dust particles and other materials that are heavier than air to separate out. They do not enter the vacuum. This vortex effect adds life to vacuum filters and prevents the loss of suction caused by a clogging.
A shop vacuum attached to a separator and a hose (photo: Rockler)
Level 2: detached, ducted collection system
The Annex is a shed that was added onto the original garage that has become the Unit One workshop. If you enter the annex today, you will find that it contains the gardener’s former workbench and stacks of firewood. Soon, the Annex will be re-purposed, and many of the dirtiest, noisiest and smelliest activities will be confined to this area. This does not mean that the rest of the workshop will be clean, quiet and fresh smelling.
The Annex, home of dirty, noisy and smelly activities. (photo: Brock McLellan)
The equipment used in a level 2 ducted system is very similar to that used with level 1 equipment. There is a vacuum and a separator. 100 mm flexible tubing or metal ducting connects the machines. Both have advantages and disadvantages. While flexible tubing is preferred for attachment to a machine, in other places a more solid, metal duct is preferred. Transparent material allows one to see blockages if they occur. Metal duct prevents the build-up of static electricity, which could result in a fire.
100 mm diameter flexible tubing is often used for dust collection in a workshop, This is available in 6 meter lengths, and can be cut to size. (foto: Jula)
100 mm galvanized spiral duct, made from sheet metal. (photo: NORFI Absaugtechnik GmbH)
A smooth transition is needed where hoses, tubes and ducts meet. Y connectors are often used for this purpose.
Y-connector, used to smooth air-flow where two ducts meet (photo: Jula)
Most of the time in a small workshop, only one machine can be used at a time. Each machine is attached to the dust collection system, but blast gates are used to close the dust collector so that inactive machines do not result in air being sucked through the system. Only a active machine has its blast gate open. This saves a lot of energy, allowing a much smaller sized vacuum to be used. At Unit One, the vacuum uses 1100 W.
Blast gate in closed position, preventing air from being sucked through a system. (photo: Jula)
Cleaning floors, and other horizontal surfaces, in a workshop is a necessary part of work. While some people use vacuums for this, others uses brooms and brushes of various types. The collected dust can be swept into a dust port.
A dust port. (photo: Jula)
Lots of other pieces of equipment are needed, including bends and clamps, to make a level 2 dust collector. Interestingly, 6 meters of duct costs more than the vacuum I am using.
Dust collection can be automated, and this subject will be revisited in terms of using an Intelligent Workshop Assistant.
Air Cleaner
While dust collection is important, it doesn’t eliminate all dust from the air. This requires the use of an air cleaner. Two projects by Canadian woodworkers, are especially inspiring.
John Heisz: http://www.ibuildit.ca/Workshop%20Projects/shop-air-cleaner-1.html
Respirators
Part of the Annex is slated to become a spray booth, to be used for the painting of wooden, metal and other objects.
A spray booth is a closed environment controlling air flow, pressure, temperature, air flow and humidity. The area is ventilated using electric fans, and heated with electric heaters to speed paint drying. Toxic solvents and paint particles are exhausted outside after filtering to reduce air pollution.
When possible, HPLV (high pressure, low volume) equipment is used. This is similar to a conventional spray gun using a compressor to supply the air, but the spray gun works at lower pressure (LP), while a higher volume (HV) of air is used to aerosolise and propel the paint. A turbine using a vacuum cleaner derived motor propels the air. This results in more paint reaching the target surface, reduces overspray, material consumption and air pollution. The system offers three advantages: reduced paint waste, short drying times, and precise and efficient spraying that reduces paint preparation and (often) the need for masking.
Despite the equipment built into the workshop, there is a need for respirators. At Unit One most painting involves only a few minutes of work, so the level of protection is less than that used in environments where people paint for longer periods of the day.
WorkSafe BC provides a free 136 page pdf book, Breathe Safer – How to use Respirators Safely and Start a Respirator Program. It can be downloaded using this link: https://www.worksafebc.com/en/resources/health-safety/books-guides/breathe-safer-how-to-use-respirators-safely-and-start-a-respirator-program
Painter, wearing respirator and safety glasses, but without protective clothing. (photo: Trish McLellan)
Are cell phone manufacturers acting in the best interests of their users? Well, everyone knows that shareholders come first, but even when the focus is on user experience, I’m not sure the engineers and designers are listening.
Today, my “Hawaii” telephone decided it wanted to update itself. It waited until I accidentally gave it permission, which is probably better than the situation with some other phones.
“Hawaii” cell phone, showing off its biometric fingerprint scanner (photo: Huawei)
When the phone restarted it asked for my PIN. A PIN for the SIM card was entered, 9898, but this was not what it wanted. It wanted a PIN for the machine. 8979 was then entered, and it worked. But that was not enough. It requested the PIN number again. 8979 was entered, but this time it wanted a PIN for the SIM card, or 9898. The problem for me was that the message was identical, enter PIN number.
Admittedly, age is playing its role here. There may have been subtle differences in the wording of the requests that I may not have interpreted correctly. What I find particularly disturbing is that the phone has biometric data about me from its fingerprint scanner, so that there should be no doubt as to my identity. Rather than using this, it insists on two separate four digit numbers.
This weblog post was updated 2021/12/21. to eliminate Weeds from the title. This post formed part of a Needs, Seeds and Weeds website that belonged to my daughter, Shelagh. In addition, other things are also out of date, or my opinions have changed. Apart from the title, updating the text to a block format and other minor formatting changes, the text above this paragraph remains as it was before. Any significant content changes are found below this paragraph.
It is the end of October, and the world, unnecessarily, is changing its clocks back to standard time, from daylight savings time. So much work …
The purpose of this blog post is to explain to millennials (and even younger people) some of the thoughts that dominate the minds of boomers, and even earlier generations with respect to keeping track of time. To help in this process is a table which lists the various environments in and around a house lived in by one retired couple (two people), and the timepieces they use – models from the Jurassic to the Anthropocene.
In their house, there are nine areas where there are no timepieces at all, and nine with timepieces. The living room (with two), the kitchen (with three), and the study used by person A (with two) have more than one timepiece. There are also two vehicles with timepieces, three portable timepieces, and three timepieces worn or carried on people. In total, there are 20 timepieces.
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Description
Placement
Type
Face
Power
Adjustment
–
–
entry
–
–
–
–
–
–
hallway 1
–
–
–
–
–
–
hallway 2
–
–
–
–
–
–
stairway
–
–
–
–
–
–
basement 1
–
–
–
–
–
–
basement 2
–
–
–
–
–
–
basement 3
–
–
–
–
–
–
attic
–
–
–
–
–
–
prayer room
–
–
–
–
1
Watch 1
person A
watch
analog
battery
wheel
2
Wall 1
living room
wall
analog
battery
wheel
3
Wall 2
kitchen
wall
analog
battery
wheel
4
Alarm 1
Bathroom 1
alarm
analog
battery
wheel
5
Alarm 2
Bathroom 2
alarm
analog
battery
wheel
6
Alarm 3
study A
alarm
analog
battery
wheel
7
Alarm 4
study A
alarm
digital
battery
wheel
8
Alarm 5
bedroom
alarm
digital
battery
buttons
9
Alarm 6
studio A
alarm
digital
battery
buttons
10
Appliance 1
kitchen
timer
digital
mains
buttons
11
Appliance 2
kitchen
timer
digital
mains
buttons
12
Car 1
car A
dashboard
digital
system
complex
13
Car 2
car B
dashboard
digital
system
complex
14
Desktop 1
study B
screen
digital
system
automatic
15
Media 1
living room
screen
digital
system
automatic
16
Laptop 1
portable
screen
digital
system
automatic
17
Laptop 2
portable
screen
digital
system
automatic
18
Cell 1
portable
screen
digital
system
automatic
19
Cell 2
person A
screen
digital
system
automatic
20
Cell 3
person B
screen
digital
system
automatic
The pendulum clock design was first conceived of by Galileo Galilei starting about 1602. His most advanced design is dated about 1637. It was never finished. The first operationalized pendulum clock was invented in 1656 by Christiaan Huygens, patented the following year, and built by Salomon Coster. The pendulum clock was the world’s most precise timepiece until the 1930s, which accounting for its widespread use. To begin with, its accuracy was only to about 15 minutes a day, precise enough to display hours, but not minutes. This changed in 1680 when 0.994 m long second pendulums, named because each swing takes one second, became widely used in quality clocks. These were first made by William Clement and became known as grandfather clocks. A minute hand, previously rare, was added to clock faces about 1690.
From the above table, listing all of the timepieces in our house, it can be seen that there are no pendulum timepieces, such as a grandfather clock or even a spring based mantle clock that requires a weekly or even daily winding. There is some progress, in that all the clocks in the house are electrically powered. Full disclosure: As an adult, I inherited a pocket watch, which, because it required regular winding was ignored as a timepiece.
I remember two timepieces from my childhood. The first was a Seth Thomas travel clock that I used as an alarm clock on a daily basis, the second was a self-winding watch. At the time, I regarded the self-winding mechanism as a technological masterpiece. The major challenge with all wind-up clocks was their inability to keep accurate time. Making adjustments (setting time) was a major preoccupation. There were various mechanisms used to do this. Official time signals from the radio was my preferred approach. In Vancouver, there was always the “nine o’clock” gun in Stanley Park. Church bells were a less reliable method.
A Seth Thomas wind-up travel clock, identical to one I owned as a child. (photo: https://www.yesterdayantoday.com/listing/522264416/alarm-and-travel-clock-a-vintage-wind-up)
With mains based electric synchronous clocks, the frequency of the alternating current (at 50 Hz in Europe, 60 Hz in North America) allowed for much more accurate clocks, under most circumstances, but totally useless if there was a power outage. These drive clock gears with a synchronous motor, that count cycles of the power supply. While there may be short-term frequency variance, the total number of cycles per day is rigorously constant. They are more accurate than a typical quartz clock. Electric synchronous clocks were the most common type of clock from the 1930s until a revolution in timekeeping occurred in the 1980s, when inexpensive quartz timepieces became available. Today, this is the world’s most widely used timekeeping technology, found in clocks, watches, computers and appliances. For further information see: https://en.wikipedia.org/wiki/Quartz_clock
The first quartz clock was built in 1927 at Bell Labs in Princeton, New Jersey, by Warren Marrison and J.W. Horton. It was accurate to about a half-a-second per day. In 1949, the first atomic clock, and by 1960, the even more accurate hydrogen master clock, emerged. The idea of using atomic transitions to measure time was suggested by Lord Kelvin in 1879. Isidor Rabi used magnetic resonance as a practical method for implementing this. The first atomic clock was less accurate than existing quartz clocks, but demonstrated the concept. An accurate atomic clock was built by Louis Essen and Jack Parry in 1955 in the UK.
So much for history …
Back to our house. There are two challenges with 13 of the 20 clocks. First, they are useless after a power outage. Second, they are hopeless at transitioning between standard time and daylight savings time. This is not an insurmountable problem. Modern solutions are presented at the end of the post. Before presenting these, two earlier solutions are sketched.
Radio clocks. The name no longer radiates the same aura of modernism, like it did in the 1960s. Yet, radio clocks still exist, such as the Rubicson 16009 alarm clock. It alternates between standard and daylight savings time automatically. It even displays an S during the summer, and stops displaying it in the winter when it is on Standard time. It is difficult to understand what the S actually stands for. Obviously, it isn’t standard, but it could be summer or savings-time. The manual for the clock doesn’t explain this.
A radio-controlled Rubicson alarm clock model 16009 (photo: Kjell.com)
This Rubicson clock is radio-controlled, which means that it synchronizes with a time code from a radio transmitter that is connected to an atomic clock. This one syncs with DCF77 a longwave time signal sent from Mainflingen, Germany. It is claimed that with its 50 kW power, DCF77 transmissions can be received as far as 2,000 km from the transmitter. Consumer grade clocks should be able to receive 100 µV/m signals, making it available in Bodø, Norway, at least during night hours.
DCF77 reception area (Map: Physikalisch-Technischen Bundesanstalt)
In the mid 1990s, I purchased a radio-controlled clock for my son, from a mail-order company in Oslo. They claimed that the clock would work in Norway, up to Steinkjer, a city at about 64° North, and about 1500 km from the transmitter. We live about 30 km south of the city, so I assumed it would work here. This was a bad assumption. The clock worked for a few days, but couldn’t connect to the time signal to update itself. Without a connection it stopped working. It would not allow a manual update. Since then, I have never considered using a radio-controlled clock.
An alternative approach is to connect a clock to multiple transmitters, typically from GPS and/ or GNSS satellites. GPS satellite navigation receivers generate accurate time information from satellite signals. Dedicated GPS timing receivers are accurate to better than 1 µs. Consumer grade GPS receivers may deviate from this, by up to 1 s. I can live with that.
In order to test the feasibility of a GPS clock, I used our Garmin Oregon 600 GPS. It was impossible for the GPS to contact satellites from within our house. While it is only conjecture, one reason could be our metal roof, which could have prevented satellite signals from reaching the GPS. The metal roof, does not explain why the radio clock would not take in signals. In desperation, the radio clock was taken outside the house, but still failed to make contact with the radio signals.
A French speaking Garmin Oregon 600 GPS (photo: Garmin)
One might think that the answer to a GPS timepiece is to use an antenna. The fact of the matter is, GPS timepieces make no sense inside a house in this internet age. The timepieces are very expensive and offer no other benefits.
Coordinated Universal Time (UTC) is used to synchronize computer clock times to a millisecond, or less. More than 175,000 connected hosts use the Network Time Protocol (NTP) to run an Internet Time Services (ITS) and an Automated Computer Time Services (ACTS). These are used to set computer and other clocks via the internet or telephone lines. By default, smartphones automatically update the time as it changes. When one travels from one time zone to another, the phone updates using ACTS to “check in” with cell towers. This adjusts the phone’s time, calendar appointments and alarms.
Computers have real-time quartz clocks on their motherboards that maintains the time. There is an associated small battery that powers the clock when the computer is shut down. Computers connected to the internet query a NTP time server for the current time.
Smart appliances controlled remotely by a computer, phone or tablet are becoming commonplace. The Internet of Things (IoT) has made its way into the kitchen. In January 2017, Whirlpool announced its Smart Home Lineup. These include a number of kitchen and laundry appliances that can be controlled via an app connected via WiFi. Unfortunately, they since this is a partnership with Amazon, consumers are forced into a relationship with Alexa. On a more positive note, since these appliances use NTP, their time will automatically re-set after a power outage.
Whirlpool appliances with wifi controlled timepieces, but with vendor lock-in to Amazon’s Alexa. (photo: Whirlpool)
While some of today’s cars can parallel park themselves, they seem unable to set or reset their timepieces. All that needs to happen is for that timepiece to connect to a GPS system or even a phone. There is some discussion that it could be 2022 or later before automated timepieces are standard.
This weblog post was updated 2021/12/21. to eliminate Seeds from the title. This post formed part of a Needs, Seeds and Weeds website that belonged to my daughter, Shelagh. In addition, other things are also out of date, or my opinions have changed. Apart from the title, updating the text to a block format and other minor formatting changes, the text above this paragraph remains as it was before. Any significant content changes are found below this paragraph.
