I have an IC2200H mounted on my operating table with 25mm clearance above the radio and ample room for convection currents to assist in heat removal. It is concerning that the case temperature reaches temperatures that are not safe to touch, temperatures in excess of 75° (55° above ambient) have been measured and that has not triggered the internal temperature protection… so it could get hotter still!
Whilst it might take a while for the radio to reach high temperatures, in the long term, it must dissipate around 139W when transmitting on HIGH power setting and at ambient temperatures as high as 35° in the shack. (Rated input is 15A at 13.6V for 65W out, leaving 139W of heat to be dissipated.)
This is one of those high power mobile radios that advertises no fan as an advantage, but it is clearly not up to the task!
The objective of this change is to keep the external parts below 60°, the (ASTM standard C1055 1999) 5 second human skin burn threshold.
Continue reading Cooling an IC2200H – update
The Banggood large screen digital clock kit is an inexpensive kit (A$13 inc case and post).
The clock uses a DS1302 clock chip and microcontroller for display. The microcontroller is a STC15F204EA, a Chinese 8051 microcontroller.
The kit is supplied with Chinese instructions, but a Chenglish version is available online. The only reason I needed an English version is to understand the somewhat obscure setting procedure, but the Chenglish version was not clear about the so-called “timekeeping” settings. Continue reading Review of Banggood digital clock kit
Peter, VK3YE, describes a small transmitting loop (STL) in his video at https://www.youtube.com/watch?v=Cv_RnLpZ9gw.
As far as I can glean from the video, it is made from a 3m length of copper tube 19mm diameter, and uses about 1.8m of RG213 to tune it, and appears to have its centre 0.7m above ‘ground’ .
Let us firstly look at a free space model of the antenna using Reg Edwards’ RJELoop1 tool.
This model has its limitations, but the calculated inductance is of interest. We can calculate the inductive reactance to be 118Ω. The capacitive stub of RG213 will need around 107Ω reactance, and solving for RG213, we find that 1.94m gives 0.19-j107Ω. The resistive component is important as it is ignored by the above model. The stub resistance is a loss resistance, and we need to recalculate the efficiency. Efficiency=Rrad/Rloss=0.005/(0.19+0.0351+0.005)=2.17% (-16.6dB). We can also calculate the Q as 107/(0.19+0.0351+0.005)=465 and half power bandwidth as 7100/497=15.3kHz. Continue reading VK3YE’s 3m circumference copper tube loop with RG213 stub tuning
I purchased an inexpensive two channel thermocouple thermometer on eBay. It was very low cost (A$24 inc post) so there was risk that it was low quality and since cost of returns is so high, that it was wasted money.
But it was junk…
In fact, it did turn out to have a major problem. Continue reading Dodgy Chinese thermocouple thermometer
The generic heating / cooling controller (hcctl) is a flexible bang-bang thermostat controller based on an ATTiny25.
The test load is a pot containing 1l of water and a 1200W immersion element controlled by the SSR above (on-off control). The controller board is a ‘fully optioned’ test framework, hcctl is the left hand DIP8 and the other is a TC427 H bridge (not needed for this SSR which can be driven directly from the ATTiny25 output pin) for buffered output and alarm. Continue reading A test run of the generic heating / cooling controller with 10k NTC thermistor sensor
A lost soul searching for enlightenment on impedance transformation sought advice on a transformer at 2.4 : 1 BALUN.
Inevitably one of the forum experts counselled:
Assuming your quad is a single-band HF antenna, a conventional transformer using #2 powdered iron would be my choice for the balun function. The reactance of the secondary winding would need to be at least 600 ohms.
So, let’s put the forum expert’s advice to a practical test.
Fleshing out the proposed solution
I have at hand a T200-2 core, so lets calculate the secondary turns to satisfy the proposed solution.
Above is calculation from a popular online calculator. For 14MHz, the secondary should be at least 23.8t. We will use 24t. Continue reading 2.4:1 balun design failure
The Neosid 28-053-31 ferrite toroid is used in my HF Balun Project.
This article reports some thermal measurements and analysis made in relation to the project some years ago, but possibly of interest.
Above is the Neosid 28-053-31 ferrite toroid in an implementation of my HF Balun Project using XLPE wire for the winding. The core is a NiZn ferrite toroid of 63x26x19mm (larger than FT240 size). Continue reading Thermal observations on Neosid 28-053-31 ferrite toroid
We often see statements by hams where they draw inference from observed temperature rise of a ferrite core at RF. Lets consider the following statement.
The FT-240-43 balun MUST be quite efficient as it barely increased in temperature over a 5 minute over at 100W on SSB.
For the purpose of this explanation, lets assume
barely increased in temperature means 5° increase in temperature from cold. Under these conditions, we can reasonably assume that almost all of the heat input to the core is consumed in raising the core temperature. Continue reading Interpreting temperature rise in ferrite cored RF transformers and inductors
I mentioned at A walk through of a practical application of AIMuhf/AIM900 that I wasn’t all together happy with feed point R at resonance, at 40Ω it was perhaps a touch high for a 2m quarter wave ground plane on a largish vehicle roof.
Repeated measurement of the DC resistance from the coax plug sheild to car body yielded unstable resistance ranging from 1 to 10Ω. If stable low DC resistance is not achieved, this feed line won’t work properly for RF. Continue reading A walk through of a practical application of AIMuhf/AIM900A #2
Report on Hobbyking 40A ESC 4A UBEC 9261000003 / BC3530-14 brushless drive reported a set of measurements on a test on elements of a drive system which is the basis for one of my flying quads.
This article reports some interesting characteristics derived from the measurements.
- Gemfan 11×4.7″ SF propeller;
- BC3530-14 1000Kv motor;
- Hobbyking 40A ESC 4A UBEC 9261000003 (BEMF caps removed);
- SimonK commit 02bd8e4ca36a06722efe51bc7cd5130d72a184b8 bs.hex with 2000ns dead time; and
- 4Ah 4S Lipo battery.
Keep in mind that the application for this drive is a multirotor, and hover speed is around 3800RPM, so efficiency in that region is critical to battery endurance. Continue reading Report on Hobbyking 40A ESC 4A UBEC 9261000003 / BC3540-14 brushless drive #2