![enroute 4 material set up enroute 4 material set up](https://media.springernature.com/lw685/springer-static/image/art%3A10.1186%2F1471-2105-14-S19-S3/MediaObjects/12859_2013_Article_6187_Fig1_HTML.jpg)
Keep the heat down - even SSB mode it will get quite warm.Īs far as FM modes, 120~180 watt DK is about what you and the amp can tolerate - else the broad banded spectrum of bandwidth it will try to reproduce and handle from a widely deviating radio can punish these amps real fast in heat production alone. Once that threshold is reached, more effort you put into it, the less you'll get out of it. This is the height above the job at which it is. Clearance (Z1) and Plunge (Z2) The Clearance (Z1) is the most important setting. Sets the property named 'propertyname' of the material with the name 'materialname' to newvalue. Displays the property names of the specified material that can be modified. This command can only edit the properties of the materials that are NOT write protected.
![enroute 4 material set up enroute 4 material set up](https://www.axyz.com/us/wp-content/uploads/sites/2/2019/08/Enroute-Software-for-CNC-Routers.jpg)
These are also referred to as the Safe Z settings. Sets properties of a material in the material database.
![enroute 4 material set up enroute 4 material set up](https://www.multicam.com/wp-content/uploads/2014/09/5-7.jpg)
Hint: 60 watts x 4 = 240 watts - but that's relative in measurement because the initial to output 4 X the input takes a lot in - as input energy from sources used to power that, to convert that, into wattage - so you're looking at heating too. When you open the Material Setup form using the Setup Material and Rapid Gaps tool in the Toolpath Tab, you will see settings for Clearance (Z1) and Plunge (Z2). More than reasonable - just not sure of what you use to measure.īut I can tell you the 4X figure is pretty much standard for AM, there are limits to the amount of conversion the typical T/S or any amp can convert from low-impedance output networks to high-level (50 ohms is what I referring to) and do all of that from a typical power supply in volts X amperage and all the traces, points of contact and parts involved - all of it takes a hit in performance of the amp so what you got is pretty much what you should see - nothing too unrealistic.