Here you can view the report of the route Garmin conducted by Frese. In total 111 km and 1341 meters accumulated. The report is unlocked so you can see more details, instantaneous speed, elevation, heart rate (obviously mine), etc.
Sunday, May 30, 2010
White Pizza Broccoli Calories
the ash grove road
Here you can view the report of the route Garmin conducted by Frese. In total 111 km and 1341 meters accumulated. The report is unlocked so you can see more details, instantaneous speed, elevation, heart rate (obviously mine), etc.
Here you can view the report of the route Garmin conducted by Frese. In total 111 km and 1341 meters accumulated. The report is unlocked so you can see more details, instantaneous speed, elevation, heart rate (obviously mine), etc.
Tuesday, May 25, 2010
Cruising Gay Richmond Va
Photos Cristo de la Sangre 2010
Here are the photos of the route Cristo de la Sangre 2010. Will be updated as "the photographers" the share. As always, "click" on them, can be downloaded in high resolution from Picasa.
Here are the photos of the route Cristo de la Sangre 2010. Will be updated as "the photographers" the share. As always, "click" on them, can be downloaded in high resolution from Picasa.
Tuesday, May 4, 2010
Pokemon Crystal Play For Free Unlimited Saves
Shield to arduino practices for cyclist March
All of us associated with the electronic scene, we know that for PCB's (printed circuit boards) are often used more or less professional programs for its construction from a given schema. These programs can be ORCAD, EAGLE, PROTEUS, etc. But in many cases we may be killing flies with cannon fire, as they say. For example in the case of teaching middle-level vocational training or even technology that, we could use free ools that fully meet its mission and a very fast learning curve. This is the case with the tool I am presenting and I'm using in my classes "Electronics Digital and firmware "in the cycle average" consumer electronics. "This open source tool called Fritzinger as its motto states, we can make an entire application eletronic product from prototype to integrate perfectly with Arduino allowing fast and intuitive learning. In this article I will show the shield or plate for integration with arduino we do in class and then be used by students in practice. The aim of the plate is that it may perform operations most basic input / output, such as:
The outline of the plate as shown in the tab Fritzinger scheme would be:
The compoenetes that were used to complete the circuit are:
Once the scheme and giving in the tab "PCB" of Fritzinger, we can see all our misplaced components and put together by a series of lines that indicate their electrical connection. To make the PCB, it is essential to place a logical form as possible components in our plate, because a misplaced tracks will intersect Fritzinger and therefore will not be able to trace them without crossing in which case we propose the construction of a bridge to solventral the problem, but we can always resort to manual editing of the tracks to see if we can remove them.
In the present case, the placement that resulted in a printed circuit board was made a face:
In the picture above we can see the tab "PCB" with components placed and tracks laid. Fritzinger To help us to trace the tracks can give the bottom button of "autoroute" and if the track does not convince us we can edit the tracks and reassemble the components to our liking.
Once we have completed our PCB, we can give the button "Export to PDF etching." This option will create a PDF file ready to print at 1:1 scale that will allow the physical realization of our board.
The following images we can see the circuit as seen from the component side, viewed from the side of the tracks and inserted into the Arduino board.
Fritzinger
The draft and the plate in PDF format you can download it here . 
All of us associated with the electronic scene, we know that for PCB's (printed circuit boards) are often used more or less professional programs for its construction from a given schema. These programs can be ORCAD, EAGLE, PROTEUS, etc. But in many cases we may be killing flies with cannon fire, as they say. For example in the case of teaching middle-level vocational training or even technology that, we could use free ools that fully meet its mission and a very fast learning curve. This is the case with the tool I am presenting and I'm using in my classes "Electronics Digital and firmware "in the cycle average" consumer electronics. "This open source tool called Fritzinger as its motto states, we can make an entire application eletronic product from prototype to integrate perfectly with Arduino allowing fast and intuitive learning. In this article I will show the shield or plate for integration with arduino we do in class and then be used by students in practice. The aim of the plate is that it may perform operations most basic input / output, such as:
- digital outputs via three LEDs on the outputs 11, 12 and 13.
- digital input with a button connected to input 10.
- PWM analogue output with an LED connected to output 11 of arduino.
- analog input using a potentiometer connected to the input analog0.
- Output 220 volt loads connected through a relay connected with the arduino exit 9.
The outline of the plate as shown in the tab Fritzinger scheme would be:
The compoenetes that were used to complete the circuit are:
- 10k potentiometer R7 S1
- R3 button
- resistance
- 10k R1, R2 and R6 220 ohm resistors
- LED1, LED2, LED3 LED diodes
- resistance of 1000 ohms R5
- 194935 D1 K1 relay 5 volt transistor Q1 BC547B
- strip J1 2-pin connection
Once the scheme and giving in the tab "PCB" of Fritzinger, we can see all our misplaced components and put together by a series of lines that indicate their electrical connection. To make the PCB, it is essential to place a logical form as possible components in our plate, because a misplaced tracks will intersect Fritzinger and therefore will not be able to trace them without crossing in which case we propose the construction of a bridge to solventral the problem, but we can always resort to manual editing of the tracks to see if we can remove them.
In the present case, the placement that resulted in a printed circuit board was made a face:
In the picture above we can see the tab "PCB" with components placed and tracks laid. Fritzinger To help us to trace the tracks can give the bottom button of "autoroute" and if the track does not convince us we can edit the tracks and reassemble the components to our liking.
Once we have completed our PCB, we can give the button "Export to PDF etching." This option will create a PDF file ready to print at 1:1 scale that will allow the physical realization of our board.
The following images we can see the circuit as seen from the component side, viewed from the side of the tracks and inserted into the Arduino board.
Fritzinger The draft and the plate in PDF format you can download it here .
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