Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
| Beide Seiten der vorigen Revision
Vorhergehende Überarbeitung
Nächste Überarbeitung
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Vorhergehende Überarbeitung
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microcontrollertechnik:2_sound_und_timer [2023/11/09 13:30]
mexleadmin |
microcontrollertechnik:2_sound_und_timer [2024/03/10 23:53] (aktuell)
mexleadmin |
| Nach dieser Lektion sollten Sie: | Nach dieser Lektion sollten Sie: |
| |
| - wissen, wie man im Atmel Studio eine Puls-Signal ausgibt | - wissen, wie man im Microchip Studio eine Puls-Signal ausgibt |
| |
| |
| ==== Video ==== | ==== Video ==== |
| | |
| {{youtube>6PWEpY6SlSc?size=700x400}} | {{youtube>_cRsC6pk_oc?size=700x400}} |
| |
| </WRAP> </WRAP> | </WRAP> </WRAP> |
| |
| | <WRAP hide> |
| ===== LCD Display ansteuern - wie kommt Test auf eine Anzeige? ===== | ===== LCD Display ansteuern - wie kommt Test auf eine Anzeige? ===== |
| <WRAP group> | <WRAP group> |
| |
| </WRAP> </WRAP> | </WRAP> </WRAP> |
| | </WRAP> |
| |
| ==== Übung ==== | ==== Übung ==== |
| |
| <-- | <-- |
| --> III. Eingabe in Atmel Studio # | --> III. Eingabe in Microchip Studio # |
| - öffnen Sie Atmel Studio | - öffnen Sie Microchip Studio |
| - legen Sie ein neues "GCC C Executable Project" mit dem Namen ''2_sound_und_timer'' für einen ATmega88 an | - legen Sie ein neues "GCC C Executable Project" mit dem Namen ''2_sound_und_timer'' für einen ATmega88 an |
| - Bevor das eigentliche Coding beginnt sollte immer eine Beschreibung dem Code vorangestellt werden. Hierzu kann folgende Vorlage verwendet werden: <sxh c; first-line: 1> | - Bevor das eigentliche Coding beginnt sollte immer eine Beschreibung dem Code vorangestellt werden. Hierzu kann folgende Vorlage verwendet werden: <sxh c; first-line: 1> |
| |
| |
| * Diese [[https://www.falstad.com/circuit/circuitjs.html?ctz=CQAgzCCMCmC0AcIAMA6J9KQJxgGxgBZdIBWJfEyEM6kAiEuTAKACVk7FZI9OoQATFCQjRSQShISp41CWYCkAdiiLB8cZCQF1iHQGEAygOYAZVeIEaL4bYI4AzAIYAbAM7RaSM1BJCrmn62OkLizu6eMgrKvv7WPLi6dCBGkNEqkPAh8biIVnopht7mmdmaWcH2VOEeXswA7lAVAU0h6MjMALIguLhlPX2V-pI+WXnWY0OOrrVRiiqTLfBgcQUAOm5KzAAeIPDE4GCIWPTgBFQhOgDy+qxIAILpe4NLBOPrbrijLxODYHahEA1SIdczwLCJJYQqbVGYg7zzPbQpbWfLJDYEJ7wVG-bIfeRgnHibHif4haYROrmE79GlTMJwuqIuktLBWJI6DZpZm4SzWFnY9FuYogCF88Ri+lAxlRans1nsslVaWUuYxNnjCWQVZCkzM7XqYnIwWctxgHxYA2sg1KwHAurdXLinrWW3SLogJRW6xeoRugQjR3G8S4aH+wOe3mGyOkgHu7pKJSQn1JqYB+QJgj9JRZtMRpTyn2KuPpnxgIKClaIQVCWGqjq7XAkKRgMBYT0rM5CS4gAAq+gAcr2RaRa1GElAo3aZaDYj0dBOXhTZh1GlmuG9BJ3YJvvI0BNvNwehINvLssO3W+3sC2CN3BDp+7ckAAhBqeg2j0W5Od7z12SAoywVNANkd9Q0SQDjgqKDVxdRBIFTLAYNTbx2H2HRYBRcQsOsWQ6HEGQODkZhSjnQZsBPBdwFIl4dD+KjBG0a9CK8YiOCI1j7T-L9EMgoJQLgr9oQLb8hIEg14gNP9RMgXN4lzP8FJ0KTQnfXj2UFbVECUhDNIQ1D3y01NZMMxpeNzaE5J0P8rMsyF2lshzEFExQdPUitiS8uCJm83d3wENodKY9zGksRy+D-cRN2sfzzKCFovwEQDxP8FLFEsFK-wywR0pEEK4OS5zcshQLCvSsrtUsMqeLUARKrqvD32QhcfxaycwMaYDIKAkDFOavqdHa6y4IhBCgjG1RQu-PToIXdknK4OaQAQUafxSybVts1Nlum7qH1FHbRoqTt2pq98lCCAgJQqa64KTUkhHazsZJ-Mr9vOxpEx6mbJw6QDEgwRJcOJMqQaYgh23gZgAEIUgAewAWwABycAAnJwABd4bRjgAEkkAAGg2PHIGJtw8YEcm8bAcmACkiY2OmyaZqmmYgABFBGUfRrGceQMRRDWABHSA1gAO1ELQRDF0WJZlqWkBFsXJaQTAZdllW1cVpW5clrQDbV5X5fVtWtGN-X1cwTWJel7WRAt6XTZt8XDcNx2zYNl3nelx2vYNv3-d1lXrdDl2AH5I6jyORaV8XomW2BRIvIQk9rbnUYx7HcYRdp2sGFP534fQkczvmc+aqd+SjHc9tzVl69PZqgh3CUEqbrr26GxubOawsJXlEhElswfEhZIfRvrie6VgF7mt4LCht4QK9uXzdLX8OLRStdfvU6pFkyNQHpuxY5j7yDu9hrQYSUES-b4EG+iR8n5iReCelPf4-LA-ozUQn2+Whe6NEWBMI8W9FgxVchA6B1ZZLSVIjQIBwUtCiU0PYQi6kkDbgQtoJaQk8F7GEJ2aaWgSHEMYn+XIeRNzUKgGZAYlxEB0JXnBXo-R2EPmmhBQQE8eGwSof-RIPCBC-0aE6aMEjRHD3AsiQYIimpfQBPIuRwD-ytXEEoZRajfTRl0V+GS8pNwFk1PdBKxijHTUut2TR5irFTgng9cAakvpT0SE46R9164+jcfdN6gwPGXyTDQyMF8dFV00VOIJqYWjfT+rnFQJi9HegKOaREOZsyFgKHqGIcTYlVwKAkmMejvEFG5DEBRIYcQFHkOkvePRjQFExIiKR1hOFonok8dpbSjwmk9JXZhQ0KiX0moKSaIydo3RUvvfa0J9qKNFDBOw7VoRKXgU9GCCCQHxGWUstRp8xKzJkSA6EYyfyCkWitZOFQ05rQ3GfLgaCBrA2njcsRh1gZ3X2rAd57VZ4bMwndWyC93o3M+qKXM-zFmYTnp3VOXzUytzWjhdeP5a5mJsdQVMQL3wkFTJ2JxsLqA3JSni4GWVcXNB0CQElxzqBshWpuMljLpo0p7MEg6f4SAMvRdysccE+V-TiRSxogqvz6KCFyhl1gxWSspRo9RHUBXSsIpMgVMEoxsqgFsrFPVmFWR-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-tZdES5hnLn2eo8Z8t4rLO6d44q9twbzOXMLYEPt-4x2ZuC5c7lhX32udY-h09xHuWldmlG4QTzyvZfA4W8bs0bWdsq6t6V-XIuaeG5c4r1znPfuw51yF8s-OzQ9bwKV-bjvbejsD6VrbNuzdHFK6j66puxelYt-ro77vufY6y3HpHbhM-nAxLlyH123v3ea7z57hfbvF8e2TlP5f3ufae1L2vleM9tabx9kvT2y+vYr+3qvqupui5b4n0rZ32ejbW3l-3GJnsDhxk73PZoLej5c+P1HYP3PZ-omsDYiOlY78kNvtwPWxb85NybvLh-XNn6P850-wpD89avxfjYwIH+H8RyfpHO+3-P6-zf8-n+T+XmABl+7+P+gBb+IBd+wBN+f+6Yd+8BoW3+SB9+KBH+oB1+x+GB-+sBEB3+5+FWyBeBOBWB0B4B2Be+sBhBqBxBMBpBf+dBt+f+lBPW1B6BZBUBDB5Bd+LB5WYBcBB+Ahj+l+ghT+iBYhohIhPWlBKW+BsBMhkBR+zA5wl69y1AY6nYVAcGiGyGqG6GmG2GuGPQnmyA++PWUgdOyBFhvu5hUANhJhfWL+cI5+mgvu6OdhWe7hlhqB1hnhJh3hXhbhDhLmkgggIRUgC2IYJhEOHhuWgRfhR+sRVhxhwoSRPhaR8RcR0RO+GR-hQRiRAR2RqRhRBR+RvhWRiRkRYRwOoR6utR4R1R6YjR9RNRMgGwc27hiOHRnmuKIEP4pq-UoqmyQgpqOqzKd04xrK+KIxfR-qMQzKgUIY7QixyQpG5GSMW6FY4A0qyQQGIGYGEG8c5g5YQgemmkyo9oaoKgCx7QvIeQ7QOgiMTg2w6k3amgE4YEAaHx2qIKOgBg-YiCpInk4AFQ8QjGtSMQJxnofo7I16KQAJxG34VAs8o60JyJckKgZ4HYUgs82Coo+UuJ+6ZUDgOMK6gGAAXmuq4BSVjIcViClHOnujhIJDoFsIiEDNOqCQSWap0uyQyd2hoDhG5MkM0jEByVhPlIKdOgytSvScDH6lKVhBPAuHKStEsASQrveJOvyTFBqXdCEKqVhCQhqWVDoOaIiUitwEgDibBIFJiTsNOpQFci8oCn+gdGuvoBsPoHDgeq+tvq7Ijp0AABLknMCIlWDthWnAyomBQyK7DcDImJgQpXJ-EHQGYgaGAHquCYaIKDrQiOqjojGQTmopSyRDrQkdBNpQmMlEa0p5CdpEb9yNk0LuQlBVhBrtl5oqgFpPA8BNk8ApLJBhoRoviZqqCvzjlmlxjxo9kBp+o5q9IFDDmvg8TtmsLah3SsK1RPobl5DvLag7nzkLIbmER5kmp0rajTyDqormqVqfgrFbmvF3m1grH7ndpllZS3l7nXlnwNjgBjpKB6bARXJSA9h6GBZhl7BICpyoKCDIRnDtjeCImoJcCwUYAhAHBYnwCCZJxjyQxXK1oHQlw8xZw4zqSECYQjotr5SrlBAFm5i-ykDzQTxQrag2qaH2BSDyBdrsUvk2r+RMWqCOoATllAIma0DcWqDPlCWQQ6psWQQiWnKkIWqLwyVqlqLageruqpzHnRqOr1QhBvllSeLahgw4pdpmWaCeJIo8TYI6UUJXIuKqCflVrAyXxJqaDKCAhIVEY0rToxBaD7B3xUBYlaA4BXLXiKA4nYoHQADqTg-mKA0W0A8cZad44m40yUZwFwB09ar4PgpAAI8QZAU55IM58IvZJVQabw7wyQsV0WEaOSGQQ8pipACUfS9VEaY5A6rVLVMI3ZFVAaBA6yUABA+l+6nVIgBV+AcQmgM1Uolxf5bVZpbYk4NAhA94ZUeVjwd4EALwdE-gTcu1D4h1UggUfo+F3gx1+19EZp-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-oPlchfgJGbBQkITZhcwPDK0EQtFB-e2DIGgKIN1EPKIhwLWCdPQ00FQMFNdPBWwxxlAPw9gCpBwMI6w8gOwyIJw7gNw-4FACcDREAA|Falstad Schaltung]] skizziert die Struktur des Timer/Counters | * Diese [[https://www.falstad.com/circuit/circuitjs.html?ctz=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-IbIKAuYtYWR0O8IuOYQAr-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-rLv2+eu8AyIUxN-O+OD+xBEZC-0Xv+tJf5rk0pxD4pALCjAgYRE02wK4QOvHISB21CrIKQRCMK1B1IILYl9SYyp-74Nwq9WYk4xA4S+AFKYMxqGUJQlIAeMgGFMLwcGRATDGH0KJKwNh99UJnDmMwvqoEtiCI9NPWCw18yiLwWBSs+pP51kPpYJReRHpuDmKoiRN0sxdW0TUZCSjR7XQMU5CsfCqwzEsQoCx70VF2ICtmZeTi6FaQrLdax-0yiqKjJGOobpvEVijA3W0ChKTFiLDmUk5o5QuMrEEuospDBCLyGw0JjJvHd34XSCkZQ0k8OpHUGEeTT7TDBHUG4lctroQqNPdayp1p1N2nyCoVE7zHU2i8Zpp1n6DQqMpaKyE1J3R6qAh+vSRkQLwbvQKHTAoORZONLaypRpLSUhUJOJD1p122YRdphYCDITzuIPhcy25dJkIcka7SNnPVIg9aKyoyJ9NIh1ayw87niGMS3e5fIDkPJgjoqAhYAXAq9MwIxJDIAbIKpAA5-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-DZGdGgiIxlFceAcnXRXFgAyC4aM8YS27S+59aNpOyZCFIK4KA1MAglvugA4ljPAemjPKauCINT3w0aWefTZkIDmQiShlOLNGpmLNWbc2AaEMoFNoycPDAA5oeydGnkZ9sxm5nzfmXPWZkzKSAIWZQqbRk5lLiWgueZU55lWvmzN5bS+5mUhnPNBdK-51zFWcBECyzKBzOXnMBca8ZzzHnmt1fK-pyQ8mu04GM2FyL0XvjxbiwlirtXwtRcnVNzGM3EsZbRoJkTYmJNSca+LEICnPP7ZyFV1TG3hOifE0ESTiWu2HfMDKZrB2u3rc25dnbbmnuHa+wVv8Z3kudcG91v7B2fO5cB-J-b6B5PrYBw1-TV5WvydC297b13dsI4ywdmH8mPOKv+2ViHoP5NfcM+1gb8nqvwG65sEzhP4e4+R-JsbqOrs3bm3dq4tPXQFeQAT+rqWEfVb566MHHWGei654dsAsP6eC6579mnKOLto-Z-pmX8mudY+kFz7rsuBeBf22AGnbXwcS7AB5mgymStw-l66YX0u+us4+xV+gmvyRdqo8pw762FuTem-FtziPxuLeW6txrfW-dLYD7N9XZOo9h8D67nzCeY+BfmxN6PK2k8I7a7btzXv7cK8ZwdgrTX0tc+U7V2cOMKfkiN8L37eOy9PZO0p8kmELhXC7SrbvGgu8hCx+LTXqnVOeYHwp0fg+5Mj9VAPrHk-x9XBRPPgfI2J9r9X0v7HU+h8b93zPnfc+x-D6Pxlk-+-p9j8X3GWft+DOb4f934Lz-t+L-P9Pt-q+L+z975-wzr+p+7+W+QB3+n+oBz+Y+ABc+X+B+sBV+4Bl+f+WO0B6+s+H+e+6BIBSBW+qBd+-eR+9+N+BBxBC+E+JB5BWOf+DmkBn+1BYBjIVGwgW6JKtcEI8gl6N6d6D6T6L6b6H6kwDIQgfeWOmgUOr+Yh7uohpAUhQh92y+QoY+Zgshg+Mh2On+kh6hL2ahh22h4hMBmhuhch8mGgCgJhmg1WFh3eghqoOhEhdhBhDh2hlhThQh+heh7uzh1h7hbhnhvhWhQh1WyhARqhPhoRfhqhQRZhB2phh2cY0R8RcRsR5hCRphXaHm2h6REh2EeamoIqLEkkvKt0RRjKhYEIvKXicovKf4PC9Uo6-6gGwGlIrY94GwwwEIB6x6UQLRuqHYZwb8PYW4MShg1RwU0qiUlgiMAQtwxaI0pA+4UUZqCx8xBQzyRQNgM4YC7YK4CQZ4Uk-GtEzRK41YnYmotgmxf6EE8gI8taDY1xOkhgL4+YMuXy1ALwagI8ag3EfgOMVw3ah6AAXn2sEICVjIevDPHAcMDG2rFKwM2p8DcFCZcm0KYHCaNjIJhI2sDA1KiXqsFJYLknKCcJcqVLiRICnHBFiSSfvB8ewkUEkkDCSRFHCdThOMMYyXqkArSfUfaESdiRgrSQlJYG6JcechIJgJoM2iOo8XcKipANcQcpAPchiV8CAH2jYFcDYNdpOqul3jbF2mMAABIAm8CXHuAkDimXK3F-jXL3ASAKmGB0CpwEmqncZox4B2CTrBAvpgKVqOhDK1pIRrgNoqoNTaRVohTjD5AJBSn5AwpbQLDwKSAhJmArAjq3hNBplHDJmcbGhhpuqUg5nZmBl0i+rAQBpGCnyShsjGiurCiFkxp5CSiXjWq2rATyRZmELNluCfzVlJBDKEJ0kRqPyVkzARrFF+kyB8KShHKVpzw0pGC3TDLdmuKdRLn6grnTlhmKANSsqLmmL7nzKykllJycbHSpyaDcQ8E6aykiA4ZJwISQypypqqnFw8yZw4ymTICrSpk5qlQdkJABmahXw5BGrIQjw7kfKKA+CaBJkRkQVGDDzZSgVGBDLeCSgeToUwUhmLleo7nqokIYVrjoURkrJarnitR0lrERrXiUWIJ7mqpnADkJRDmdQsXMW-KypgxLlUWgrmCII4KpyEW7lGAlp4KMW+DmAwKRCXGSDQqopyjmCsiHzyBPHmBEAQBJwCRUCSkgqqkADqAQWm0A5meA8ccaCARGcgMQqGVGv4-4gEIEO4WwrQHwwptZpo9ZZqbl2Zog5SRQ+l5mdqvJ2Q8E9YOQuQoSgVdqFZFa4VYVAodZBIilqAigG5sAA5nw0V2AUQpwb8rQUgY4eZnlPQcag4wpH4pw4C449lIA6a-wQICAEAx8k4e8V0TVXwe8mgf4GwT5kQHVLVPE2UA1EAyAGGdlY1aIHVpgqGSpXSCac1-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-eSWye-SBLJYVRaVJfkFIK9VII9RFeAAKgkPQNZdBZJAqHlKBggyhGOsxGOjUShHsTCXsXXJJPg7SGOgQ3eBSoKjJGMmCm3ZhLkXgscp5C8ANAtHkYNNSnuRhBtC0nLRwwRMwBpWuC5JXJ2IWAw0I5MMFFKkXeI+MeidQ3I1pA4vmFEoou4lmJ9HuREtg1o8qnqOePOUtJ-EPDaCyOItMmYyvFPOY0xQhJaKck3INLPGtJaLdJw9g95Go+qMIpcSgEPApUOIrO8I9bJVkJKeYBvDwIfCZPDKQAWDBvQG+LoFIG8LoELB0vBCkx0HE26DE6NoeDRBdBENAMhqQLwEAA|Falstad Schaltung]] skizziert die Struktur des Timer/Counters im CTC Mode |
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