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https://elektronikforumet.com/wiki/index.php?title=RF_Protokoll_-_Nexa/Proove_(%C3%A4ldre,_ej_sj%C3%A4lvl%C3%A4rande)&diff=3093
RF Protokoll - Nexa/Proove (äldre, ej självlärande)
2010-02-23T17:09:05Z
<p>Tord: </p>
<hr />
<div>== The NEXA/PROOVE Remote Protocol ==<br />
<br />
<br />
The RF remote control transmitters/receivers from NEXA and PROOVE seems <br />
to originate from ARC Technology Co Ltd, Taiwan. There are several versions <br />
of these products but they seem to share the same protocol.<br />
<br />
Bit representation<br />
------------------<br />
The bit coding used by the encoder chips, for example M3E. from <br />
MOSDESIGN SEMICONDUCTOR, allows <br />
for trinary codes, ie '0','1' and 'X' (OPEN/FLOATING).<br />
However, it seems that only '0' and 'X' is currently used in the <br />
NEXA/PROOVE remotes. <br />
The high level in the ASCII-graphs below denotes the transmission <br />
of the 433 MHz carrier. The low level means no carrier. <br />
<br />
<PRE><br />
'0' bit:<br />
____ ____<br />
| | | | <br />
| | | |<br />
| |____________| |____________<br />
<br />
|----|------------|----|------------|<br />
T 3T T 3T<br />
<br />
'1' bit:<br />
____________ ____________<br />
| | | | <br />
| | | |<br />
| |____| |____<br />
<br />
|------------|----|------------|----|<br />
3T T 3T T<br />
<br />
'X' (OPEN) bit:<br />
____ ____________<br />
| | | | <br />
| | | |<br />
| |____________| |____<br />
<br />
|----|------------|------------|----|<br />
T 3T 3T T<br />
<br />
'STOP/SYNC' bit (Note! Longer than the data bit):<br />
____ <br />
| | <br />
| | <br />
| |__________________________...____<br />
<br />
|----|--------------------------...----|<br />
T 32T<br />
<br />
If the time T is 350us, one data bit time is 8 T; 2.8ms.<br />
</PRE><br />
<br />
Packet format<br />
-------------<br />
Each packet is made up of 12 trinary bits followed by a stop/sync bit.<br />
Packets are sent n*4 times or more.<br />
<br />
If we call the 12 data bits b0..b11 where b0 is sent first, they will have the <br />
following meaning:<br />
<br />
b0..b3 (4 bits) - House (address)<br><br />
0000 - A<br><br />
X000 - B<br><br />
0X00 - C<br><br />
XX00 - D<br><br />
00X0 - E<br><br />
X0X0 - F<br><br />
0XX0 - G<br><br />
XXX0 - H<br><br />
000X - I<br><br />
X00X - J<br><br />
0X0X - K<br><br />
XX0X - L<br><br />
00XX - M<br><br />
X0XX - N<br><br />
0XXX - O<br><br />
XXXX - P<br><br />
<br />
<br />
b4..b7 - Unit<br><br />
0000 - 1<br><br />
X000 - 2<br><br />
0X00 - 3<br><br />
XX00 - 4<br><br />
00X0 - 5<br><br />
X0X0 - 6<br><br />
0XX0 - 7<br><br />
XXX0 - 8<br><br />
000X - 9<br><br />
X00X - 10<br><br />
0X0X - 11<br><br />
XX0X - 12<br><br />
00XX - 13<br><br />
X0XX - 14<br><br />
0XXX - 15<br><br />
XXXX - 16<br><br />
<br />
<br />
b8..b10 - Unknown<br><br />
0XX<br><br />
<br />
b11 - Activation<br><br />
0 - OFF<br><br />
X - ON<br><br />
<br />
<br />
Note! This work is partially inspired by the previous work <br />
done by Per Mellander and vfr (Håkan Nilsson).<br />
<br />
<br />
Revision History<br />
----------------<br />
2006-10-05 Tord Andersson Created<br><br />
2006-10-13 Tord Andersson Added chip manufacturer (MOSDESIGN)<br><br />
2010-02-20 Tord Andersson Removed dead link to Mellander's project<br><br />
2010-02-22 lgrfbs Add PRE kommand to fomat the text for wiki see "Diskussion" for link about wiki formating tips. <br><br />
2010-02-22 Tord Andersson Additional formatting.<br><br />
2010-02-23 Tord Andersson Added reference to vfr (Håkan Nilsson).<br></div>
Tord
https://elektronikforumet.com/wiki/index.php?title=RF_Protokoll_-_Nexa/Proove_(%C3%A4ldre,_ej_sj%C3%A4lvl%C3%A4rande)&diff=3086
RF Protokoll - Nexa/Proove (äldre, ej självlärande)
2010-02-22T14:13:27Z
<p>Tord: </p>
<hr />
<div>== The NEXA/PROOVE Remote Protocol ==<br />
<br />
<br />
The RF remote control transmitters/receivers from NEXA and PROOVE seems <br />
to originate from ARC Technology Co Ltd, Taiwan. There are several versions <br />
of these products but they seem to share the same protocol.<br />
<br />
Bit representation<br />
------------------<br />
The bit coding used by the encoder chips, for example M3E. from <br />
MOSDESIGN SEMICONDUCTOR, allows <br />
for trinary codes, ie '0','1' and 'X' (OPEN/FLOATING).<br />
However, it seems that only '0' and 'X' is currently used in the <br />
NEXA/PROOVE remotes. <br />
The high level in the ASCII-graphs below denotes the transmission <br />
of the 433 MHz carrier. The low level means no carrier. <br />
<br />
<PRE><br />
'0' bit:<br />
____ ____<br />
| | | | <br />
| | | |<br />
| |____________| |____________<br />
<br />
|----|------------|----|------------|<br />
T 3T T 3T<br />
<br />
'1' bit:<br />
____________ ____________<br />
| | | | <br />
| | | |<br />
| |____| |____<br />
<br />
|------------|----|------------|----|<br />
3T T 3T T<br />
<br />
'X' (OPEN) bit:<br />
____ ____________<br />
| | | | <br />
| | | |<br />
| |____________| |____<br />
<br />
|----|------------|------------|----|<br />
T 3T 3T T<br />
<br />
'STOP/SYNC' bit (Note! Longer than the data bit):<br />
____ <br />
| | <br />
| | <br />
| |__________________________...____<br />
<br />
|----|--------------------------...----|<br />
T 32T<br />
<br />
If the time T is 350us, one data bit time is 8 T; 2.8ms.<br />
</PRE><br />
<br />
Packet format<br />
-------------<br />
Each packet is made up of 12 trinary bits followed by a stop/sync bit.<br />
Packets are sent n*4 times or more.<br />
<br />
If we call the 12 data bits b0..b11 where b0 is sent first, they will have the <br />
following meaning:<br />
<br />
b0..b3 (4 bits) - House (address)<br><br />
0000 - A<br><br />
X000 - B<br><br />
0X00 - C<br><br />
XX00 - D<br><br />
00X0 - E<br><br />
X0X0 - F<br><br />
0XX0 - G<br><br />
XXX0 - H<br><br />
000X - I<br><br />
X00X - J<br><br />
0X0X - K<br><br />
XX0X - L<br><br />
00XX - M<br><br />
X0XX - N<br><br />
0XXX - O<br><br />
XXXX - P<br><br />
<br />
<br />
b4..b7 - Unit<br><br />
0000 - 1<br><br />
X000 - 2<br><br />
0X00 - 3<br><br />
XX00 - 4<br><br />
00X0 - 5<br><br />
X0X0 - 6<br><br />
0XX0 - 7<br><br />
XXX0 - 8<br><br />
000X - 9<br><br />
X00X - 10<br><br />
0X0X - 11<br><br />
XX0X - 12<br><br />
00XX - 13<br><br />
X0XX - 14<br><br />
0XXX - 15<br><br />
XXXX - 16<br><br />
<br />
<br />
b8..b10 - Unknown<br><br />
0XX<br><br />
<br />
b11 - Activation<br><br />
0 - OFF<br><br />
X - ON<br><br />
<br />
<br />
Note! This work is partially inspired by the previous work <br />
done by Per Mellander and others.<br />
<br />
<br />
Revision History<br />
----------------<br />
2006-10-05 Tord Andersson Created<br><br />
2006-10-13 Tord Andersson Added chip manufacturer (MOSDESIGN)<br><br />
2010-02-20 Tord Andersson Removed dead link to Mellander's project<br><br />
2010-02-22 lgrfbs Add PRE kommand to fomat the text for wiki see "Diskussion" for link about wiki formating tips. <br><br />
2010-02-22 Tord Andersson Additional formatting.</div>
Tord
https://elektronikforumet.com/wiki/index.php?title=RF_Protokoll_-_Nexa/Proove_(%C3%A4ldre,_ej_sj%C3%A4lvl%C3%A4rande)&diff=3083
RF Protokoll - Nexa/Proove (äldre, ej självlärande)
2010-02-20T23:24:19Z
<p>Tord: /* The NEXA/PROOVE Remote Protocol */</p>
<hr />
<div>[code]<br />
The NEXA/PROOVE Remote Protocol<br />
== The NEXA/PROOVE Remote Protocol ==<br />
<br />
The RF remote control transmitters/receivers from NEXA and PROOVE seems <br />
to originate from ARC Technology Co Ltd, Taiwan. There are several versions <br />
of these products but they seem to share the same protocol.<br />
<br />
<br />
Bit representation<br />
------------------<br />
The bit coding used by the encoder chips, for example M3E. from <br />
MOSDESIGN SEMICONDUCTOR, allows <br />
for trinary codes, ie '0','1' and 'X' (OPEN/FLOATING).<br />
However, it seems that only '0' and 'X' is currently used in the <br />
NEXA/PROOVE remotes. <br />
The high level in the ASCII-graphs below denotes the transmission <br />
of the 433 MHz carrier. The low level means no carrier. <br />
<br />
<br />
Note! ASCII-graphics below does not seem to work in wiki, but is shown OK in forum.<br />
<br />
'0' bit:<br />
<code><br />
---- ----<br />
| | | | <br />
| | | |<br />
| |____________| |____________<br />
<br />
|----|------------|----|------------|<br />
T 3T T 3T<br />
<br />
'1' bit:<br />
____________ ____________<br />
| | | | <br />
| | | |<br />
| |____| |____<br />
<br />
|------------|----|------------|----|<br />
3T T 3T T<br />
<br />
'X' (OPEN) bit:<br />
____ ____________<br />
| | | | <br />
| | | |<br />
| |____________| |____<br />
<br />
|----|------------|------------|----|<br />
T 3T 3T T<br />
<br />
'STOP/SYNC' bit (Note! Longer than the data bit):<br />
____ <br />
| | <br />
| | <br />
| |__________________________...____<br />
<br />
|----|--------------------------...----|<br />
T 32T<br />
<br />
</code><br />
<br />
If the time T is 350us, one data bit time is 8 T; 2.8ms.<br />
<br />
<br />
Packet format<br />
-------------<br />
Each packet is made up of 12 trinary bits followed by a stop/sync bit.<br />
Packets are sent n*4 times or more.<br />
<br />
If we call the 12 data bits b0..b11 where b0 is sent first, they will have the <br />
following meaning:<br />
<br />
b0..b3 (4 bits) - House (address)<br><br />
0000 - A<br><br />
X000 - B<br><br />
0X00 - C<br><br />
XX00 - D<br><br />
00X0 - E<br><br />
X0X0 - F<br><br />
0XX0 - G<br><br />
XXX0 - H<br><br />
000X - I<br><br />
X00X - J<br><br />
0X0X - K<br><br />
XX0X - L<br><br />
00XX - M<br><br />
X0XX - N<br><br />
0XXX - O<br><br />
XXXX - P<br><br />
<br />
<br />
b4..b7 - Unit<br><br />
0000 - 1<br><br />
X000 - 2<br><br />
0X00 - 3<br><br />
XX00 - 4<br><br />
00X0 - 5<br><br />
X0X0 - 6<br><br />
0XX0 - 7<br><br />
XXX0 - 8<br><br />
000X - 9<br><br />
X00X - 10<br><br />
0X0X - 11<br><br />
XX0X - 12<br><br />
00XX - 13<br><br />
X0XX - 14<br><br />
0XXX - 15<br><br />
XXXX - 16<br><br />
<br />
<br />
b8..b10 - Unknown<br><br />
0XX<br><br />
<br />
b11 - Activation<br><br />
0 - OFF<br><br />
X - ON<br><br />
<br />
<br />
Note! This work is partially inspired by the previous work <br />
done by Per Mellander and others.<br />
<br />
Revision History<br />
----------------<br />
2006-10-05 Tord Andersson Created<br><br />
2006-10-13 Tord Andersson Added chip manufacturer (MOSDESIGN)<br><br />
2010-02-20 Tord Andersson Removed dead link to Mellander's project</div>
Tord
https://elektronikforumet.com/wiki/index.php?title=RF_Protokoll_-_Nexa/Proove_(%C3%A4ldre,_ej_sj%C3%A4lvl%C3%A4rande)&diff=3082
RF Protokoll - Nexa/Proove (äldre, ej självlärande)
2010-02-20T23:22:17Z
<p>Tord: /* The NEXA/PROOVE Remote Protocol */</p>
<hr />
<div>[code]<br />
The NEXA/PROOVE Remote Protocol<br />
== The NEXA/PROOVE Remote Protocol ==<br />
<br />
The RF remote control transmitters/receivers from NEXA and PROOVE seems <br />
to originate from ARC Technology Co Ltd, Taiwan. There are several versions <br />
of these products but they seem to share the same protocol.<br />
<br />
<br />
Bit representation<br />
------------------<br />
The bit coding used by the encoder chips, for example M3E. from <br />
MOSDESIGN SEMICONDUCTOR, allows <br />
for trinary codes, ie '0','1' and 'X' (OPEN/FLOATING).<br />
However, it seems that only '0' and 'X' is currently used in the <br />
NEXA/PROOVE remotes. <br />
The high level in the ASCII-graphs below denotes the transmission <br />
of the 433 MHz carrier. The low level means no carrier. <br />
<br />
'0' bit:<br />
<code><br />
---- ----<br />
| | | | <br />
| | | |<br />
| |____________| |____________<br />
<br />
|----|------------|----|------------|<br />
T 3T T 3T<br />
<br />
'1' bit:<br />
____________ ____________<br />
| | | | <br />
| | | |<br />
| |____| |____<br />
<br />
|------------|----|------------|----|<br />
3T T 3T T<br />
<br />
'X' (OPEN) bit:<br />
____ ____________<br />
| | | | <br />
| | | |<br />
| |____________| |____<br />
<br />
|----|------------|------------|----|<br />
T 3T 3T T<br />
<br />
'STOP/SYNC' bit (Note! Longer than the data bit):<br />
____ <br />
| | <br />
| | <br />
| |__________________________...____<br />
<br />
|----|--------------------------...----|<br />
T 32T<br />
<br />
</code><br />
<br />
If the time T is 350us, one data bit time is 8 T; 2.8ms.<br />
<br />
<br />
Packet format<br />
-------------<br />
Each packet is made up of 12 trinary bits followed by a stop/sync bit.<br />
Packets are sent n*4 times or more.<br />
<br />
If we call the 12 data bits b0..b11 where b0 is sent first, they will have the <br />
following meaning:<br />
<br />
b0..b3 (4 bits) - House (address)<br><br />
0000 - A<br><br />
X000 - B<br><br />
0X00 - C<br><br />
XX00 - D<br><br />
00X0 - E<br><br />
X0X0 - F<br><br />
0XX0 - G<br><br />
XXX0 - H<br><br />
000X - I<br><br />
X00X - J<br><br />
0X0X - K<br><br />
XX0X - L<br><br />
00XX - M<br><br />
X0XX - N<br><br />
0XXX - O<br><br />
XXXX - P<br><br />
<br />
<br />
b4..b7 - Unit<br><br />
0000 - 1<br><br />
X000 - 2<br><br />
0X00 - 3<br><br />
XX00 - 4<br><br />
00X0 - 5<br><br />
X0X0 - 6<br><br />
0XX0 - 7<br><br />
XXX0 - 8<br><br />
000X - 9<br><br />
X00X - 10<br><br />
0X0X - 11<br><br />
XX0X - 12<br><br />
00XX - 13<br><br />
X0XX - 14<br><br />
0XXX - 15<br><br />
XXXX - 16<br><br />
<br />
<br />
b8..b10 - Unknown<br><br />
0XX<br><br />
<br />
b11 - Activation<br><br />
0 - OFF<br><br />
X - ON<br><br />
<br />
<br />
Note! This work is partially inspired by the previous work <br />
done by Per Mellander and others.<br />
<br />
Revision History<br />
----------------<br />
2006-10-05 Tord Andersson Created<br><br />
2006-10-13 Tord Andersson Added chip manufacturer (MOSDESIGN)<br><br />
2010-02-20 Tord Andersson Removed dead link to Mellander's project</div>
Tord
https://elektronikforumet.com/wiki/index.php?title=RF_Protokoll_-_Nexa/Proove_(%C3%A4ldre,_ej_sj%C3%A4lvl%C3%A4rande)&diff=3081
RF Protokoll - Nexa/Proove (äldre, ej självlärande)
2010-02-20T22:52:02Z
<p>Tord: </p>
<hr />
<div>[code]<br />
The NEXA/PROOVE Remote Protocol<br />
== The NEXA/PROOVE Remote Protocol ==<br />
<br />
The RF remote control transmitters/receivers from NEXA and PROOVE seems <br />
to originate from ARC Technology Co Ltd, Taiwan. There are several versions <br />
of these products but they seem to share the same protocol.<br />
<br />
<br />
Bit representation<br />
------------------<br />
The bit coding used by the encoder chips, for example M3E. from <br />
MOSDESIGN SEMICONDUCTOR, allows <br />
for trinary codes, ie '0','1' and 'X' (OPEN/FLOATING).<br />
However, it seems that only '0' and 'X' is currently used in the <br />
NEXA/PROOVE remotes. <br />
The high level in the ASCII-graphs below denotes the transmission <br />
of the 433 MHz carrier. The low level means no carrier.<br />
<br />
'0' bit:<br />
____ ____<br />
| | | | <br />
| | | |<br />
| |____________| |____________<br />
<br />
|<-->|<---------->|<-->|<---------->|<br />
T 3T T 3T<br />
<br />
'1' bit:<br />
____________ ____________<br />
| | | | <br />
| | | |<br />
| |____| |____<br />
<br />
|<---------->|<-->|<---------->|<-->|<br />
3T T 3T T<br />
<br />
'X' (OPEN) bit:<br />
____ ____________<br />
| | | | <br />
| | | |<br />
| |____________| |____<br />
<br />
|<-->|<---------->|<---------->|<-->|<br />
T 3T 3T T<br />
<br />
'STOP/SYNC' bit (Note! Longer than the data bit):<br />
____ <br />
| | <br />
| | <br />
| |__________________________...____<br />
<br />
|<-->|--------------------------...--->|<br />
T 32T<br />
<br />
<br />
<br />
If the time T is 350us, one data bit time is 8 T; 2.8ms.<br />
<br />
<br />
Packet format<br />
-------------<br />
Each packet is made up of 12 trinary bits followed by a stop/sync bit.<br />
Packets are sent n*4 times or more.<br />
<br />
If we call the 12 data bits b0..b11 where b0 is sent first, they will have the <br />
following meaning:<br />
<br />
b0..b3 (4 bits) - House (address)<br />
0000 - A<br />
X000 - B<br />
0X00 - C<br />
XX00 - D<br />
00X0 - E<br />
X0X0 - F<br />
0XX0 - G<br />
XXX0 - H<br />
000X - I<br />
X00X - J<br />
0X0X - K<br />
XX0X - L<br />
00XX - M<br />
X0XX - N<br />
0XXX - O<br />
XXXX - P<br />
<br />
<br />
b4..b7 - Unit<br />
0000 - 1<br />
X000 - 2<br />
0X00 - 3<br />
XX00 - 4<br />
00X0 - 5<br />
X0X0 - 6<br />
0XX0 - 7<br />
XXX0 - 8<br />
000X - 9<br />
X00X - 10<br />
0X0X - 11<br />
XX0X - 12<br />
00XX - 13<br />
X0XX - 14<br />
0XXX - 15<br />
XXXX - 16<br />
<br />
<br />
b8..b10 - Unknown<br />
0XX<br />
<br />
b11 - Activation<br />
0 - OFF<br />
X - ON<br />
<br />
<br />
Note! This work is partially inspired by the previous work <br />
done by Per Mellander and others.<br />
<br />
Revision History<br />
----------------<br />
2006-10-05 Tord Andersson Created<br><br />
2006-10-13 Tord Andersson Added chip manufacturer (MOSDESIGN)<br />
2010-02-20 Tord Andersson Removed dead link to Mellander's project</div>
Tord
https://elektronikforumet.com/wiki/index.php?title=RF_Protokoll_-_Nexa/Proove_(%C3%A4ldre,_ej_sj%C3%A4lvl%C3%A4rande)&diff=3080
RF Protokoll - Nexa/Proove (äldre, ej självlärande)
2010-02-20T22:43:44Z
<p>Tord: Skapade sidan med '[code] The NEXA/PROOVE Remote Protocol =============================== The RF remote control transmitters/receivers from NEXA and PROOVE seems to originate from ARC Technology C…'</p>
<hr />
<div>[code]<br />
The NEXA/PROOVE Remote Protocol<br />
===============================<br />
<br />
The RF remote control transmitters/receivers from NEXA and PROOVE seems<br />
to originate from ARC Technology Co Ltd, Taiwan. There are several versions<br />
of these products but they seem to share the same protocol.<br />
<br />
<br />
Bit representation<br />
------------------<br />
The bit coding used by the encoder chips, for example M3E. from<br />
MOSDESIGN SEMICONDUCTOR, allows<br />
for trinary codes, ie '0','1' and 'X' (OPEN/FLOATING).<br />
However, it seems that only '0' and 'X' is currently used in the<br />
NEXA/PROOVE remotes.<br />
The high level in the ASCII-graphs below denotes the transmission<br />
of the 433 MHz carrier. The low level means no carrier.<br />
<br />
'0' bit:<br />
____ ____<br />
| | | | <br />
| | | |<br />
| |____________| |____________<br />
<br />
|<-->|<---------->|<-->|<---------->|<br />
T 3T T 3T<br />
<br />
'1' bit:<br />
____________ ____________<br />
| | | | <br />
| | | |<br />
| |____| |____<br />
<br />
|<---------->|<-->|<---------->|<-->|<br />
3T T 3T T<br />
<br />
'X' (OPEN) bit:<br />
____ ____________<br />
| | | | <br />
| | | |<br />
| |____________| |____<br />
<br />
|<-->|<---------->|<---------->|<-->|<br />
T 3T 3T T<br />
<br />
'STOP/SYNC' bit (Note! Longer than the data bit):<br />
____ <br />
| | <br />
| | <br />
| |__________________________...____<br />
<br />
|<-->|--------------------------...--->|<br />
T 32T<br />
<br />
<br />
<br />
If the time T is 350us, one data bit time is 8 T; 2.8ms.<br />
<br />
<br />
Packet format<br />
-------------<br />
Each packet is made up of 12 trinary bits followed by a stop/sync bit.<br />
Packets are sent n*4 times or more.<br />
<br />
If we call the 12 data bits b0..b11 where b0 is sent first, they will have the<br />
following meaning:<br />
<br />
b0..b3 (4 bits) - House (address)<br />
0000 - A<br />
X000 - B<br />
0X00 - C<br />
XX00 - D<br />
00X0 - E<br />
X0X0 - F<br />
0XX0 - G<br />
XXX0 - H<br />
000X - I<br />
X00X - J<br />
0X0X - K<br />
XX0X - L<br />
00XX - M<br />
X0XX - N<br />
0XXX - O<br />
XXXX - P<br />
<br />
<br />
b4..b7 - Unit<br />
0000 - 1<br />
X000 - 2<br />
0X00 - 3<br />
XX00 - 4<br />
00X0 - 5<br />
X0X0 - 6<br />
0XX0 - 7<br />
XXX0 - 8<br />
000X - 9<br />
X00X - 10<br />
0X0X - 11<br />
XX0X - 12<br />
00XX - 13<br />
X0XX - 14<br />
0XXX - 15<br />
XXXX - 16<br />
<br />
<br />
b8..b10 - Unknown<br />
0XX<br />
<br />
b11 - Activation<br />
0 - OFF<br />
X - ON<br />
<br />
<br />
Note! This work is partially inspired by the previous work<br />
done by Per Mellander.<br />
http://www.mellander.org/per/projects/?project=nexa<br />
<br />
<br />
Revision History<br />
----------------<br />
2006-10-05 Tord Andersson Created<br />
2006-10-13 Tord Andersson Added chip manufacturer (MOSDESIGN)<br />
[/code]</div>
Tord
https://elektronikforumet.com/wiki/index.php?title=Inneh%C3%A5llsf%C3%B6rteckning&diff=3079
Innehållsförteckning
2010-02-20T22:30:47Z
<p>Tord: Lade till Nexa/Proove protokoll (äldre, ej självlärande)</p>
<hr />
<div>== Diverse ==<br />
* [[Aff%C3%A4rspartners]] - Kommentarer över affärspartners på forumet. Ris och ros.<br />
* [[Materialinköpsställen]] - Tips om affärer som säljer material till privatpersoner, samt om de är bra/dåliga.<br />
* [[ESD-skydd]] - Hur man undviker att fritera komponenter med statisk elektricitet.<br />
* [[Översättningslista för facknamn]] på Svenska <-> Engelska.<br />
<br />
* Temp - [[Felmeddelanden]] vid försök att besöka forumet<br />
* [[Att fråga|Tips på hur du ställer en fråga i forumet]]<br />
<br />
* [[Bläckpatron styrning]] - Direkt styrning av bläckpatron.<br />
* [[RF Produkter - Brandvarnare Proove]]<br />
* [[RF Protokoll - Nexa/Proove (äldre, ej självlärande)]]<br />
* [[RF Protokoll - Nexa självlärande]]<br />
* [[Parkeringssensor ombyggd till ultraljudsdetektor (Biltema 43-142)]]<br />
<br />
== FAQ ==<br />
* [[Samlade projekt]] - En lista över många av de projekt som publicerats på Forumet.<br />
* [[Önskemål]] - En lista över önskemål på artiklar som vi vill se i Wikin.<br />
* [[Arkivering av forumets PM]] - En liten förklarning hur man kan arkivera sina PM.<br />
* [[Tips och trix]]<br />
<br />
== Grundläggande Ellära ==<br />
* [[Ohms lag]]<br />
* [[Strömspikar]]<br />
* [[LC-krets]]<br />
* [[PWM]]<br />
* [[Operationsförstärkare, grundkopplingar]]<br />
* [[Distanskurs i Elektronik]]<br />
* [[Superpositionsprincipen]]<br />
* [[Linjärisering]]<br />
* [[Småsignalscheman]]<br />
* [[Spänningsdelare]]<br />
<br />
== Komponenter ==<br />
* [[Kondensator]]<br />
* [[Diod]]<br />
* [[Tyristor]]<br />
* [[Thyratronen]]<br />
* [[Lysdiod]]<br />
* [[Resistor]]<br />
* [[Induktans]]<br />
* [[LCD Displayer]]<br />
* [[LCD Skärmar]]<br />
* [[Magnetron]]<br />
* [[Kontakter]]<br />
* [[Kapslingar]]<br />
** [[Hålmonterade]]<br />
** [[Ytmonterade]]<br />
* [[Batterier]]<br />
* [[Thyratron]]<br />
<br />
== Ljud ==<br />
* [[SID]]<br />
* [[Tonkontroller, gitarrförstärkare]]<br />
* [[Tonkontroller, Elbasar]]<br />
* [[BTc Sound Encoder, uCPU]]<br />
* [[Distorsion]]<br />
* [[Effekter]]<br />
* [[Frekvenssvar]]<br />
* [[Decibel]]<br />
* [[Dynamik]]<br />
* [[Hörrum]]<br />
* [[Ihopkoppling av audioutrustning]]<br />
<br />
== Ljus ==<br />
* [[PowerLeds]]<br />
* [[Strömbegränsning för lysdioder]]<br />
<br />
== Mekatronik ==<br />
* [[CNC-länkar]]<br />
* [[CNC med Linux]]<br />
* [[AC-motor|AC-motorer]]<br />
* [[DC-motor|DC-motorer]]<br />
* [[Stegmotor|Stegmotorer]]<br />
* [[Motorstyrning]]<br />
* [[Servo]]<br />
* [[Lillasyster]]<br />
<br />
== Mikrodatorteknik ==<br />
* [[Mikrokontrollers|Allmänt om mikrokontrollers]]<br />
<br />
* Typer:<br />
** [[AVR]]<br />
** [[PIC]]<br />
** [[AVR32]]<br />
** [[Propeller]]<br />
<br />
* [[Mikrokontroller perferienheter]]<br />
<br />
== Mjukvara ==<br />
* [[Unix mjukvara]] - Mjukvara för unix plattformar (FreeBSD, Linux, Solaris etc..)<br />
<br />
== Mätinstrument ==<br />
* [[Oscilloskop]]<br />
* [[Multimeter]]<br />
<br />
== Nätaggregat ==<br />
* [[LW PS-305D]] Variabelt laborationsaggregat 0-30V 0-5A<br />
* [[Skyddad 5V matning]] Skyddad elförsörjning för 5V från instabilt 12V system (bil, båt etc..).<br />
<br />
== Mönsterkortstillverkning och lödning ==<br />
* [[Hur man tillverkar kretskort]] - Så gör du dina egna kretskort. Från början till slut.<br />
* [[Hur man får andra att tillverka kretskort]] - Beställa kretskort från legotillverkare.<br />
* [[Tips vid etsning]]<br />
* [[Etstank]]<br />
* [[Rita kretskort]]<br />
* [[Tips vid lödning]]<br />
* [[Simulera]]<br />
* [[Kretskortslayout, PCB Designers SI Guide]]<br />
* [[Hjälp med PCB tillverkning]]<br />
<br />
== Samköp ==<br />
* [[Kress-offert-cncplus]]<br />
* [[MPG-Samk]]<br />
<br />
== Utveckling av forumet ==<br />
Det finns ett mål att utöka Svenska elektronikforumet till att bli mer än bara ett forum (denna Wiki är ett exempel på detta). De olika projekt som strävar till att förbättra forumet listas här. Varje projekt har (ska ha) en ansvarig, kontakta denne om du vill hjälpa till med en uppgift.<br />
* [[Exempel på forumutvecklingssida]], ett förslag hur sidorna kan se ut.<br />
* [[Artikelsystemet]]<br />
* [[Köp och Sälj]]<br />
* [[Bildarkivet]]<br />
* [[Projektgalleriet]]<br />
* [[Säkerhetskopierar forumets PM]]<br />
<br />
== Övrigt ==<br />
Det som inte passar in på annat ställe...<br />
* [[TipsForNyaAnvandare]]<br />
* [[Test]]<br />
* [[Stuggi]]<br />
* [[Huvudsida]] / [[Main Page]]<br />
* [[Regler]]</div>
Tord