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ain_4 [2016/08/13 17:25]
latigid_on [Standalone use]
ain_4 [2016/08/18 09:36] (current)
latigid_on [Standalone use]
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 The circuit is a very simple series of two inverting amplifiers per channel. The first is a TL072 powered from +12/-12V, while the second is an MCP6002 powered from 3v3/0V (ground). It's possible to preset the ranges (see below) but it's probably more useful to use the associated [[Control Board]]. The circuit is a very simple series of two inverting amplifiers per channel. The first is a TL072 powered from +12/-12V, while the second is an MCP6002 powered from 3v3/0V (ground). It's possible to preset the ranges (see below) but it's probably more useful to use the associated [[Control Board]].
  
-For bipolar operation, a +5V reference may be switched in. The output of the first stage is interrupted by a pot in order to attenuate the signal. The second stage has variable ​gain from -1 to -0.5 by way of a switched ​resistor. Hence one can easily select between 0-5V, 0-10V and +/- 5V input ranges to optimise the signal amplitude reaching the ADC. Because the second op amp is powered at the same voltage as the MCU (ideally the same rail), its inputs are protected from over- and under-voltages.+For bipolar operation, a +5V reference may be switched in. The output of the first stage is interrupted by a pot in order to attenuate the signal. The second stage has switchable ​gain from -1 to -0.5 by way of a resistor. Hence one can easily select between 0-5V, 0-10V and +/- 5V input ranges to optimise the signal amplitude reaching the ADC. Because the second op amp is powered at the same voltage as the MCU (ideally the same rail), its inputs are protected from over- and under-voltages
 + 
 +Note the gain calculation,​ and beware the top of the signal may clip (harmlessly) if around 3.0V peak is exceeded on the second op amp stage.
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 ^Type     ​^Qty ^Value ^Package ^Parts^Notes^ ^Type     ​^Qty ^Value ^Package ^Parts^Notes^
 ^resistors^  ^resistors^
-|         ​|20 ​  |49k9 1% or better ​  ​|0204/​7|R1,​ R2, R4, R5, R6, R7, R8, R10, R11, R12, R13, R14, R16, R17, R18, R19, R20, R22, R23, R24|It'​s best to match pairs or go for 0.1% tolerance parts+|         ​|20 ​  |49k9 1% or better ​  ​|0204/​7|R1,​ R2, R4, R5, R6, R7, R8, R10, R11, R12, R13, R14, R16, R17, R18, R19, R20, R22, R23, R24|49k9/30k resistors aren't so common. For almost equivalent behaviour, one could substitute e.g. 56k/​33k. ​It's best to match pairs/​threes ​or go for 0.1% tolerance parts|
 |         ​|4 ​   |30k 1%   ​|0204/​7|R3,​ R9, R15, R21|nominal gain can be adjusted e.g. (22k/​49.9k)*5V = 2.2V|  |         ​|4 ​   |30k 1%   ​|0204/​7|R3,​ R9, R15, R21|nominal gain can be adjusted e.g. (22k/​49.9k)*5V = 2.2V|
 ^capacitors^  ^capacitors^
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 | |4|optional|025X050|C2,​ C4, C6, C8|can use another e.g. 10pF cap here for more filtering|  | |4|optional|025X050|C2,​ C4, C6, C8|can use another e.g. 10pF cap here for more filtering|
 ^inductors^  ^inductors^
-| |2|BEAD|5MM|L1,​ L2| +| |2|BEAD|5MM|L1,​ L2|or replace with wire link|
 ^ICs^  ^ICs^
 | |2|MCP6002P|DIL08|IC2,​ IC4|sockets are recommended| | |2|MCP6002P|DIL08|IC2,​ IC4|sockets are recommended|
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 ==== Headers ==== ==== Headers ====
  
-For connection to a [[Control Board]], use pin headers placed on the opposite side as the rest of the components i.e. follow the silkscreen markings. For standalone use, you probably want header pins (or sockets, or even bare wires if you wish) on the same side as the remaining circuitry.+For connection to a [[Control Board]], use pin headers placed on the opposite side as the rest of the components i.e. follow the silkscreen markings. ​It's convenient to use an **unsoldered** Control Board to align all of the pins at once.\\ 
 + 
 +For standalone use, you probably want header pins (or sockets, or even bare wires if you wish) on the same side as the remaining circuitry.
  
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 ==== Standalone use ==== ==== Standalone use ====
  
-For simplest results, use the complementary [[Control Board]]. Otherwise see below for header functions.+For simplest results, use the complementary [[Control Board]]. Otherwise see below for header functions ​(viewed from the component side).
  
  
ain_4.1471109125.txt.gz · Last modified: 2016/08/13 17:25 by latigid_on