Editing Integrated Circuits
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== Digital Potentiometers == | == Digital Potentiometers == | ||
[[Digital Potentiometers|Digital Potentiometers(AD5204)]] | [[Digital Potentiometers|Digital Potentiometers(AD5204)]] | ||
− | The digital Potentiometers made by analog devices (AD5204) has 255 positions can be adjusted by the microcomputer that can receive commands from the computer. This is a great way for analog circuitry to have digital control. This is a chip with 4 digitally controlled POTs and the pots can be daisy chained to have multiple chips | + | The digital Potentiometers made by analog devices (AD5204) has 255 positions can be adjusted by the microcomputer that can receive commands from the computer. This is a great way for analog circuitry to have digital control. This is a chip with 4 digitally controlled POTs and the pots can be daisy chained to have multiple chips controled by a single SPI interface. |
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== Voltage Regulators == | == Voltage Regulators == | ||
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{| | {| | ||
! colspan="2" align="left"| Linear Regulators | ! colspan="2" align="left"| Linear Regulators | ||
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|} | |} | ||
− | + | == Microcontrollers == | |
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− | + | * [[Image:lpc2103.jpg|69px|LPC2103]] [http://www.k9spud.com/arm/lpc2103/ LPC2103] Low cost 70MHz ARM7TDMI-S FLASH Microcontroller from Philips. The [http://coridiumcorp.com/arm7/ "$49" "Coridium ARMmite"] does use this chip. | |
− | [[ | + | * [[Atmel]] AVR 8 bit FLASH microcontrollers |
+ | * [[Microchip]] PIC 8 bit FLASH microcontrollers | ||
+ | * Microchip dsPIC 16 bit FLASH microcontrollers ( [[DsPIC30F 5011 Development Board]] ) | ||
+ | * Cypress PSoC 8 bit FLASH microcontrollers | ||
− | + | ''I've written a little about the various kinds of microcontrollers at [http://en.wikibooks.org/wiki/Embedded_Systems/Particular_Microprocessors Wikibooks: Embedded Systems]. --[[User:DavidCary|DavidCary]] 06:15, 10 March 2007 (PST)'' | |
− | + | == Op Amps == | |
− | + | Op amps and instrumentation amps. | |
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+ | [[op amp]]s: great for amplifying weak signals from [[sensors]] to a more useful level. Also used in filters, integrators, etc. | ||
+ | * [[LT1168|LT1168 Programmable-Gain Precision Instrumentation Amplifier]] - Low Power, Single Resistor Gain Programmable, Precision Instrumentation Amplifier | ||
+ | * [[LT1114|LT1114 Low Power Precision OP-Amps]] are used for amplification and filtering of the signal - Dual/Quad Low Power Precision, Picoamp Input Op Amps | ||
+ | * [http://en.wikibooks.org/wiki/Electronics/Op-Amps Wikibooks:Op-Amps] has a "quick design process" using Daisy's theorem: ''"The sum of the gains = +1 in a properly-designed op amp circuit."'' | ||
+ | * [http://ciphersbyritter.com/RADELECT/PREOPAMP/OPAMPDSN.HTM "Some Op Amp Audio Design Issues"] by Terry Ritter | ||
− | + | == logic gates == | |
− | * | + | * NAND gate: [http://www.coprolite.com/art48.html "Using a NAND Gate for a Set/Reset Latch"] (the 74HC132 Schmitt-trigger quad NAND is better than the 74HC00 quad NAND). |
− | + | * [http://people.freenet.de/dieter.02/alu_4.htm "Multiplexers: the tactical Nuke of Logic Design"] by Dieter Mueller 2004 (74153) | |
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− | + | There are hundreds of other specialized logic gates. Here we only list the ones we actually use in some Open Circuit [[Projects|Project]]: | |
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− | * | + | * 74HC595 eight bit shift register with output latch (used for POV display) |
− | + | == RF ICs/Modules == | |
− | + | [http://www.linxtechnologies.com/ Linx Technologies] makes several low power RF transmitter/receiver chips. Their range is around 500' - 1000'. They are geared for one way communication only, like keyless entry systems. They also make several serial encoding chips that make the wireless communication more secure/crack proof. Their latest chip, the HS series, is based upon the SkipJack algorithm developed by the NSA. | |
+ | [[Category:Components]] | ||
− | + | == ADC analog to digital converter == | |
− | + | There are a huge variety of ADCs available. | |
− | + | If you need 10 bits or less of resolution, | |
− | it | + | counter-intuitively, |
− | + | it costs less to buy an ADC plus a microcontroller on one chip | |
+ | than to buy a stand-alone ADC. | ||
− | * | + | * ATTINY13V -- lowest-price chip I know of with at least one 10 bit ADC |
+ | * ATTINY261 -- lowest $/ADC chip I know of | ||
+ | * LPC2101FBD48 -- lowest-price 32-bit microcontroller I know of with at least one internal 10 bit ADC | ||
− | * | + | Many people (*) do EKGs with only 10 bit converters. |
− | + | The [[Programmable Chip EEG]] might need more bits of resolution. | |
− | * | + | What low-cost ADC are available with at least 12 bits? |
+ | * $2.50 MCP3301 has 1 ADC input (13 bits) | ||
+ | * $3.50 MCP3302 has 2 ADC input (13 bits) | ||
+ | * $3.50 MCP3204 has 4 ADC input (12 bits) | ||
+ | * $4 MCP3208 has 8 ADC input (12 bits) | ||
+ | * $8 dsPIC30F 2011 microcontroller has 8 ADC inputs (12 bits). See [[dsPIC30F 5011 Development Board]] for details. | ||
+ | * $6 CY8C27443 Cypress PSoC microcontroller has 4 ADC inputs (14 bits) -- but what is the sampling rate? Also has 4 DAC outputs (9 bits). | ||
+ | * $56 biosemi used analog devices AD7716: four independent, simultaneous 22 bit ADCs. | ||
+ | * [http://www.maxim-ic.com/appnotes.cfm/an_pk/885 the Maxim MAX1460 includes a 16-bit ADC, 12-bit DAC], a programmable gain amp (PGA), temp sensor, and 16-bit processor. (Alas, its program is in unchangeable ROM). | ||
+ | * Analog Devices AduC812: 200kHz 12-bit ADC, 12-bit DAC, and flash-based 8051 MCU core. | ||
− | -- | + | ''I am astonished to discover that (a few) microcontrollers include 12 bit or more ADCs. Are there others? --[[User:DavidCary|DavidCary]] 18:48, 28 August 2007 (PDT)'' |