Difference between revisions of "Integrated Circuits"
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− | + | == 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 controled by a single SPI interface. | 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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'''NOTE:''' Only the DIP-14 version (image) has the Vz pin, which is used for negative regulators. The Metal Can and the Flat-Pack do not have enough pins so exclude the Vz. | '''NOTE:''' Only the DIP-14 version (image) has the Vz pin, which is used for negative regulators. The Metal Can and the Flat-Pack do not have enough pins so exclude the Vz. | ||
|- | |- | ||
− | | | + | | |
+ | |- | ||
+ | ! colspan="2" align="left"| Switching Regulators | ||
+ | |- | ||
+ | | align="center"| [[Image:MCP1253-ADJ.png|69px]]<br>[[MCP1252/3]] | ||
+ | | Extremely Efficient, 120mA Flyback Switching Regulators. | ||
+ | |- | ||
+ | |} | ||
+ | |||
+ | == Microcontrollers == | ||
+ | |||
+ | * [[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. | ||
+ | |||
+ | [[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) | ||
+ | |||
+ | There are hundreds of other specialized logic gates. Here we only list the ones we actually use in some Open Circuit [[Projects|Project]]: | ||
+ | |||
+ | * 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]] |
Revision as of 02:15, 29 June 2007
Contents
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 controled by a single SPI interface.
Voltage Regulators
Linear Regulators | |
---|---|
LT1528 |
High current, Variable Voltage Regulator |
TPS V-Regs |
These are 3.3V and 5V LDO, Low-Noise Voltage Regulators. Very small SOT-23 SMD package. 150mA max current. Best used in battery applications. |
Basic Voltage Regulators |
Variable voltage regulators, set output regulators, we give you the whole breakdown. Perfect for use with an external wall-wart power supply. |
The 723 Voltage Regulator |
Precision Voltage Regulator. Can be used as fixed or floating, variable, linear or switching.
NOTE: Only the DIP-14 version (image) has the Vz pin, which is used for negative regulators. The Metal Can and the Flat-Pack do not have enough pins so exclude the Vz. |
Switching Regulators | |
MCP1252/3 |
Extremely Efficient, 120mA Flyback Switching Regulators. |
Microcontrollers
- LPC2103 Low cost 70MHz ARM7TDMI-S FLASH Microcontroller from Philips. The "$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 Wikibooks: Embedded Systems. --DavidCary 06:15, 10 March 2007 (PST)
Op Amps
Op amps and instrumentation amps.
op amps: great for amplifying weak signals from sensors to a more useful level. Also used in filters, integrators, etc.
- LT1168 Programmable-Gain Precision Instrumentation Amplifier - Low Power, Single Resistor Gain Programmable, Precision Instrumentation Amplifier
- LT1114 Low Power Precision OP-Amps are used for amplification and filtering of the signal - Dual/Quad Low Power Precision, Picoamp Input 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."
- "Some Op Amp Audio Design Issues" by Terry Ritter
logic gates
- NAND gate: "Using a NAND Gate for a Set/Reset Latch" (the 74HC132 Schmitt-trigger quad NAND is better than the 74HC00 quad NAND).
- "Multiplexers: the tactical Nuke of Logic Design" by Dieter Mueller 2004 (74153)
There are hundreds of other specialized logic gates. Here we only list the ones we actually use in some Open Circuit Project:
- 74HC595 eight bit shift register with output latch (used for POV display)
RF ICs/Modules
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.