Difference between revisions of "Salvage Parts and Sources"
(→Sources -- What Can You Get Out Of Them: added nicer formatting) |
|||
Line 369: | Line 369: | ||
== Sources -- What Can You Get Out Of Them == | == Sources -- What Can You Get Out Of Them == | ||
− | Cellular phones | + | === Cellular phones === |
Full of incredibly tiny electronics, but for automated manufacture, many are in modules joined by contact springs instead of solder or connectors so many parts come right off. Small speakers, mic, power connector, SMD bulk caps occasionally, tiny eccentric weight vibration motor. A few models have display modules you can find specs for. | Full of incredibly tiny electronics, but for automated manufacture, many are in modules joined by contact springs instead of solder or connectors so many parts come right off. Small speakers, mic, power connector, SMD bulk caps occasionally, tiny eccentric weight vibration motor. A few models have display modules you can find specs for. | ||
− | Computers | + | === Computers === |
Power supply is useful as a unit, or can be taken apart for transformer, caps, diodes, and similar. Many have a filtered input connector which is rather valuable. There are usually some LED and switches on the end of wires that plug into header blocks. They also may have CD DVD Floppy Drives see separate discussion. The connecting wires are often useful, sometimes taking the connectors off the mother board makes them more useful. Individual boards may be useful as they are. The mother board is not usually useful for its chips, most are too small and specialized for much use. Crystals may be found, not sure if frequencies are useful. AT-era PC's often had D-connectors of both sexes on ribbon cables and peripherals have matching cables. Some have RTC modules, others have CR2032 lithium batteries. The big BIOS flash/eprom may be recyclable. Certain vintages have nice SRAM chips as cache. SCSI and other smart controllers have serial eeprom's for settings. Old ethernet cards and cables yield 50-ohm coaxial wiring. Loads and loads of screws in the case. | Power supply is useful as a unit, or can be taken apart for transformer, caps, diodes, and similar. Many have a filtered input connector which is rather valuable. There are usually some LED and switches on the end of wires that plug into header blocks. They also may have CD DVD Floppy Drives see separate discussion. The connecting wires are often useful, sometimes taking the connectors off the mother board makes them more useful. Individual boards may be useful as they are. The mother board is not usually useful for its chips, most are too small and specialized for much use. Crystals may be found, not sure if frequencies are useful. AT-era PC's often had D-connectors of both sexes on ribbon cables and peripherals have matching cables. Some have RTC modules, others have CR2032 lithium batteries. The big BIOS flash/eprom may be recyclable. Certain vintages have nice SRAM chips as cache. SCSI and other smart controllers have serial eeprom's for settings. Old ethernet cards and cables yield 50-ohm coaxial wiring. Loads and loads of screws in the case. | ||
− | Digital cameras | + | === Digital cameras === |
Card slot if you can get it out. Battery, contacts and charger. Switching regulators. Very nice displays but hard to use. Be on the lookout for EL backlights, though, if you can power them. Nice smooth squares of very white light. Optics of varying types, connectors if you can get them out. Marvels of miniaturization and cramped-space engineering worth looking at in any case. | Card slot if you can get it out. Battery, contacts and charger. Switching regulators. Very nice displays but hard to use. Be on the lookout for EL backlights, though, if you can power them. Nice smooth squares of very white light. Optics of varying types, connectors if you can get them out. Marvels of miniaturization and cramped-space engineering worth looking at in any case. | ||
− | Floppy Drives | + | === Floppy Drives === |
Often have stepper motor and Brush less motors. The old 5 ¼ drives are most likely to have reasonable power steppers. most of the chips then to be too small and specialized for much use. The 3.5" power connector is reasonably easy to remove with most equipment. | Often have stepper motor and Brush less motors. The old 5 ¼ drives are most likely to have reasonable power steppers. most of the chips then to be too small and specialized for much use. The 3.5" power connector is reasonably easy to remove with most equipment. | ||
− | Hard Drives | + | === Hard Drives === |
Pretty platters, spacers and stator coils, strong magnets, odd motor or two. | Pretty platters, spacers and stator coils, strong magnets, odd motor or two. | ||
− | Tape Drives | + | === Tape Drives === |
Rare. May contain springs under considerable tension! Some have beefy power components. SCSI terminators have resistor packs for picking. | Rare. May contain springs under considerable tension! Some have beefy power components. SCSI terminators have resistor packs for picking. | ||
− | Microwave Ovens | + | === Microwave Ovens === |
Make sure you discharge high voltage capacitor prior to salvage, if you do not know how to do this find out firs. High voltage transformer ( dangerous ), high voltage capacitor and diode. Good magnets in the magnetron tube. Lots of micro switches. Small motor, motorized fan. | Make sure you discharge high voltage capacitor prior to salvage, if you do not know how to do this find out firs. High voltage transformer ( dangerous ), high voltage capacitor and diode. Good magnets in the magnetron tube. Lots of micro switches. Small motor, motorized fan. | ||
− | Printers | + | === Printers === |
Often have stepper motors. Plugs, jacks, power transistors, diodes. Gears, shafts and other mechanical components. Control panels may have led's and push button switches. Many laser printers have standard type LCD modules. Many inkjets have nice big external power supplies. | Often have stepper motors. Plugs, jacks, power transistors, diodes. Gears, shafts and other mechanical components. Control panels may have led's and push button switches. Many laser printers have standard type LCD modules. Many inkjets have nice big external power supplies. | ||
− | Stereos, boom boxes, radios | + | === Stereos, boom boxes, radios === |
Plugs, jacks, power transistors, diodes. Audio power IC (TDA2030 is very common). Transformers and power supplies, sometimes symmetrical +-. VFD modules. | Plugs, jacks, power transistors, diodes. Audio power IC (TDA2030 is very common). Transformers and power supplies, sometimes symmetrical +-. VFD modules. | ||
− | TV | + | === TV === |
May not be a good salvage candidate: There are high voltage dangers and dangers from imploding picture tubes. Also when you are done there is often a disposal fee as the picture tube contains a few pounds of lead. Do not dispose of irresponsibly. | May not be a good salvage candidate: There are high voltage dangers and dangers from imploding picture tubes. Also when you are done there is often a disposal fee as the picture tube contains a few pounds of lead. Do not dispose of irresponsibly. | ||
− | VCR | + | === VCR === |
DC motors, plugs, jacks, power transistors, diodes. VFD modules, neon lamps on few models. | DC motors, plugs, jacks, power transistors, diodes. VFD modules, neon lamps on few models. | ||
Revision as of 09:21, 14 July 2010
For ideas on different ways to use some parts see Salvage Ideas. You may also find Free From Salvage useful. Got an idea, please add it.
Contents
Parts -- Where to Find Them
What | Comments | Where |
---|---|---|
Beeper | Cheap sound effects, some need ac drive others just dc. |
|
Caps: Electrolytic | You can get tons of these from most devices, usually marked with voltage and capacitance, they are pretty much ready to use. Leads usually just long enough to go through a board. |
|
Cases Enclosures |
Can be very useful, may want to replace or overlay the front panel. Sometimes use a different side of the case as a new front. |
|
Crystals | Are the frequencies useful, can you figure out how to drive them? |
|
Diodes: Full Wave Bridges and Power | Nice for your own power supply. |
|
Diodes: Small Signal |
Usually have leads that are so short that they are not worth bothering with. |
|
Headers and Jumpers | Useful as headers or to adapt parts to prototyping boards. You can also often find cables with plugs that plug into the headers very nicely. Also true of RC hobby servos. |
|
Fans: Small | Do not blow your budget, get a free fan. |
|
Ferrites | Rewind for use as small SMPS transformer cores due low hysteris losses. |
|
Hall Effect Sensors | Can be used to sense magnetic fields or to measure current. |
|
Heat Sinks | Keep your power components cool. |
|
Infra Red Receiver | Useful for IR remote control projects. Usually tuned to about 40 kHz and have digital output.
For pin out see Infra Red Receiver Pinout |
|
Jacks: RCA Phono | Nice for audio and some video. |
|
Jacks: Miniature Phono Jacks | Use for audio or low power. |
|
Jacks: USB | Handy because there are so many usb devices out there, make an IPod charger. |
|
Jacks: 9 Pin ( serial ) | Often useful particularly if you harvest cables from old mice. |
|
Jacks: Key Board Jacks | May be useful particularly if you harvest cables from old keyboards. |
|
Laser | Please be careful. |
|
LED: visible | Very, sometimes leads too short, but usually ok. Computers often have several with plug in leads which can be really handy. Mount 2 pins from a header ( also salvage ) to plug in. |
|
LED: Infra Red | Usefully for IR remote control projects. Note that they can be used as receivers as well. |
|
LCD Displays | Sometimes useless, too hard to find out the specs. Many are Hitachi compatible if you can find/trace the pinout. |
|
Low Voltage Power Supplies | Wall warts that may come with devices. Some other devices have power supplies as separate components. May want to supplement with a three terminal regulator, which you can also get from salvage. |
|
Motors: DC | Nice if you need a motor and every robot needs many, see also steppers. |
|
Motors: Stepper | Can be real useful for low power devices. Can be expensive to buy. |
|
Motors: Brushless |
These are hard to drive and often built into the circuit boards. May be most useful for the magnets in them. Sometimes you can find and use the hall effect sensor. Somewhere I have seen a posting on how to use them as alternators, basically putting a diode on each winding to bring out DC. |
|
Magnets | More pictures on your fridge, Hold down tools on cast iron in the shop. Often quit strong and/or of odd configuration. |
|
Potentiometers: trim | Can be useful, but new ones are not very expensive. |
|
Relays | Useful to go from logic levels to 120 vac. Coil is often 12v or 24 volts, use with a transistor low side switch ( for example ) to interface with logic levels |
|
Resistors: Power | Useful Many different devices but usually not computers. |
|
Resistors; ¼, ½ Watt |
Usually useless, leads too short. |
|
Ribbon Cables and Sockets | I ( russ_hensel ) have found a bunch or applications that may not be obvious, I will write it up soon, or contact me. |
|
Sockets: DIP | russ_hensel ) I sometimes cut these up in various ways and epoxy to .1 inch perf. board to get special sockets for LED arrays.... |
|
Stepper Driver Chips | Very useful if you can find some of the standard chips, I have found ..... |
|
Surface mount devices Useless for many, hard to remove, small to work with. Some of you may have figured SMT out, more power to you. Hint: hot air may be just the ticket. |
Yes |
|
Three terminal regulators | Often standard parts, sometimes you can take the whole power supply as a unit |
|
Transistors: Power | Often useful, often can find specification from part number. This may help ( anyone have one who can do a review? ) M3 Semiconductor Analyzer Features Here is a review N5ESE builds the M-Cubed Electronix Semiconductor Analyzer and M3 Electonix Semiconductor Analyzer Built by AL7FS |
|
Transistors: Power MOSFET | Extremely handy, often can find specification from part number. |
|
Transistor: Small Signal |
Some use, but may be hard to identify which are useful as many use house part numbers. For japanese transistors, add "2S" in from of the code. A few hours work gave me a couple of bucks worth of parts russ_hensel, probably not worth it. |
|
Transformers Inductors – Misc. | Test with ohm meter and audio oscillator. |
|
Transformer Flyback transformer | Useful for high voltage – but can be dangerous. |
|
Transformer: Line to Low voltage | Useful for making power supplies. |
|
Sources -- What Can You Get Out Of Them
Cellular phones
Full of incredibly tiny electronics, but for automated manufacture, many are in modules joined by contact springs instead of solder or connectors so many parts come right off. Small speakers, mic, power connector, SMD bulk caps occasionally, tiny eccentric weight vibration motor. A few models have display modules you can find specs for.
Computers
Power supply is useful as a unit, or can be taken apart for transformer, caps, diodes, and similar. Many have a filtered input connector which is rather valuable. There are usually some LED and switches on the end of wires that plug into header blocks. They also may have CD DVD Floppy Drives see separate discussion. The connecting wires are often useful, sometimes taking the connectors off the mother board makes them more useful. Individual boards may be useful as they are. The mother board is not usually useful for its chips, most are too small and specialized for much use. Crystals may be found, not sure if frequencies are useful. AT-era PC's often had D-connectors of both sexes on ribbon cables and peripherals have matching cables. Some have RTC modules, others have CR2032 lithium batteries. The big BIOS flash/eprom may be recyclable. Certain vintages have nice SRAM chips as cache. SCSI and other smart controllers have serial eeprom's for settings. Old ethernet cards and cables yield 50-ohm coaxial wiring. Loads and loads of screws in the case.
Digital cameras
Card slot if you can get it out. Battery, contacts and charger. Switching regulators. Very nice displays but hard to use. Be on the lookout for EL backlights, though, if you can power them. Nice smooth squares of very white light. Optics of varying types, connectors if you can get them out. Marvels of miniaturization and cramped-space engineering worth looking at in any case.
Floppy Drives
Often have stepper motor and Brush less motors. The old 5 ¼ drives are most likely to have reasonable power steppers. most of the chips then to be too small and specialized for much use. The 3.5" power connector is reasonably easy to remove with most equipment.
Hard Drives
Pretty platters, spacers and stator coils, strong magnets, odd motor or two.
Tape Drives
Rare. May contain springs under considerable tension! Some have beefy power components. SCSI terminators have resistor packs for picking.
Microwave Ovens
Make sure you discharge high voltage capacitor prior to salvage, if you do not know how to do this find out firs. High voltage transformer ( dangerous ), high voltage capacitor and diode. Good magnets in the magnetron tube. Lots of micro switches. Small motor, motorized fan.
Printers
Often have stepper motors. Plugs, jacks, power transistors, diodes. Gears, shafts and other mechanical components. Control panels may have led's and push button switches. Many laser printers have standard type LCD modules. Many inkjets have nice big external power supplies.
Stereos, boom boxes, radios
Plugs, jacks, power transistors, diodes. Audio power IC (TDA2030 is very common). Transformers and power supplies, sometimes symmetrical +-. VFD modules.
TV
May not be a good salvage candidate: There are high voltage dangers and dangers from imploding picture tubes. Also when you are done there is often a disposal fee as the picture tube contains a few pounds of lead. Do not dispose of irresponsibly.
VCR
DC motors, plugs, jacks, power transistors, diodes. VFD modules, neon lamps on few models.
Salvage Techniques
Use a propane torch to salvage components from printed circuit boards ( from russ_hensel ).
First, this technique can be dangerous, in addition to possible burning yourself or burning your house down the components can emit dangerous fumes including fumes from the lead solder. Make sure you are operating carefully in a very well ventilated ( perhaps outdoor ) area. If you are not an adult have an adult approve of your procedure.
I use a propane touch with about a liter container of propane often used for plumbing work. I take the board and clamp it vertically in a vise. The torch is adjusted for about a 1 inch flame. Play the flame over the component leads while pulling on the component with a pair of pliers ( have several sizes available ). Work the component out and drop in a box. Move on to the next components. Some components can be pulled out with your fingers if you do not mind occasional burns, some can be pull out with your fingers but will burn you almost every time. If a component has heavy duty leads and light duty leads ( as some transistors that are connected to heat sinks do ) heat the heavy duty leads first. If the components has much plastic near the board ( for example ) headers, you may destroy the part. Practice will improve your technique. Keep your head out of the fumes. Try not to set the board on fire too often. When you do make sure you put it out. Do not leave the site of the work until the boards are cool. Even surface mount components can be removed, apply heat from the side away from the component, this will often ignite the board. This technique is at least an order of magnitude faster than using a soldering iron. Some people replace the torch with a paint removing heat gun, I have tried this but like the torch better.
Do the parts work after heating this way: for me almost always.
Using a Desoldering station and/or tool is a much better idea. These are available cheap on EBay.