I would like to find a schematic for a half cycle magnetizer. The one that I have runs on three phases but I need one that runs off of the 120 volt line at 60 cycles. The working load that I need is about 5" x 5" x 4" or bigger. The specs for the output coil and the fast solid-state switch are most important. I realize that the magnetizer must be enclosed with non-magnetic material and probably uses a big heatsink.
Please log in to post an answer.
Check out the Oersted Technology article at http://oersted.com/magnetizing.PDF.
I have a collection of one and two Meg memory strips from early PCs, with which I would like to make delay lines for digitized audio. I can find no application or pin-out data for the chips; the markings seem inconsistent from strip to strip, and have no manufacturer's name or logo. (I have one set of what I believe to be four Meg strips designated as MT4C4ME8DJ.) I've done Google searches for this style of memory chip to no avail. Can anyone help?
Please log in to post an answer.
This is an old EDO SIMM.
Knowing that — and knowing that MT meant Micron — I did a Google search for "micron edo memory datasheet" and found: www.pjrc.com/mp3/simm/datasheet.html which says (among other things):
4, 8 MEG x 32 DRAM SIMMs (OBSOLETE)
DRAM MODULE
MT8D432(X)
MT16D832(X)
For the latest datasheet revisions, please refer to the Micron website: www.micron.com/mti/msp/html/datasheet.html.
FEATURES
• JEDEC- and industry-standard pin-out in a 72-pin, single in-line memory module (SIMM)
• 16 MB (4 Meg x 32) and 32 MB (8 Meg x 32)
• High performance CMOS silicon-gate process
• Single 5V ±10% power supply
• All inputs, outputs, and clocks are TTL-compatible
• Refresh modes: RAS#-ONLY, CAS#-BEFORE-RAS# (CBR), and HIDDEN
• 2,048 cycle refresh distributed across 32 ms
• Fast Page Mode (FPM) access or Extended Data-Out (EDO) Page Mode access
OPTIONS
Options Marking
Timing
50 ns access -5*
60 ns access -6
Packages
72-pin SIMM M
72-pin SIMM (Gold) G
Operating Modes
FAST PAGE MODE None
EDO PAGE MODE X
*EDO version only
Part Numbers
EDO Operating Mode
Part Number Configuration Plating
MT8D432G- x X 4 Meg x 32 Gold
MT8D432M- x X 4 Meg x 32 Tin/Lead
MT16D832G-x X 8 Meg x 32 Gold
MT16D832M-x X 8 Meg x 32 Tin/Lead
x = speed
FPM Operating Mode
Part Number Configuration Plating
MT8D432G-x 4 Meg x 32 Gold
MT8D432M-x 4 Meg x 32 Tin/Lead
MT16D832G-x 8 Meg x 32 Gold
MT16D832M-x 8 Meg x 32 Tin/Lead
x = speed
Pin Assignment (Front View) See diagram below.
72-Pin SIMM
4 Meg x 32
8 Meg x 32
PIN SYMBOL PIN SYMBOL PIN SYMBOL PIN SYMBOL
1 Vss 19 A10 37 NC 55 DQ12
2 DQ1 20 DQ5 38 NC 56 DQ28
3 DQ17 21 DQ21 39 Vss 57 DQ13
4 DQ 22 DQ6 40 CAS0# 58 DQ29
5 DQ18 23 DQ22 41 CAS2# 59 Vdd
6 DQ3 24 DQ7 42 CAS3# 60 DQ30
7 DQ19 25 DQ23 43 CAS1# 61 DQ14
8 DQ4 26 DQ8 44 RAS0# 62 DQ31
9 DQ20 27 DQ24 45 NC/RAS1#* 63 DQ15
10 VDD 28 A7 46 NC 64 DQ32
11 NC 29 NC (A11) 47 WE# 65 DQ16
12 A0 30 VDD 48 NC 66 NC
13 A1 31 A8 49 DQ9 67 PRD1
14 A2 32 A9 50 DQ25 68 PRD2
15 A3 33 NC/RAS3#* 51 DQ10 69 PRD3
16 A4 34 RAS2# 52 DQ26 70 PRD4
17 A5 35 NC 53 DQ11 71 NC
18 A6 36 NC 54 DQ27 72 Vss
*32 MB version only
If this isn't the right part, then try www.alldatasheet.com/view.jsp?Searchword=MT4C4ME8.
About 40 years ago, I built a bird sound kit and put it in a Sucrets® metal box (same size as an Altoids® tin). I don't remember the name of the company, but the circuit was a blocking oscillator. I believe it had a miniature audio transformer; one side had a center tap. I think it only had one transistor and ran on a single AA cell. I used a 1" speaker with a clear plastic diaphragm. You switched it on and it made a realistic repeating bird chirp. Better yet, if you lightly touched the speakercone, the sounds changed to other types of birds because of the change in reactance of the speaker. It was quite loud. Does anyone remember this and have a schematic?
Please log in to post an answer.
The schematic and parts list shown below is from the three page article “The Solid-State Bird,” by John Simonton, Jr. It appeared in Popular Electronics Spring 1973 “Electronics Experimenters Handbook.” (A scanned PDF of the entire article can be viewed or downloaded here also.) The foil pattern measures 2 7/16" x 1-3/4", or 71 x 44 mm. While searching, I also ran across two additional "bird sound" circuits: Dec. 1981 Radio Electronics "Electronic Bird Chirper" — four transistors, total 25 parts; and 1993 Popular Electronics Electronics Handbook "Hot Canaries" two LM324s, one transistor, two 1N914 diodes total 54 parts (no critical parts; parts count includes 9V battery, switch, and speaker).
I remember using a SN76488N 'sound generator' to build 'sound' circuits, such as train whistles, crowds cheering, birds chirping, and sirens, etc., for electronic games and other projects, but then I started to think about producing sounds as realistic as possible but in a less complicated way. Here's a possible solution that you might want to consider. I went to RadioShack and purchased a few of those handheld voice recorders [available at www.tmart.com] that allowed about a 10 to 15 second recording time. Pressing one button allowed recording, and pressing another button allowed audible playback. Removing a few screws, I simply wired a micro-switch in parallel with the playback switch and, when pressed, could instantly and repeatedly hear what I had recorded until I recorded over it with something else. I wired the output of the recorder to the input of a small audio amplifier [using an LM386 IC circuit] for a clear and loud output. I wanted a crowd cheer each time a hit was made and a trumpet blare every time a man crossed home plate in my electronic baseball game. I was fortunate enough to have these realistic recorded sounds already programmed on my Technics keyboard. I simply pressed the record button, recorded the sounds, and then wired the recorders into the game. You can easily record real bird sounds for your project. You can store all bird calls into a memory chip and then play back, record, and use as needed.
I need a schematic for an LED chaser for an atomic model my class is building. I will be using about eight to 16 LEDs. They need to be adjustable in cycling and speed. Could this circuit be expandable from, say, four to 40 LEDs?
Please log in to post an answer.
First, I would recommend checking out the ‘Chaser Light Marquee’ in Smiley’s Workshop here on N&V.
If that doesn’t work for you, I would recommend building something with presettable shift registers, aka parallel-in parallel-out shift registers.
There are a number of different versions of those, the 74198 and 74199 are TTL versions, and there is the 4035 which is a CMOS version (4 bits per chip).
The idea is, string enough of those together to have the number of outputs you want, then use switches to set the input states (thus which LEDs are lit on startup). Tie the last used output bit to the serial data input of the first chip if you want the data to cycle around once loaded. If you would rather the pattern get reloaded once all bits are shifted out then you need a way to reload when terminal count is reached (a comparator or just an up or down counter).
Once the data is latched, let the clock run at your shift rate and you’re done.
You need a clock (555 for example) and a way to load the register(s) upon powerup.
By "LED chaser," I assume you mean a circuit that will light a series of LEDs one at a time in a sequential and cyclic progression. You can accomplish this using the MC14017 Decade Counter IC (download a datasheet from www.onsemi.com). A single MC14017 will provide 10 LED outputs. Figure 3 in the datasheet illustrates how to wire together several MC14017s (with the help of MC74HC08 AND gates) for obtaining more outputs (40 LEDs will require five MC14017s). You can drive the LEDs directly from the MC14017 outputs with a series resistor (~ 470 ohms).
You'll also need an oscillator source, and an LM555 is the easiest way to do this. A convenient calculator for determining component values is available at www.coolcircuit.com/tools/ne555_calculator/index.php. You can use a potentiometer to make the oscillator frequency variable. If you make the frequency 10 Hz, for example, each LED will light for 0.1 seconds, and it will take one second to cycle through all 10 LEDs.
All the components you will need can be ordered from Jameco (www.jameco.com). You can use the 74HC4017, 74HC08, and LM555, and any size/color LED you like. The figure below is a basic schematic diagram to get started.
I need to build a high visibility display unit that consists of 15 1” x 1-1/2” display units. I've considered LEDs, Electrolum panels, and more. I cannot seem to find a display unit that can properly display true black and true white. I also need them to do at least 256 colors as well — nice, rich high resolution colors. Is there such a thing? I believe I've seen them but am not sure where since I go to a lot of places displaying a lot of stuff.
Please log in to post an answer.
The only displays I’ve seen recently are basically ‘VGA flat panels’ or LCD flat panel displays. Expensive, but with LED flat panels you should get pretty close to real black and real white… (for example, at the local Pei Wei they have large 50” flat panel TVs for their displays, and the local credit union I use does a similar thing). Here are a few companies that sell such things.
Displaytech (www.displaytech-us.com/?gclid=CKXvjJXo9q8CFSoZQgod60iTUg)
Purdy (www.purdyelectronics.com/products/displays/tftmodul.cfm)
IDT (www.toshibadisplays.com/?_kk=LCD%20display%20panels&_kt=41098ecd-8c7b-4102-b602-a2891f16f4c3)
Good luck finding a display that actually displays black. About the only thing that would come close is an "electronic ink" display as used on an Amazon Kindle. Most displays — whether CRT, LED, incandescent, etc. — generate light. Black is the absence of light and with a CRT (picture tube) or LED display, the blackest black you're going to get is with the display off. It only seems "black" in the presence of all the contrasting colored light around it. Look at your TV with power off. That's its blackest black. Really! It doesn't seem that your "256 colors" is a good definition of "nice, rich, high-resolution colors." Your local paint store has more color chips than that by far and it's certainly not "high resolution."
Where can I find a schematic or kit for a 16 button keypad encoder, without having to program a PIC? That's a regular telephone keypad plus A - D on the right side.
Please log in to post an answer.
Go to www.jameco.com and search for part number 32803. It is a DTMF Generator number TCM5089. Click on one of the three data sheet options to download and print the PDF.
Try searching on eBay for "DTMF encoder." I found more than a few there, but they aren't cheap.
DTMF ENCODER GENERATOR *** $34.00 *** 11 Days
www.ebay.com/itm/DTMF-ENCODER-GENERATOR-/400302522698?pt=LH_DefaultDomain_0&hash=item5d33e3c14a
HT9315C HOLTEK DTMF MULTIFUNCTION ENCODER CHIP *** $3.89 *** Only 1 day
www.ebay.com/itm/HT9315C-HOLTEK-DTMF-MULTIFUNTION-ENCODER-CHIP-/150826386913?pt=UK_BOI_Electrical_Components_Supplies_ET&hash=item231df405e1
DTMF ENCODER KIT WITH 16 KEY KEYPAD + TX KEYING OUTPUT *** $30.32 *** 10 days
www.ebay.com/itm/DTMF-Encoder-kit-with-16-key-Keypad-TX-keying-output-/270993370582?pt=LH_DefaultDomain_3&hash=item3f1876add6
While these will all probably be sold before you read this, you'll most likely find others. I'd ask the "Electrical_Components_Supplies_ET" place since they may have other chips.
The IC for DTMF encoding is a TP5089 from National, or a second source is TCM5089 from Texas Instruments.
It is available from Jameco (Jameco.com) as TP5089; their item #32803.
It's listed as available from stock on their website. You can also download datasheets from them to check before ordering.
How can I implement FFT in microcontrollers so that I can do a frequency analysis of incoming audio signals that I have sampled through the A/D converter? I am not getting just where to start, though I know mathematical techniques of FFT. I want to deploy a cool audio spectrum analyzer for my audio system using matrix LEDs.
Please log in to post an answer.
I googled "audio FFT for PIC libraries" and got several hits for arduino and Rpi libraries Give it a try, I think you will find what you're looking for.
I am looking for a positive temperature coefficient motor starter for a compressor. Or, I need help using different parts such as a single pole contactor/relay for a hard start. The part I want to replace has the following number: RF-6850-18, and consists of a PTC starter and an overload protector. Can I replace this with a hard starter contacter? I can photocopy the schematics and email anyone who can help me.
Please log in to post an answer.
The original part is shown at www.repairclinic.com/PartDetail/Start-Device/RF685018/1569121.
The three terminals on the device are C, S, and R. C is connected to the COMMON of the compressor, with S being START winding, and R being RUN winding.
I'd suggest replacing the original device, and adding the proper MARS hard start device to kick the compressor. You don't want to bypass the overload! PERIOD!
MARS Motors & Armatures, Inc., has hard start devices and torque multipliers for refrigeration/AC compressors. I've used a smaller MARS hard start device on several refrigerators, and they work fine. (www.marsm-a.com/CGI-BIN/LANSAWEB?WEBEVENT+R06630136135017015394091+ML6+ENG).
I can't find the paperwork on the last MARS device I purchased. Any local HVAC distributor should be able to locate what you need, depending on the compressor size. It's just a two wire hookup.
I'm including a PDF document from MARS and my refrigeration document for you to view.
I work for a major appliance repair company/retailer. Replacing the factory compressor start device with an after-market hard start kit is not recommended. Most of those kits — if not used or sized correctly — can cause permanent compressor failure. I would suggest trying to source the correct part by model and serial number of the refrigerator. There is a major appliance parts dealer in Cincinnati and Dayton that can help. If you can not find a model or serial, I suggest Whirlpool part number 8201786. This kit covers several different compressors, as well as wiring connections.
I've bought PTC starters for refrigeration compressors from www.repairclinic.com on a few different occasions. A local appliance shop with a parts counter should be able to supply them too, either OEM or a universal replacement. The "hard start" kits you can get are nothing more than a standard PTC starter, overload protector, and capacitor stuffed into a housing. The one time I tried one of those, it failed within a few weeks.
If you want to try rolling your own, this schematic is said to work although I've not personally tried it. Digi-Key, Mouser, and other electronics distributors carry a selection of PTCs and bimetal circuit protectors that could be used.
Go to any well stocked refrigeration supply house and ask for a universal compressor starter.
This will be a device with leads. (I have no idea what's inside.) Connect it as shown on the package, removing the existing starter device.
These things work every time. Be sure to leave any original thermal protective device intact.
They can also be used on small air compressors that use PTC devices as starters.
I need a simple schematic diagram which shows how the home thermostat controller is connected to the gas heater and to the air conditioning at the same time.
Please log in to post an answer.
Here is documentation for a typical thermostat. Make sure you know what voltage your existing system uses before making a purchase.
I think the schematic is self-explanatory
I’m considering converting an old car with manual steering to electric. However, DC motors about 10 HP or more are expensive. I saw that the Northern Tool catalog has a 10 kw generator head with brushless technology (Item 165928). Is this a 13 HP brushless DC motor I could modify?
Please log in to post an answer.
You can ask the expert at Northern Tool, but I am sure he will tell you that this is a single phase, 220 VAC generator and cannot be used as a motor. A three-phase generator could possibly be used as a motor, but 60 Hz machines don't like to be run at other frequencies so variable speed would be a problem. You would need a clutch and transmission.
