ONIDA CPL 01-M37I60 MA-200 FP

A complete parts list of ONIDA. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....


 quick brown fox jumps over the lazy dog
SYSTEM = 01-M37I60 MA-200 FP

MEMORY = 24C16

POWER = 1802

SMPS TRANSFORMER = EIMWS40702- M01E

EHT = BSC 23-N-0140

HOR O/P = 1803 DHF

HOR OSC COIL =

VERTICAL = AN5522

AUDIO = TDA 2614

TUNER = E1STUWV05T ENV57DB2F1

REMOTE = RC 115/A

SERVICE MODE = VSM + DISP

DISH TV ACTIVATION HACK FOR ALL DISH DEALER AND MEMBERS

DISH TV ACTIVATION HACK FOR ALL DISH DEALER AND MEMBERS


This Activation hack able to you any dish set top box activat one year sub. in only 1140. Rs so you earn 2000 Rs for each activation.i have Allready activat 100 vc with this hack.
1.first you login with your dishtv dealer id in dishtv site.

2.http://www.dishtv.in/ActivationOLS/ActivationFormJan081.asp?txtDLID=.....&txtVCNO=.........&txtSTBNO=.............&txtsafno=......&ot=4&SelZone=11

3.copy and paste above link in internet explorer and delete blank dot dot and write in first space settop box dealer id in secand vc no. in third stb no. in fouth safno and press enter.

4.You see the activation window is open now you fill this fourm and pay 1140 rs by itz card.now the settop box activet for one year maxi pack.

ONIDA CLASSIC-14 MODEL CI14PIUPGS

A complete parts list of ONIDA CLASSIC-14 MODEL CI14PIUPGS. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....

SYSTEM = TDA 11105H/N3/3/MB3

MEMORY = 24C32 (small )

POWER = STR C8656

SMPS TRANSFORMER = 

EHT = BSC 27N-2292 11037104

HOR O/P = MD1803D

HOR OSC COIL =

VERTICAL = LA 78040B

AUDIO = TDA7297SA

TUNER = OFS-51 ONIDA E11768 6700VPF003B

REMOTE =

SERVICE MODE = VSM + DISPLAY

SANSUI MODEL -SY14 SUPER EYE-P

 A complete parts list of SANSUI MODEL -SY14 SUPER EYE-P. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode memory ic data and many more....

SYSTEM =

CROMA =

MEMORY =

POWER =

SMPS TRANSFORMER =

EHT =

HOR O/P =

HOR OSC COIL =

VERTICAL =

AUDIO =

TUNER =

REMOTE = ST202

SERVICE CODE - MENU THEN 0323

MEMORY IC DATA IN DETAILS

HSH-50 = 17
VS-50 = 35
VA-50 = 50
VSH-50 = 33
SC-50 = 20
HSH-60 =38
VS-60 = 30
VA-60 = 34
VSH-60 = 63
SC-60 = 30
PROG NO =22
AGC = 27
ZOOM -50 = 50
ZOOM-60 = 49
FFI = 1
SHIPPING = 0
MANUFATU = 1
BT =37
CT = 44
SC = 0
RB = 31
GB = 4
RD = 0
GD = 32
BD = 32
SUB-BRI = 43

SANSUI MODEL SV 2010K

A complete parts list of SANSUI MODEL SV 2010K. With circuit diagram ,

service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....

SYSTEM = LC863340A 5Y37 2C02

CROMA = LA 76810A

MEMORY = L510C C137

POWER = C4237

SMPS TRANSFORMER = TM-0060-OL

EHT =

HOR O/P = C1651

HOR OSC COIL =

VERTICAL = LA7840

AUDIO = TDA 2616

TUNER = V-SMG 28 IEC 12 1984755

REMOTE = VES 205

SERVICE MODE = IN MAIN PCB 2 JUMPER NEAR MEMORY SHORT THESE
Now you can see TEST Mode
Press 0
give password = 200528 or 991220

Adjust menu you can Press 0/1/2/3/4/5/6/7/8/9

SANSUI VIVA 14" MODEL CTVSAN14MSP-CNT

A complete parts list of SANSUI VIVA 14" MODEL CTVSAN14MSP-CNT. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....

SYSTEM = ROC-VAS-02 R2J10160G8-A61

MEMORY = 24C16

POWER = C4458

SMPS TRANSFORMER =

EHT = BSC 24-01N4028W, BSC24-01N 4095A

HOR O/P = MD2103

HOR OSC COIL =

VERTICAL = LA78040B

AUDIO = AN17823A

TUNER = OFS51Y J8233

REMOTE =

SERVICE MODE =

SAMSUNG MODEL CB5001FV

A complete parts list of SAMSUNG MODEL CB5001FV. With circuit diagram , service code, system ic, croma ic, memory ic, power, smps transformer, eht, horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner, Remote, service mode and many more....

SYSTEM = KS88C8432-11 SSM-501 E1
CROMA = TDA 8841S1
MEMORY = 24C04
POWER = 3S0680 RH
SMPS TRANSFORMER = AA 26 200060 DNW 700
EHT = FSC- 20A001 REV.0
HOR O/P = MD1803D
HOR OSC COIL =
VERTICAL = TDA8356VQ29A (s)
AUDIO =
TUNER = TECC 09A9
REMOTE = 0026 TUSCAN ( 90 CH REMOTE CAN BE )
SERVICE MODE =

SANSUI CTV B2B 21V

 A complete parts list of SANSUI CTV B2B 21V. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....


SYSTEM = TDA 1213PS/N3/3/AE8
AUDIO = TDA7297
VERTICAL = STV 9302A
HOR = MD2103
POWER = 4460
EHT = BSC 24-01N40
MEMORY = 24C32
TUNNER =
AV SWITCH = HEF 4052 BP
REMOTE = SUTD -SS64
SERVICE MODE =

SAMSUNG CS14D600KJ

 A complete parts list of SAMSUNG CS14D600KJ. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....


SYSTEM = TDA11105/H/N3/3
MEMORY = 24C16
POWER = STR W6754F
SMPS TRANSFORMER = AA26- 00323A
EHT = BSC25-0218N REV02, AA26-00317A
HOR O/P = TT2206
HOR OSC COIL = 11140
VERTICAL = LA78045
AUDIO = TDA7297
TUNNER = EWT 5F6T2-EW, AA40-00176A
REMOTE =
SERVICE MODE =

SAMSUNG MODEL CS21A530FLKXL

 A complete parts list of SAMSUNG MODEL CS21A530FLKXL. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....


SAMSUNG ULTRA SLIM EASY VIEW
CHASSIS = AA41-01333B
MODEL = CS21A530FLKXL
SYSTEM = TDA 12156H/N3/3
MEMORY = 24C16
POWER = STR W6754F
SMPS TRANSFORMER = AA26-00323B
EHT = BSC 25-0218N REV O1, AA26-00317A
HOR O/P = TT2206
VERTICAL = LA72045
AUDIO = TDA 7269A
TUNNER = EWT 5F6T2-EW AA40-00176A
 EW = 9D5N20P
REGULATOR = KIA78, R05PI
                           C2073
REMOTE = BN 59-00891A
SERVICE CODE = POWER- MENU - MUTE- POWER



POWER VOLTAGES ARE = +121V DC, +13V DC, +6V2 DC, -15V6 DC, +16V2

SAMSUNG PLANO MODEL CB21K5ML

 A complete parts list of SAMSUNG PLANO MODEL CB21K5ML. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....

SYSTEM = LA76841 9FB 5LDOU
MEMORY = 24C16
POWER = 5Q0765RT
SMPS TRANSFORMER =
VERTICAL = LA 78040
AUDIO = TDA 8946J
HOR O/P = D 5038
HOR OSC COIL =
EHT = AA26- 00201A,(OR)  FSV 14A004F (S)
TUNNER = AA-40-00025A
REMOTE = AA59- 00345A

SAMSUNG ULTRA SLIM MODEL CS14C540AJNXXL

A complete parts list of SAMSUNG ULTRA SLIM MODEL CS14C540AJNXXL. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....

SYSTEM = TDA 11105H/N3/3 CAE 456 01.
MEMORY = 24C16
POWER = STR W 6754F
SMPS TRANSFORMER = AA26- 00323A
VERTICAL = LA78045
AUDIO = TDA 7297 SA
HOR O/P = J6810A
HOR OSC COIL = 1215C
EHT = BSC 25-0218N REV 03 - AA26 00317A
TUNNER - EWT 5F6T2-EW  AA40-00176A
REMOTE = BN 59 - 00960A
SERVICE MODE =

LG MODEL NO CD 15Q91VE

 A complete parts list of LG MODEL NO CD 15Q91VE. With circuit diagram ,
service code, system ic, croma ic, memory ic, power, smps transformer, eht,
horizontal output , horizontal oscillator coil, vertical ic, audio ic, tunner,
Remote, service mode and many more....

SYSTEM = TDA 9859
CROMA = TDA 9370PS/N3/A/1743
AUDIO = TDA 7297
VERTICAL = LA7840
HOR O/P = D 2499
EHT =
POWER = STR F 6654
TUNNER = 6700V PFL05A TAEM-G101D
MEMORY = 24C16
SMPS TRANSFORMER = UTSAV01R1-161 A13P OID
HOR-OSC- COIL =
REMOTE=
SERVICE MODE =

COLOR TV CRT BASE CONVERSION

COM PAIR TWO SIZE OF CRT BASE EACH OTHER

BIG SIZE THICK NAKE BASE

1 - GND
2- GREEN CATHODE
3 - SCREEN GRID
4 - RED CATHOD
5 - GND
6 - HEATER
7 - BLUE CATHODE
8 - N/C

SMALL SIZE THIN NAKE BASE

1 - BLUE CATHODE
2 - GND
3 - HEATER
4 - GND
5 - RED CATHOD
6 - SCREEN GRID
7 - GREEN CATHODE

AIRTEL SETTING FOR DBC- SF- S / S2- D DIGITAL SATELLITE FINDER

HOW TO EDIT OR ADD AIRTEL DIGITAL SATELLITE  SIGNAL IN YOUR DIGITAL SAT-FINDER

I know that all transponder and symbolic rate of Airtel Digital Satellite is not working in DBC- SF- S / S2- D DIGITAL SATELLITE FINDER, So i Give you a new trick signal tracking Airtel Digital Signal in  DBC- SF- S / S2- D,

If you don't know about edit or add transponder in SAT- FINDER then read this
now add these Transponder Or Symbol Rate for Airtel Digital

Transponder                       Symbol Rate            Polarization
11419                                 12000                     Horizontal
11476                                  5000                      Horizontal


Now You can enjoy ...............
If need any assistance you can comment me in comment box bellow. 

HOW TO REPAIR A REMOTE CONTROL

Now i give you some technical idea for repair a defective remote control.

STEP 1

Check first 2 nos of battery amp with your multimeter or change these. If not don then..........

STEP 2

Open remote control cabinet.If not don then..........

STEP 3

After insert battery check 3v dc reach to battery connecting spring clamp.

If not reach then wash with spirit or other process.

Then check IR LED 2 points one is 3v dc and second one is 2v dc.

If cant get these then check IR LED and path to this.If not don then..........

STEP 4

Check or change the crystal CRB 455E .If not don then..........

STEP 5

Re soldering the ic.If not don then..........

STEP 6

If not complete then remote is damage.  

 

Batteries dislodged or drained

Open the battery cover and make sure the batteries are properly seated.  Press a few device buttons like AUX, DVD, STB, TV. If the top of your remote flashes briefly, the batteries are working. If the top of the remote does not flash, your batteries need to be replaced.The batteries in your remote control may have become dislodged or are drained.

Remote is for another TV

If you have multiple TVs, you may be using a remote that is programmed for another TV.

• Check that you're using the remote that was set up for the TV you are trying to control.

Device not active

The device you are trying to control may not be the active device.

• Press the device button for the device you are trying to control to make it the active device. Try to operate the device again.

Signal not being received

Something may be blocking the path to the device you want to control, you may not be pointing at the sensor on the device, or you may be too far away.

• Open cabinet doors and remove any other obstacles that may be between the remote and the device.
  
• Point the remote directly at the sensor on the device.
   
• Be sure you are within 8 meters or 25 feet of the device you want to control.

 Device not programmed

The device you are trying to control may not be programmed into your remote.

• To program the device into your remote control, find your remote on the FiOS TV remote controls & codes page and select the applicable Set up your remote link.

TV settings have changed

Your TV settings may have been accidentally changed.

• Using the remote control that came with your TV, check that your TV is set to either channel 3 or 4 and that it is currently set for the input mode you are trying to control.

Loose connection

There may be a loose connection at the Optical Network Terminal (ONT) or splitter.

• Check that the ONT or splitter connections are secure.

Searches related to

HOW TO REPAIR REMOTE CONTROL how to repair remote control helicopter how to repair remote control of tv how to repair remote control car how to repair tv remote control repair humax remote control Searches related to how to repair tv remote control buttons remote control button repair kit how to fix remote control buttons Searches related to tv remote control not working how to fix alba tv remote control not working apple tv remote control not working insignia tv remote control not working sky tv remote control not working panasonic tv remote control not working Searches related to tv remote control buttons not working alba tv remote control not working apple tv remote control not working insignia tv remote control not working sky tv remote control not working panasonic tv remote control not working lg tv remote control not working mio tv remote control not working tv remote control sensor not working lg tv remote control not working mio tv remote control not working tv remote control buttons not working roku remote control buttons sky remote control buttons tv remote control not working how to fix how to repair car remote control how to fix a tv remote how to fix my tv remote control

ORIENT 85 WATT CFL BULB CIRCUIT DIAGRAM

Best hi wattage cfl lights in india brought to you by orient electric.

click to large view......



ANOTHER CFL BULB CIRCUIT DIAGRAM WITH DETAILS

BIGLUZ 20 WATT       BROWNIEX 20 WATT       EUROLITE 23 WATT      IKEA 7 WATT 

IMMEDIATELY 25 WATT      ISOTRONIC 25 WATT     LUXAR 11 WATT    LUXTEK 8 WATT  

 MAYWAY 11 WATT       MAXILUX 15 WATT      OSRAM 11 WATT     OSRAM 21 WATT   

OSRAM DULUX STAR 11 WATT      PHILIPS 11 WATT      PHILIPS GENIE 11 WATT  

 PHILIPS 14 WATT     POLARIS 11 WATT











serches related to

orient cfl bulb circuit diagram. orient 85 watt cfl lamp, orient spiral cfl ,circuit diagram circuit describtion

HCL ESL 85 WATT CFL BULB CKT DIAGRAM

Many types of cfl bulb are sales in market, HCL one of them. The HCL ESL 85 WATT CFL BULB circuit diagram and all detail give u.

click to large view



ANOTHER CFL BULB CIRCUIT DIAGRAM WITH DETAILS

BIGLUZ 20 WATT       BROWNIEX 20 WATT       EUROLITE 23 WATT      IKEA 7 WATT 

IMMEDIATELY 25 WATT      ISOTRONIC 25 WATT     LUXAR 11 WATT    LUXTEK 8 WATT  

 MAYWAY 11 WATT       MAXILUX 15 WATT      OSRAM 11 WATT     OSRAM 21 WATT   

OSRAM DULUX STAR 11 WATT      PHILIPS 11 WATT      PHILIPS GENIE 11 WATT  

 PHILIPS 14 WATT     POLARIS 11 WATT







Searches related to


CFL BULB CKT DIAGRAM cfl bulbs circuit diagram circuit diagram of cfl lamp led bulb circuit diagram led light bulb circuit diagram Searches related to cfl bulbs circuit diagram cfl circuit working cfl inverter circuit use of cfl circuit working principle of cfl circuit circuit diagram of cfl lamp Searches related to circuit diagram of cfl lamp philips cfl lamp circuits cfl circuit working cfl bulb circuit 12v cfl inverter circuit use of cfl circuit 8w fluorescent lamp driver cfl electronic ballast schematic schematic of cfl bulb philips cfl circuit diagram cfl circuit diagram datasheet 12v cfl circuit diagram circuit diagram for led house bulb

CABLE TV INJECTOR 6 AMP CIRCUIT

In CABLE TV number of gain amplifier are user a stable gain and slope distribution. These Amplifier are required 60v AC power supply. That called INJECTOR. INJECTOR  has a circuit breaker for in case of short circuit in the line of field. In that time INJECTOR circuit breaker or Protection can work to disconnect out put supply.

Now I give u diagram

Searches related to


injector cable circuit diagram cable tester circuit diagram fuel injector wiring diagram house wiring circuit diagram house wiring circuit diagram pdf hospital wiring circuit diagram staircase wiring circuit diagram staircase wiring circuit diagram 2 way switch staircase wiring circuit diagram using two way switch

how to run a watch in potato

1. Divide the class into teams of two or three students each. Hand out the materials.
2. Direct groups to carefully place the zinc nails and copper pennies into the potato. Make sure the two different metals do not touch each other in the potato (see Figure 1).
3. Connect one alligator clip to the end of the penny sticking out of the potato and another alligator clip to the end of the nail sticking out of the potato (see Figure 1).

Figure 1. Placement of the nail, penny and alligator clips.

4. (If you have a multimeter) Tell students that a multimeter is an instrument that measures current, voltage and resistance of a circuit, and is a tool (created by and) often used by engineers. Set the multimeter on a low "DC volts" scale for voltage and "DC milliamps" for current, so students can see the charge that one potato can produce. Expect the potato to produce just less than 1 volt. Encourage students to convert the decimal readout from the multimeter to a fraction (for example, 0.82 volts = 82/100 volts).
5. Have the students figure out how many potatoes they need to light their LED clock (or clock). For example, if their potato produces a voltage of 0.8 volts, then they may need two potatoes to power a 1.5 voltage LED.
6. Have students experiment to figure out how to connect two potatoes together. To connect two potatoes in series, place a penny and nail into a second potato, and connect the wire from the zinc nail in the first potato to the copper penny in the second. Then, add a third wire to the zinc nail in the second potato. Always remember to connect the copper (positive) end of the potato (battery) to the zinc (negative) end of the next potato (see Figure 2).

Figure 2. Activity setup to create a potato battery to power an LED clock.

copyright

7. Expect two potatoes in series to be able to light an LED; however, you might need three. Show students how to connect the LEDs to the potato in the correct manner, that is, the positive end of the LED to the negative end of the potato battery (zinc nail) and the negative end of the LED to the positive end of the potato battery (copper penny).
8. Have students discuss how the potatoes provide the electrolyte (solution) for the chemical battery to work. Ask for suggestions of other foods we could try (for example, lemons, berries, apples).
9. Ask students to complete the worksheet either individually or in pairs. After they finish, have them compare answers with a peer or another pair, giving all students time to finish.

Troubleshooting Tips

If the LED clock, light or small light bulbs do not work, check the setup of the potato battery. Perhaps the ends are not all connected from negative to positive, or perhaps there is not enough potato voltage. Check the voltage of the potato using a multimeter or voltmeter. Another possibility is having enough voltage, but not enough current to light the bulb, which is why it is recommended to use only very low-volt LED clocks or bulbs.

Lemons and oranges also work well for this activity. They work best if you first roll them on a table top, which breaks down the cells inside so more juice flows through the fruit (current).

Some people have more conduction success using copper strips instead of copper pennies.

Soaking the potatoes in Gatorade overnight can make them more conductive.

Potato as a battery science project.

If you add some other things to the list, you'll be able to make series of interesting experiments.

Here is possible additions list:

Low voltage calculator and/or digital clock, lemons and/or other fruits, 3 plastic cups, fresh water, salty water, water with some vinegar, iron wire or nails, aluminium wire or foil.

Experiment setup:

• Take 3 potatoes and stick a galvanised nail to one side of each, and copper wire into another side.
• Connect wire from first potato to the nail of second potato and wire from secant potato to the nail on third potato.
• Svitch multimeter to voltage reading and make sure that the scale set to read 0-10 volt range.

This is pretty much it. Now you can start measuring voltage of your brand new potato battery.
First attach your multimeter clips to the wire and nail on one potato - you should see a voltage somewhere between 0.9 - 1.1 volt - this is typical for a single sync-copper potato energy cell. Note that value may be positive (0.9V) or negative (-0.9V). This is because we have DC type of current here unlike current in the typical wall outlet which is AC.
Now try to measure combined voltage from all three potato batteries. If everything is connected correctly you'll get slightly less or more 3 volts. The amperage of this current is very low and not enough to light a typical low volt light bulb. However it could be enough to power up a calculator or digital clock which need very small amount of energy to run. Try to connect nail and wires from the potato battery and power terminals of this devices and see if that will work. Remember that potato battery just like usual battery has positive and negative polarity.
Now it's time to try some variations of this experiments and tests some hypothesis

Try to answer some of the following questions:

• Can we try to change voltage of the same pair of metals?
• What happens if you stick nail and wire very close to each other in potato or as far away as possible?
• Will voltage be different if you will use lemon, lime, apple, some other fruits?
• Use plastic cup and fresh water. Put wire and nail in them. Can you see any current? What if the water will be slightly salty? Now try saturated salt solution.
• Try table vinegar instead of salty water

Make a Solar cell from defective transistor

Connecting 6 transistors in parallel series to form a small solar panel of 1.8 volts
Many words do not give proof of wise man, because the wise not to talk but when the need demand, and the words must be measured and for the need. Tales de Mileto.
Experiment
For those who like to experience we offer this experiment for its conduct and experiment with solar cells or solar panels.
Solar Cell: silicon surface that converts energy from the light directly into electricity. The solar cells are also known as photovoltaic cells (photo + voltage). When exposed to light, the solar cells are effective sources of energy. Do not provide energy when it is dark. However, when exposed to light, energy can be stored wiring up the solar cells with rechargeable batteries.

The solar cells provide only voltage direct current (dc). That means that the flow always flowing in one direction (contrary to the ac, or alternating current, which continuously changes direction-that is the way in which distributes electricity in most of our homes).

On this occasion I will discuss making one fotocelda with transistors. Caution: The old germanium transistors contain toxic substances.

As stated in the beginning, the solar cells on its surface contain silicon transistors also some germanium.
For our project will use power transistors, such as 2N3055 (NPN) or other similar preference of those who have in your work bench.

Procedure:
Taking care of the case, proceed as follows:
1. We remove the top cap of tansistor, by way of letting discovered, their internal connections, as shown in the figure.
2. Then connect the collector to the issuer, in this way will only 2 points of connection.
The collector and the issuer will be based on positive and negative, the voltage delivered will be approximately 0.6 volts.
test: To verify the operation of the solar cell, we place so that sunlight falls on the remaining elements of the transistor discovered when we removed the lid that covered, and put a multimeter on pins.
It is obvious that this project will not serve to feed a small transistor radio, because the amperage is minimal, but you can understand the functioning of solar cells.
You could try to make a small solar charger interconnecting multiple transistors to obtain, for example, 1.8 volts with 3 transistors and in that time you see charging a battery Triple A , for example.

A shoes can shocking a person

In this article, I'll be showing you how to make a simple yet effective static electricity generator. Basically, this device allows you to carry a constant static charge on your body and discharge it on anything grounded or of opposite polarity. The electricity generated is around 8-10 kV, at a very low current. The shock is enough to startle your friends, just like a static shock from a trampoline or carpeted room. You'll need a little experience in soldering and circuit design to build the project.

Step 1 Materials and Tools

• Soldering iron
• Flux-core solder
• Wire
• Negative ion generator 
• Pair of old shoes 
• 9-volt battery
• 9-volt battery connector (available at most electronics retailers such as RadioShack)
• Tin foil
• Switch (also available at most electronics retailers) 
• Drill with cutoff disk attachment
• Tape

Step 2 Building the Shocker!

The circuit schematic is represented in the (incredibly detailed) drawing below:

The generator charges you up like a capacitor, then when you come in contact with a grounded object (person), the voltage is discharged through them. I found it was best to put the generator, battery and switch inside an old shoe, like so (the "stripped" wire is ground):

Of course, to get it inside the shoe it's necessary to do a little drilling...

Once everything is installed, take some tin foil and fasten it to the bottom of the shoe, in contact with the stripped ground wire mentioned above. The picture also shows some copper foil, but any conductive metal will work.

Finally, punch a hole in the sole of the shoe and run the high voltage output from the negative ion generator through. Fasten the wire INSIDE the shoe so that when worn, the wire touches your foot like so...

And you're done! Simply put on the shoe(s), turn on the shocker, and become powerful. Literally, people will run away from you. If you're looking to build a more powerful shocker,