Power Electronics | Electronic Schematic Diagram https://electronicscheme.net Schematic Diagram & PCB Design Sat, 18 Mar 2017 23:12:53 +0000 en-US hourly 1 https://i0.wp.com/electronicscheme.net/wp-content/uploads/2017/05/cropped-transparent_text_effect.png?fit=32%2C32&ssl=1 Power Electronics | Electronic Schematic Diagram https://electronicscheme.net 32 32 129969089 6V to 12V DC to DC Voltage Converter https://electronicscheme.net/6v-to-12v-dc-voltage-converter/?utm_source=rss&utm_medium=rss&utm_campaign=6v-to-12v-dc-voltage-converter https://electronicscheme.net/6v-to-12v-dc-voltage-converter/#comments Fri, 17 Apr 2009 17:18:03 +0000 http://electronicscheme.net/?p=75 This is the circuit diagram of 6V to 12V DC to DC voltage converter (6V to 12V DC voltage doubler). This is the active circuit […]

The post 6V to 12V DC to DC Voltage Converter first appeared on Electronic Schematic Diagram.]]> This is the circuit diagram of 6V to 12V DC to DC voltage converter (6V to 12V DC voltage doubler). This is the active circuit for voltage doubling from 6 volt to 12 volt DC with 1A maximum current. The IC is used as switcher device.

Schematic diagram:

6V to 12V DC to DC Converter schematic diagram

Components and its usage:

IC Switcher/regulator LM2577T-ADJ (Texas Instrument)
R1 and R2 Voltage devider for monitoring output voltage 20Kohms pot. (Bourns)
Cin Decoupling 0.1?F, 63V MKS condensator (WIMA)
L Use a good quality coil! 160?H toro?d (2.5A, 70mohms, nickel-iron core)
D Current higher than output current! FR603 60V reverse breakdown, 3A Schottky-diode
Rc and Cc Pole-zero compensation network 2200ohms, 5% and 1?F, 63V elco (Philips)
Cout Get a low ESR type! 2200?F, 16V elco (Telecon)


6V to 12V DC to DC voltage converter circuit works:

When the switch is closed an extra current flows through the inductance and stores energy there. The capacitor supplies the load with current during this time.

After the switch closes the capacitor is charged by the energy stored in the inductance and an extra current starts flowing through the load, causing the output voltage to rise (energy is supplied directly from the input source also as long as the diode is forward biased). During this time, the system behaves like a RLC-circuit, so, after a while, the current decreases. The switch is then closed again and the cycle repeats. One could say that charge is pumped from input to output, increasing the output voltage up to the point where there is an equilibrium between the discharging of the capacitor while the switch is closed and the charging by the inductor while the switch is open.

PCB layout:

This is the simple and easy built of PCB design layout for above 6V to 12V DC Voltage converter diagram.

6V to 12V DC Voltage Converter pcb layout

The circuit will look like following image:

6V to 12V DC Voltage Converter component layout

The post 6V to 12V DC to DC Voltage Converter first appeared on Electronic Schematic Diagram.]]> https://electronicscheme.net/6v-to-12v-dc-voltage-converter/feed/ 14 75 Basic Inverter https://electronicscheme.net/basic-inverter-circuit/?utm_source=rss&utm_medium=rss&utm_campaign=basic-inverter-circuit https://electronicscheme.net/basic-inverter-circuit/#comments Thu, 19 Mar 2009 05:33:06 +0000 http://electronicscheme.net/?p=59 The following diagram is the basic design diagram of inverter circuit. The circuit will convert 12V DC to 120V AC. This basic inverter circuit can […]

The post Basic Inverter first appeared on Electronic Schematic Diagram.]]> The following diagram is the basic design diagram of inverter circuit. The circuit will convert 12V DC to 120V AC. This basic inverter circuit can handle up to 1000Watts supply depends the T1, T2 and transformer used. Please see the note.

Basic inverter circuit design

Basic Inverter Components list:

Part Total Qty. Description Substitutions
C1, C2 2 68 uf, 25 V Tantalum Capacitor
R1, R2 2 10 Ohm, 5 Watt Resistor
R3, R4 2 180 Ohm, 1 Watt Resistor
D1, D2 2 HEP 154 Silicon Diode
Q1, Q2 2 2N3055 NPN Transistor (see “Notes”)
T1 1 24V, Center Tapped Transformer (see “Notes”)
MISC 1 Wire, Case, Receptical (For Output)

 

Notes:

1. Q1 and Q2, as well as T1, determine how much wattage the inverter can supply. With Q1,Q2=2N3055 and T1= 15 A, the inverter can supply about 300 watts. Larger transformers and more powerful transistors can be substituted for T1, Q1 and Q2 for more power.

2. The easiest and least expensive way to get a large T1 is to re-wind an old microwave transformer. These transformers are rated at about 1KW and are perfect. Go to a local TV repair shop and dig through the dumpster until you get the largest microwave you can find. The bigger the microwave the bigger transformer. Remove the transformer, being careful not to touch the large high voltage capacitor that might still be charged. If you want, you can test the transformer, but they are usually still good. Now, remove the old 2000 V secondary, being careful not to damage the primary. Leave the primary in tact. Now, wind on 12 turns of wire, twist a loop (center tap), and wind on 12 more turns. The guage of the wire will depend on how much current you plan to have the transformer supply. Enamel covered magnet wire works great for this. Now secure the windings with tape. Thats all there is to it. Remember to use high current transistors for Q1 and Q2. The 2N3055’s in the parts list can only handle 15 amps each.

3. Remember, when operating at high wattages, this circuit draws huge amounts of current. Don’t let your battery go dead :-).

4. Since this basic inverter project produces 120 VAC, you must include a fuse and build the project in a case.

5. You must use tantalum capacitors for C1 and C2. Regular electrolytics will overheat and explode. And yes, 68uF is the correct value. There are no substitutions.

6. This circuit can be tricky to get going. Differences in transformers, transistors, parts substitutions or anything else not on this page may cause it to not function.

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