18 Mart 2010 Perşembe

ATX v2.2 Power Supply ATX Power Supply


Image:atx20f.png
20 PIN MOLEX 39-29-9202 at the motherboard
Image:atx20m.png
20 PIN MOLEX 39-01-2200 at the cable
PinNameColorDescription
13.3VOrange+3.3 VDC
23.3VOrange+3.3 VDC
3COMBlackGround
45VRed+5 VDC
5COMBlackGround
65VRed+5 VDC
7COMBlackGround
8PWR_OKGrayPower Ok (+5V & +3.3V is ok)
95VSBPurple+5 VDC Standby Voltage (max 10mA)
1012VYellow+12 VDC
113.3VOrange+3.3 VDC
12-12VBlue-12 VDC
13COMBlackGround
14/PS_ONGreenPower Supply On (active low)
15COMBlackGround
16COMBlackGround
17COMBlackGround
18-5VWhite-5 VDC
195VRed+5 VDC
205VRed+5 VDC
18 AWG is recommended for all wires except pin 11, which should be 22 AWG
300W configurations

ATX v2.2 Power Supply


Pinout

Image:atx24f.png
24 PIN MOLEX 44206-0007 at the motherboard
Image:atx24m.png

24 PIN MOLEX 39-01-2240 at the cable
PinNameColorDescription
1+3.3VOrange+3.3 VDC
2+3.3VOrange+3.3 VDC
3COMBlackGround
4+5VRed+5 VDC
5COMBlackGround
6+5VRed+5 VDC
7COMBlackGround
8PWR_OKGrayPower Ok (+5V & +3.3V is ok)
9+5VSBPurple+5 VDC Standby Voltage (max 10mA)
10+12V1Yellow+12 VDC
11+12V1Yellow+12 VDC
12+3.3VOrange+3.3 VDC
13+3.3VOrange+3.3 VDC
14-12VBlue-12 VDC
15COMBlackGround
16/PS_ONGreenPower Supply On (active low)
17COMBlackGround
18COMBlackGround
19COMBlackGround
20N/CNot connected
215VRed+5 VDC
225VRed+5 VDC
235VRed+5 VDC
24COMBlackGround
18 AWG is recommended for all wires except pin 11, which should be 22 AWG
For 300W configurations 
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İzleyiciler

LED DİRENÇ HESAPLAMA

All LEDs require current limiting, without a current limiting mechanism the LED will usually burn out in under a second. Adding a simple resistor is the easiest way to limit the current. Use the calculator below to find out the value of resistor you require.

For example if you are wanting to power one of our_blank">red LEDs in an automotive application you would see that the typical forward voltage is 2.0 Volts and the maximum continuous forward current is 30mA. Therefore you would enter 14.5, 2.0 and 30 into the Single LED calculation box. After calculating you get 470ohm 1 watt as the result. Here is a that allows you to enter a resistor value and generate the corresponding color code.

Note: For automotive applications use the actual system voltage, not 12 Volts. Most 12 Volt system actually operate at around 14.5 Volts.

Supply Voltage
VOLTS
Voltage Drop Across LED
VOLTS
Desired LED Current
MILLIAMPS



Calculated Limiting Resistor
OHMS
Nearest higher rated 10% resistor

Calculated Resistor Wattage
WATTS
Safe pick is a resistor with
power rating of (common values are .25W, .5W, and 1W)
WATTS

LEDs in series

Several leds in series with one resistor
Supply Voltage
VOLTS
Voltage Drop Across LED
VOLTS
Desired LED Current
MILLIAMPS
How many LEDs connected




Calculated Limiting Resistor
OHMS
Nearest higher rated 10% resistor

Calculated Resistor Wattage
WATTS
Safe pick is a resistor with
power rating of (common values are .25W, .5W, and 1W)
WATTS
LM317 UYGULAMA DEVRELERİ HESAPLAMASI

 




Çıkış Voltajı
R1 resistor

R2 resistor

R1 resistor
R2 resistor

Çıkış Voltajı


Lm317 uygulama devreleri ve detayli bilgiye Buradan ulasabilirsiniz

LM555 - ASTABLE OSCILLATOR CALCULATOR

LM555 - ASTABLE OSCILLATOR CALCULATOR
Value Of R1 Ohms Value Of R2 Ohms
Value Of C1 Microfarads
Output Time HIGH SECONDS Output Time LOW SECONDS Output Period HIGH + LOW SECONDS Output Frequency HERTZ Output Duty Cycle PERCENT
Resistor values are in Ohms (1K = 1000) - Capacitor values are in Microfarads (1uF = 1)

NOTE: The leakage currents of electrolytic capacitors will affect the actual output results of the timers. To compensate for leakage it is often better to use a higher value capacitor and lower value resistances in the timer circuits.

LM555 Astable Oscillator Circuit Diagram

LM555 - ASTABLE CAPACITOR CALCULATOR

The next calculator can find the capacitance needed for a particular output frequency if the values of R1 and R2 are known.

Value Of R1 Ohms Value Of R2 Ohms
Frequency Desired Hertz
Capacitance uF
s

VOLT AMPER OHM ve WATT HESAPLAMA

Current:
kA (kiloamps) A (amps) mA (milliamps) µA (microamps)
Voltage:
kV (kilovolts) V (volts) mV (millivolts) µV (microvolts)