12 Volt 30 Amp PSU
Using a single 7812 IC voltage regulator and multiple outboard pass transistors,
this power supply can deliver output load currents of up to 30 amps. The design
is shown below:
Notes:
The input transformer is likely to be the most expensive part of the entire project.
As an alternative, a couple of 12 Volt car batteries could be used. The input voltage
to the regulator must be at least several volts higher than the output voltage (12V)
so that the regulator can maintain its output. If a transformer is used, then the
rectifier diodes must be capable of passing a very high peak forward current, typically
100amps or more. The 7812 IC will only pass 1 amp or less of the output current,
the remainder being supplied by the outboard pass transistors. As the circuit is
designed to handle loads of up to 30 amps, then six TIP2955 are wired in parallel
to meet this demand. The dissipation in each power transistor is one sixth of the
total load, but adequate heat sinking is still required. Maximum load current will
generate maximum dissipation, so a very large heat sink is required. In considering
a heat sink, it may be a good idea to look for either a fan or water cooled heat
sink. In the event that the power transistors should fail, then the regulator would
have to supply full load current and would fail with catastrophic results. A 1 amp
fuse in the regulators output prevents a safeguard. The 400mohm load is for test
purposes only and should not be included in the final circuit. A simulated performance
is shown below:
Calculations:
This circuit is a fine example of Kirchoff's current and voltage laws. To summarise,
the sum of the currents entering a junction, must equal the current leaving the
junction, and the voltages around a loop must equal zero. For example, in the diagram
above, the input voltage is 24 volts. 4 volts is dropped across R7 and 20 volts
across the regulator input, 24 -4 -20 =0. At the output :- the total load current
is 30 amps, the regulator supplies 0.866 A and the 6 transistors 4.855 Amp each
, 30 = 6 * 4.855 + 0.866. Each power transistor contributes around 4.86 A to the
load. The base current is about 138 mA per transistor. A DC current gain of 35 at
a collector current of 6 amp is required. This is well within the limits of the
TIP2955. Resistors R1 to R6 are included for stability and prevent current swamping
as the manufacturing tolerances of dc current gain will be different for each transistor.
Resistor R7 is 100 ohms and develops 4 Volts with maximun load. Power dissipation
is hence (4^2)/200 or about 160 mW. I recommend using a 0.5 Watt resistor for R7.
The input current to the regulator is fed via the emitter resistor and base emitter
junctions of the power transistors. Once again using Kirchoff's current laws, the
871 mA regulator input current is derived from the base chain and the 40.3 mA flowing
through the 100 Ohm resistor. 871.18 = 40.3 + 830. 88. The current from the regulator
itself cannot be greater than the input current. As can be seen the regulator only
draws about 5 mA and should run cold.
Title: 12 Volt 30 Amp PSU
electronic circuit
Source: www.mitedu.freeserve.co.uk
Published on: 2005-02-03
Reads: 1976
Print version:
Other electronic circuits and schematics from Power
-
LASER Power Supply
-
Ni -Cd Batteries Charger
-
2 Watt Switching Power Supply
-
Dual Regulated Power Supply
-
0-50V 2A Bench power supply
-
Simple Car Battery Charger
-
Dual Polarity Power Supply
-
5V/1A Power Supply
-
10 Amp 13.8 Volt Power Supply
-
Ni-Cd Battery Auto Charger