design a battery charger for safe operation in a damp garage environment  to use for charging your  12 VDC car battery.

Design specifications include:

(a)     Input is a 110_rms  VAC. (V_P=110x ) at 60 Hz from a three wire service that meets the National Electrical Code.

(b)           Output is a nominal 12 volts VDC at the cathode of the diode.

(c)            Specify a resistor, R,  to limit the maximum battery charging current to 10 amperes into the 12 volt car battery assuming the battery is completely dead (0 volts) when you first connect the charger. 

(d)           There is no ripple voltage design specification.  Explain why this is unnecessary in this application.

(e)            The battery charger case is metal.

(f)              Assume a diode with V_F = 0.7 V

(g)            The  fuse in the primary circuit is to protect the power supply from a short-circuit at the battery terminals either from total battery failure or accidentally short circuiting the charging cable to ground

 

Your Design must include:

 

Well-labeled circuit diagram including the identification of  the incoming  “hot”, “neutral”, and “ground wires (U.S. standards) including the National Electric Code color coding of these wires and also show the correct color-coded wiring for a standard grounded duplex receptacle and plug.

 

1.                Key design equations and supporting calculations
2.                Component specifications including:

• Transformer-turns ratio
• Diode-current and power ratings
• Your assessment and short discussion as to whether the laboratory 1N4001 diodes could be used
• Value for R1 serving as a current limiting resistor
• Current rating of a fuse in the primary circuit to protect the power supply against a short circuit condition at the battery term

Transcribed Image Text:

RI Current Liming FRestor R1 TX1 Fuse 12 Volt Car Bater Metal Case