FAN4147 Fairchild Semiconductor, FAN4147 Datasheet - Page 5

FAN4147

Manufacturer Part Number

FAN4147

Description

The FAN4147 is a low-power Ground Fault Interrupter (GFI) controller for detecting hazardous current paths to ground and ground-to-neutral faults

Manufacturer

Fairchild Semiconductor

Datasheet

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FAN4147 • Rev. 1.0.1

Functional Description

(Refer to Figure 1 and Figure 2.)

The FAN4147 is a GFCI controller for AC ground-fault

circuit interrupters. The internal rectifier circuit is

supplied from the AC line during the positive half cycle

of the AC line voltage. The internal 12V shunt regulator

uses a precision temperature-compensated bandgap

reference. The combination of precision reference

circuitry and precision sense amplifier provides for an

accurate

selection of external components with wider, lower-cost,

parameter variations. Due to the low quiescent current,

a high-value external series resistor (R1) can be used,

which reduces the maximum power wattage required.

The 12V shunt regulator generates the reference

voltage for the sense amplifier’s (A

(AC ground reference) and supplies the bias for the

delay timer (T

The secondary winding of the sense transformer is

connected to pin 4 (VREF) and to a resistor R

DC connected to the inverting input of the sense

amplifier at pin 5 (VFB). The feedback resistor (R

converts the sense transformer’s secondary current to a

voltage at pin 6 (AmpOut). This voltage is compared to

the internal window comparator (C

AmpOut voltage exceeds the +/-V

the window comparator triggers the internal delay timer.

The output of the window comparator must stay HIGH

for the duration of the t

comparator’s output goes LOW, the internal delay timer

starts a reset cycle. If the window comparator’s output is

still HIGH at the end of the t

enables the current source I

current source I

energizes the solenoid, opens the contact switches to

the load, and removes the hazardous ground fault. The

window comparator allows for detection of a positive or

negative I

the line voltage.

The sense transformer typically has a toroidal core

made of laminated steel rings or solid ferrite material.

The secondary of the transformer is typically 800 to

1500 turns of #40 wire wound through the toroid. The

primary is typically one to two turns made by passing

the AC hot and neutral wires through the center of the

toroid. When a ground fault exists, a difference exists

between the current flowing in hot and neutral wires.

The primary difference current, divided by the primary-

to-secondary turns ratio, is the current that flows

through the secondary wire of the transformer.

A grounded neutral condition occurs when the neutral-

line is grounded at the neutral-load side.

Depending on the resistance of the grounded neutral

connection, this condition causes the sense coil to

detect a lower ground fault current. The detection of a

ground-to-load-neutral fault relies on the principle of

positive feedback. When this occurs, the sense and

neutral coils are mutually coupled, which produces a

positive feedback path around the sense amplifier. This

positive feedback causes the sense amplifier to

FAULT

ground-fault

), comparators (C

signal independent from the phase of

then enables the external SCR, which

tolerance.

timer. If the window

and disables Q

pulse, the SCR driver

& C

) non-inverting input

& C

), and SCR driver.

threshold voltage,

This

) and, when the

allows

directly

. The

SET

for

)

oscillate. When the peak oscillation voltage exceeds the

SCR trigger threshold, the internal delay timer is

enabled. Since the amplifier’s output signal is crossing

the window comparator’s trip threshold typically at

6KHz, the delay timer alternates between detection of a

fault/no fault. The ratio of the fault/no-fault detection

time interval determines if the SCR driver is enabled.

The sensitivity of the grounded neutral detection is

changed by the neutral coil turns and C2, C3 values.

The

comparator’s V

delay timer. Therefore:

where:

Note:

Since the sense coil is DC connected to the feedback of

the sense amplifier, the V

threshold error. This error can be calculated as:

%Error=

100 x (V

where:

%Error = +/- 3.2% (worst case); +/-1.1% (typical).

FAULT

SET

=(V

In practice, the transformer is non-ideal, so R

may need to be adjusted by up to 30% to obtain the

desired I

Trip Threshold Error Calculation

FAULT

Resistor Calculation

AmpOut

= 3.5V ;

= 5mA (UL943) ;

= 1ms (timer delay);

= Period of the AC Line (1/60Hz);

= Ratio of secondary to primary turns (1000:1);

= 505KΩ (511KΩ standard 1% value).

= +/-450μV (worse case);

= +/-150μV (typical);

= 511KΩ;

= 470Ω (typical value);

= 75Ω (sense coil secondary DC resistance);

= 3.5V;

x N) / (1.41 x I

x 1.41 x R

x R

1.5KΩ (AC

(L= 4H, f= 60Hz);

fault

SET

trip threshold.

signal

) / (R

threshold voltage for longer than the

SET

(j ω L)

x C

+ RL

FAULT

must

impedance of sense coil)

x C

offset introduces an I

+ RL

exceed

x (t/2P)) / N

(

x t/P))

) / V

the

www.fairchildsemi.com

(4)

window

SET

fault

(1)

(2)

(3)

FAN4147 Fairchild Semiconductor, FAN4147 Datasheet - Page 5

FAN4147

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