An375 – Cirrus Logic AN375 User Manual

AN375

AN375REV4

23

Step 16) Zero-current Detection
The recommended design approach is to set the auxiliary voltage V

AUX

to 22V. A higher voltage is acceptable

to assure a stable steady state supply voltage V

DD

at a cost of slightly larger losses. The customer reference

design CRD1615-8W is designed with a 5.75:1:1 transformer ratio, hence the auxiliary voltage V

AUX

is

designed to be equal to the output voltage V

OUT

. Use Equation 23 on page 16 to calculate the turns ratio for

the auxiliary winding. See Equations 56:

Step 17) Overvoltage Protection
Resistor R6 must be greater than 31k

 to limit the current into the FBAUX pin to below 1mA. The customer

reference design CRD1615-8W uses a 69.8k

 resistor for R6, which is also used to attenuate the voltage to

pin FBAUX to a voltage of 1.25V. Use Equation 57 to calculate the auxiliary voltage V

AUX(OVP)

when the output

voltage is 25% above the maximum output allowed:

To calculate the current I

AUX

flowing into the voltage divider formed by resistors R6 and R10 when an OVP

event occurs use Equation 58:

Calculate resistor R10 using Equation 59:

Resistor R10 is selected to be a 2.61k

 standard value.

Step 18) External Overtemperature Protection
The external negative temperature coefficient (NTC) thermistor reference is a Murata NCP18WF104J03RB.
This NTC is 100k

 with a Beta of 4275. If the temperature exceeds 95°C, thermistor R

NTC

is approximately

6.3k

 and series resistor R18 is 14k, so the eOTP pin has a total resistance of 20.3k. The eOTP pin

initiates protective dimming action by reducing the power dissipation. At 125°C, the thermistor R

NTC

is

approximately 2.26k

 and series resistor R18 is equal to 14k so the eOTP pin has a total resistance of

16.26k

 The eOTP circuit temperature reaches the point where a thermal shutdown fault intervenes. The

CS1615/16 will continue to monitor pin eOTP, and once the series resistor R18 plus the thermistor R

NTC

rise

above 19.23k

, the device will resume power conversion.

Step 19) Optional Clamp Circuit
The clamp circuit is optional and not implemented in this design example.

N

S

N

AUX

--------------

V

F

V

OUT

+

V

AUX

----------------------------

0.9V 27.9V

+

28.8V

-----------------------------------

1

=

=

=

[Eq. 56]

V

AUX OVP





1.25

N

AUX

N

S

--------------









V

F

V

OUT OVP





+









1.25 1.0

0.9V 27.9V

+









36V

=

=

=

[Eq. 57]

I

AUX

V

AUX max





1.25V

–

0.9V

–

R6

--------------------------------------------------------------------

36V 1.25V

–

0.9V

–

69.8k



---------------------------------------------------

0.495mA

=

=

=

[Eq. 58]

R10

1.25V

I

AUX

----------------

1.25V

0.495mA

------------------------

2.53k



=

=

=

[Eq. 59]