CDB150X-01-Z Cirrus Logic Inc, CDB150X-01-Z Datasheet - Page 12

CDB150X-01-Z

Manufacturer Part Number

CDB150X-01-Z

Description

High-efficiency PFC Demo. Board

Manufacturer

Cirrus Logic Inc

Series

-r

Datasheets

1.CDB150X-01-Z.pdf (16 pages)

2.CDB150X-01-Z.pdf (16 pages)

3.CDB150X-01-Z.pdf (16 pages)

4.CDB150X-01-Z.pdf (2 pages)

Specifications of CDB150X-01-Z

Silicon Manufacturer

Cirrus Logic

Kit Application Type

Power Management

Application Sub Type

Power Factor Correction (PFC)

Kit Contents

Board, Datasheet

Design Resources

CS150x/160x PCB Layout Guidelines Boost Inductance vs. Inductor Size

Featured Product

CS1501/CS1601 Power Factor Correction IC Controllers

Main Purpose

Power Management, Power Factor Correction

Embedded

Utilized Ic / Part

CS1501

Primary Attributes

400V, 90W output

Secondary Attributes

90 ~ 265 VAC universal input

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Current page: 12 of 16
Download datasheet (2Mb)

Thresholds

5.8 Brownout Protection

The CS1501 brownout detection circuit monitors the peak of

the V

it drops below a pre-determined threshold. Hysteresis and

minimum detection time are provided to avoid brownout

detection during short input transients. When brownout is

detected, the CS1501 enters standby mode. On recovery from

brownout, it re-enters normal operating mode.

Current I

The digitized current applied to the IAC pin is monitored by the

brownout protection algorithm. When V

brownout detection threshold, the CS1501 triggers a timer.

The IC asserts the brownout protection and stops the

gate-drive switching only if the timer exceeds 56ms. This is

the equivalent of 7 rectified line cycles at 60Hz.

During the brownout state, the device continues monitoring

the input line voltage. The device exits the brownout state

when I

56ms. Typical values for the lower (I

respectively.

The overpower protection may activate prior to brownout

protection, depending on the load.

The maximum response time of the brownout protection

feature occurs at light-load conditions. It is calculated by

Equation 7.

where:

Brownout

rect

BP(upper)

BP(th)

Upper

Lower

Brownout

= R

rect

IAC

input voltage and disables the PWM switching when

Brownout threshold voltage, V

) brownout thresholds are 31.6A and 39.6A,

exceeds the brownout upper threshold for at least

is proportional to the AC input voltage V

Figure 21. Brownout Sequence

8 ms

and R

-- - 128 94.8



8 ms

----------- - 128 V V

IAC

5 V

Enter Standby

–

Brownout

= R1+R2 in



56 ms

Timer

Start

Start Timer



–

BP th

BP(th) =

Figure 18 on page

BP(lower)



rect

117ms



56 ms

drops below the

BP(lower)

56 ms

) and upper

Exit Standby

rect

, where

[Eq.7]

IAC

11.

5.9

The overvoltage protection (OVP) will trigger immediately and

stop the gate drive when the current into the IFB pin (I

exceeds 105% of the reference current (I

resumes gate drive switching when the measured current at IFB

drops below I

OVP threshold.

5.10

To limit boost inductor current through the FET and to prevent

boost inductor saturation conditions, the CS1501 incorporates

a cycle-by-cycle peak inductor current limit circuit using an

external shunt resistor to ‘sense’ the FET source current

accurately. The overcurrent protection (OCP) circuit is

designed to monitor the current when the active switch is

turned on. The OCP circuit is enabled after the leading-edge

blanking time (t

reference

overcurrent condition exists. The OCP circuit triggers

immediately, allowing the OCP algorithm to turn off the gate

driver.

The overcurrent protection circuit is also designed to monitor

for a catastrophic overcurrent occurrence by sensing sudden

and abnormal operating currents. A second OCP threshold,

exists. This immediately turns off the gate drive and the

system enters a restart mode. The CS1501 inhibits all

switching operations for approximately 1.6ms then attempts to

restart normal operation.

5.11

The CS1501 incorporates an internal Overpower Protection

(OPP) algorithm. This provides protection from overload

conditions. This algorithm uses the condition that output

power is a function of the boost inductor (Section 5.4).

Under moderate overload, V

maintaining rated power and PFC. Further increasing the load

current causes V

(~360V). Below this threshold, the circuit changes its

operating mode to startup with more power available to raise

canceled and power is now limited to the rated value. If the

overload is still present, this cycle will repeat.

If a sustained overload, or a repeated cycle of overload events

is detected for greater than 112 mS, the CS1501 shuts down

for 2.5 seconds, then attempts to restart.

cs(clamp)

link

. As V

Overvoltage Protection

Overcurrent Protection

Overpower Protection

, determines whether a severe overcurrent condition

link

voltage,

OVP

reaches its nominal value, startup mode is

LEB

– I

OVP

link

OVP(Hy)

). The shunt voltage is compared to a

to drop below the startup threshold

cs(th)

. Equation 8 is used to calculate the

IFB

link



may droop up to 10% while

OVP

determine

ref

) value. The IC

whether

DS927PP6

[Eq.8]

OVP

)

CDB150X-01-Z Cirrus Logic Inc, CDB150X-01-Z Datasheet - Page 12

CDB150X-01-Z

Specifications of CDB150X-01-Z

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