CDB1600 Cirrus Logic Inc, CDB1600 Datasheet - Page 8

CDB1600

Manufacturer Part Number

CDB1600

Description

DEVELOPMENT BOARD FOR CS1600

Manufacturer

Cirrus Logic Inc

Datasheets

1.CS1600-FSZ.pdf (14 pages)

2.CS1600-FSZ.pdf (2 pages)

3.CDB1600.pdf (20 pages)

Specifications of CDB1600

Main Purpose

Power Management, Power Factor Correction

Embedded

Utilized Ic / Part

CS1600

Primary Attributes

460V, 1150W output

Secondary Attributes

108 ~ 305 VAC

Silicon Manufacturer

Cirrus Logic

Application Sub Type

Power Factor Correction (PFC)

Kit Application Type

Power Management

Silicon Core Number

CS1600

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

598-1806
CDB1600

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5. GENERAL DESCRIPTION

The CS1600 offers numerous features, options, and

functional capabilities to the designer of switching power

converters. This digital PFC control IC is designed to replace

legacy analog PFC controllers with minimal design effort.

5.1 PFC Operation

One key feature of the CS1600 is its operating frequency

profile. Figure 11 illustrates how the frequency varies over half

cycle of the line voltage in steady-state operation. When

power is first applied to the CS1600, it examines the line

voltage and adapts its operating frequency to the line voltage

as shown in Figure 11. The operating frequency is varied from

the peak to the trough of the AC input. During start-up the

control algorithm’s goal is to generate maximum power while

maintaining DCM operation, providing an approximate

square-wave envelop current within every half line cycle by

adjusting the operating frequency for fast startup behavior.

Figure 12 illustrates how the operating frequency (as a

percentage of maximum frequency) changes with output

power and the peak of the line voltage.

When P

(See 5.3 Burst Mode on page 8).

Figure 12. Max Switching Frequency vs. Output Power

Figure 11. Switching Frequency vs. Phase Angle

120

100

falls below 5% the CS1600 changes to Burst Mode

Switching Freq. (% of Max.)

Rectified Line Voltage Phase (Deg.)

Line Voltage (% of Max.)

Vin > 156 VAC

Vin < 182 VAC

% P

O max

135

100

180

5.2 Start-up vs. Normal Operation Mode

CS1600 has two discrete operation modes: Start-up and

Normal. Start-up mode will be activated when V

90% of nominal value and remains active until V

100% of nominal value, as shown in Figure 13. Startup mode

is activated during initial system power-up. Any V

less than 90% of nominal value, such as load change, can

cause the system to enter Start-up mode until V

back into regulation.

Startup mode is defined as a surge of current delivering

maximum power to the output regardless of the load. During

every active switch cycle, the 'ON' time is calculated to drive a

constant peak current over the entire line cycle. However, the

'OFF' time is calculated based on the DCM/CCM boundary

equation.

5.3 Burst Mode

Burst mode is utilized to improve system efficiency when the

system output power (P

implemented by intermittently disabling the PFC over a full

half-line period cycle under light load conditions, as shown in

Figure 14.

100%

90%

[V]

link

[V]

[W]

Figure 13. Start-up and Normal Modes

Figure 14. Burst Modes

Normal

Mode

Burst Threshold

) is < 5% of nominal. Burst mode is

Burst Mode

Disable

PFC

Active

Normal

Mode

t [ms]

CS1600

link

FET

link

t [ms]

link

is less than

link

DS904F1

is brought

reaches

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CDB1600 Cirrus Logic Inc, CDB1600 Datasheet - Page 8

CDB1600

Specifications of CDB1600

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