CS1600-FSZ Cirrus Logic Inc, CS1600-FSZ Datasheet - Page 2
CS1600-FSZ
Manufacturer Part Number
CS1600-FSZ
Description
IC PFC CONTROLLER DCM 8SOIC
Manufacturer
Cirrus Logic Inc
Series
EXL Core™r
Specifications of CS1600-FSZ
Package / Case
8-SOIC (3.9mm Width)
Mode
Discontinuous Conduction (DCM)
Frequency - Switching
66kHz
Current - Startup
68µA
Voltage - Supply
7.9 V ~ 17 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Maximum Power Dissipation
600 mW
Maximum Operating Temperature
+ 125 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
598-1801
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
CS1600-FSZ
Manufacturer:
CIRRUS
Quantity:
100
1. INTRODUCTION
The CS1600 digital power factor controller operates in variable
on-time, variable frequency, discontinuous conduction mode
(DCM). The CS1600 uses a proprietary digital algorithm to
maximize the efficiency and reduce the conductive EMI.
The analog-to-digital converter (ADC) shown in the CS1600
block diagram in Figure 9 is used to sense the PFC output
voltage ( V
measuring currents through their respective resistors. The
magnitudes of these currents are measured as a proportion of a
reference current (I
ADCs. The digital signal is then processed in a control algorithm
which determines the behavior of the CS1600 during start-up,
normal operation, and under fault conditions, such as
overvoltage, and over-temperature conditions.
The CS1600 PFC switching frequency varies with the V
a cycle-by-cycle basis, and its digital algorithm calculates the
on-time accordingly for unity power factor. Unlike traditional
Critical Conduction Mode (CRM) PFC controller, CS1600
operates at its low switching frequency near the zero-crossing
point of the AC input voltage, and it operates at its high
switching frequency at the peak of its AC input voltage (this is
the opposite of the switching frequency profile for a CRM PFC
controller), thus CS1600 reduces switching losses especially
under light-load conditions, spreads conducted EMI energy
peaks over a wide frequency band and increases overall
system efficiency.
The proprietary digital control engine optimizes the feedback
error signal using an adaptive control algorithm, improves
2
link
IAC
IFB
) and the rectified AC line voltage ( V
REF
3
4
) that functions as the reference for the
V
V
DD
DD
15k
15k
24k
24k
ADC
ADC
Figure 1. CS1600 Block Diagram
rect
rect
) by
on
Regulator
Voltage
system stability and transient response. No external feedback
error signal compensation components are required.
The CS1600s digital controller algorithm limits the ON time of
the Power MOSFET by the following equation:
Where T
on and V
sudden line surge or sporadic, high dv/dt line voltages, this
equation may not limit the ON time appropriately. For this type
of line disturbance, additional protection mechanisms such as
fusible resistors, fast-blow fuses, or other current-limiting
devices are recommended.
Under steady-state conditions, the voltage loop keeps PFC
output voltage close to its nominal value. Under light load
startup or feedback loop open conditions, the output voltage
may pass the overvoltage protection threshold. The digital
control engine initiates a fast response loop to shut down gate
driving signal to reduce the energy delivered to the output for
PFC capacitor protection. When the link voltage drop below
V
OVP
POR
– V
+
-
on
OVP(Hy)
rect
V
V
is the max time that the power MOSFET is turned
th(ST)
th(STP)
is the rectified line voltage. In the event of a
, PFC resumes normal operation.
V
T
Z
on
V
0.001827V S
------------------------------------ -
DD
V
rect
6
5
7
VDD
GD
GND
CS1600
DS904F1
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