CS1611A View Datasheet(PDF) - Cirrus Logic

Part Name

Description

MFG CO.

CS1611A

TRIAC Dimmable LED Driver IC

Cirrus Logic 

CS1610A/11A

CS1612A/13A

5.5 Voltage Clamp Circuit

To keep dimmers conducting and prevent them from misfiring,

a minimum power needs to be delivered from the dimmer to

the load. This power is nominally around 2W for 230V and

120V TRIAC dimmers. At low dim angles (90°), this excess

power cannot be converted into light by the second output

stage due to the dim mapping at light loads. Boost stage

output voltage VBST can rise above the safe operating voltage

of the primary-side bulk capacitor C8.

The CS1610A/11A/12A/13A provides active clamp circuitry on

the CLAMP pin, as shown in Figure 14.

VBST

R8

R9

VDD

ICLA MP

16

BSTOUT

CLAMP

S1

3

R10 C8

Q3

CS1610 A/11A/12A/13A

Figure 14. CLAMP Pin Model

A PWM control loop ensures that boost output voltage VBST

does not exceed 227V for 120VAC applications or 432V for

230VAC applications. This control turns on the MOSFET of

the voltage clamp circuit, allowing the clamp circuit to sink

current through the load resistor R10, preventing boost output

voltage VBST from exceeding the maximum safe voltage.

5.5.1 Clamp Overpower Protection

The CS1610A/11A/12A/13A clamp overpower protection

(COP) digital controlled timer clocks the turn-on time of the

clamp circuit over a one second period. If within a given one

second period the clamp circuit turn-on time exceeds 51.2ms

for a CS1610A/12A or 76.8ms for a CS1611A/13A a COP

fault condition occurs and the system shuts down. If after any

given one second period a COP event does not occur, the

timer is reset to zero. The COP fault state is not cleared until

the power to the IC is recycled.

5.6 Dimming Signal Extraction and the Dim

Mapping Algorithm

When operating with a dimmer, the dimming signal is

extracted in the time domain and is proportional to the

conduction angle of the dimmer. A control variable is passed

to the quasi-resonant second stage to achieve 2% to 100%

output currents.

5.7 Quasi-resonant Second Stage

The second stage is a quasi-resonant current-regulated

DC-DC converter capable of flyback or buck operation,

delivering the highest possible efficiency at a constant current

while minimizing line frequency ripple. Primary-side control is

used to simplify system design and reduce system cost and

complexity.

VB S T

T1

D8

LED +

C8 Z2

D7

C9

LED -

CS1610A/11A

GD 13

Q4

R12

FBAUX 15

R13

FBSENSE 11

GND

12

FBGAIN

9

RFB GA IN

R11

Figure 15. Flyback Model

The digital algorithm ensures monotonic dimming from 2% to

100% of the dimming range with a linear relationship between

the dimming signal and the LED current. The flyback stage is

controlled by sensing current in the transformer primary.

DS976PP4

11

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