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CS1612 Datasheet(PDF) 8 Page - Cirrus Logic

No. de pieza CS1612
Descripción Electrónicos  TRIAC Dimmable LED Driver IC
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Fabricante Electrónico  CIRRUS [Cirrus Logic]
Página de inicio  http://www.cirrus.com
Logo CIRRUS - Cirrus Logic

CS1612 Datasheet(HTML) 8 Page - Cirrus Logic

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CS1610/11/12/13
8
CS1610/11/12/13
5. GENERAL DESCRIPTION
5.1 Overview
The CS1610/11/12/13 is a digital control IC engineered to
deliver a high-efficiency, cost-effective, flicker-free, phase-
dimmable, solid-state lighting (SSL) solution for the incandescent
lamp replacement market. The CS1610/11 is designed to control
a quasi-resonant flyback topology. The CS1612/13 is designed
to control a buck topology. The CS1610/12 and CS1611/13 are
designed for 120VAC and 230VAC line voltage applications,
respectively.
The CS1610/11/12/13 integrates a critical conduction mode
(CRM) boost converter that provides power factor correction and
dimmer compatibility with a constant output current, quasi-
resonant second stage. An adaptive dimmer compatibility
algorithm controls the boost stage and dimmer compatibility
operation mode to enable flicker-free operation to <2% output
current with leading-edge, trailing-edge, and digital dimmers
(dimmers with an integrated power supply).
5.2 Startup Circuit
An external, high-voltage source-follower circuit is used to
deliver startup current to the IC. During steady-state operation,
an auxiliary winding on the boost inductor biases this circuit to
an off state to improve system efficiency, and all IC supply
current is generated from the auxiliary winding. The patent-
pending technology of the external, high-voltage source-
follower circuit enables system compatibility with digital
dimmers (dimmers containing an internal power supply) by
providing a continuous path for the dimmer’s power supply to
recharge during its off state. During steady-state operation, the
high-voltage FET, Q2, in this circuit is source-switched by a
variable internal current source on the SOURCE pin to create
the boost circuit. A Schottky diode with a forward voltage less
than 0.6V is recommended for D5. Schottky diode D5 will limit
inrush current through the internal diode preventing damage to
the IC.
5.3 Dimmer Switch Detection
The CS1610/11/12/13 dimmer switch detection algorithm
determines if the SSL system is controlled by a regular switch,
a leading-edge dimmer, or a trailing-edge dimmer. Dimmer
switch detection is implemented using two modes: Dimmer
Learn Mode and Dimmer Validate Mode. These assist in
limiting the system power losses. Once the IC reaches its UVLO
start
threshold,
VST(th), and begins operating, the
CS1610/11/12/13 is in Dimmer Learn Mode, allowing the
dimmer switch detection circuit to set the operating state of the
IC to one of three modes: No-dimmer Mode, Leading-edge
Mode, or Trailing-edge Mode.
5.3.1
Dimmer Learn Mode
In Dimmer Learn Mode, the dimmer detection circuit spends
approximately two line-cycles learning whether there is a
dimmer switch and, if present, whether it is a trailing-edge or
leading-edge dimmer. In Dimmer Learn Mode, a modified
version of the leading-edge algorithm is used. The trailing-side
slope of the input line voltage is sensed to decide whether the
dimmer switch is a trailing-edge dimmer. The dimmer detection
circuit transitions to Dimmer Validate Mode once the circuit
detects a dimmer is present.
5.3.2
Dimmer Validate Mode
During normal operation, CS1610/11/12/13 is in Dimmer
Validate Mode. This instructs the dimmer detection circuit to
periodically validate that the IC is executing the correct
algorithm for the attached dimmer. The dimmer detection
algorithm periodically verifies the IC operating state as a
protection against incorrect detection. As additional protection,
the output of the dimmer detection algorithm is low-pass filtered
to prevent noise or transient events from changing the IC’s
operating mode. The IC will return to Dimmer Learn Mode when
it has determined that the wrong algorithm is being executed.
5.3.3
No-dimmer Mode
Upon detection that the line is not phase cut with a dimmer, the
CS1610/11/12/13 operates in No-Dimmer Mode, where it
provides a power factor that is in excess of 0.9. The
CS1610/11/12/13 accomplishes this by boosting in CRM and
DCM mode. The peak current is modulated to provide link
regulation. The CS1610/11/12/13 alternates between two
settings of peak current. To regulate the boost output voltage,
the device uses a peak current set by the RIPK resistor. The time
that this current is used is determined by an internal
compensation loop to regulate the boost output voltage. The
internal algorithm will reduce the peak current of the boost stage
to maintain output voltage regulation and obtain the desired
power factor.
5.3.4
Leading-edge Mode
In Leading-edge Mode, the CS1610/11/12/13 regulates the
link voltage while maintaining the dimmer phase angle. To
accomplish this, the CS1610/11/12/13 uses CCM boosting
with dimmer attach current as the initial peak current on the
initial firing event of the dimmer. After gaining control of the
incoming current, the CS1610/11/12/13 transitions to a CRM
boost
algorithm
to
regulate
the
link
voltage.
The
CS1610/11/12/13 periodically executes a probe event on the
incoming waveform. The information from the probe event is
beneficial to maintaining proper operation with the dimmer
circuitry.
5.3.5
Trailing-edge Mode
In Trailing-edge Mode, the CS1610/11/12/13 determines its
operation based on the falling edge of the input voltage
waveform. To allow the dimmer to operate properly, the
CS1610/11/12/13 must charge the capacitor in the dimmer on
the falling edge of the input voltage. To accomplish this, the
CS1610/11/12/13 always executes the boost algorithm on this
falling edge. To ensure maximum compatibility with dimmer
components, the device boosts during this falling edge event
using a peak current that must meet a minimum value. In
Trailing-edge Mode, only CRM boosting is used.


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