CS1615
CS1616
Single Stage Dimmable Offline AC/DC
Controller for LED Lamps
Features
Overview
• Best-in-class Dimmer Compatibility
- Leading-edge (TRIAC) Dimmers
- Trailing-edge Dimmers
- Digital Dimmers (Dimmers with an Integrated Power
Supply)
• Flicker-free Dimming
• 0% to 100% Smooth Dimming
• Primary-side Regulation (PSR)
• Active Power Factor Correction (PFC)
- >0.9 Power Factor
• Constant-current Output
- Flyback
- Buck-boost
• Tight LED Current Regulation: Better than ±5%
• Low THD: Less Than 20%
• Up to 90% Efficiency
• Fast Startup
• IEC61000-3-2 Compliant
• Meets NEMA SSL 6 Dimming Standard
- Closely Matches Incandescent S-curve
• Protection Features
- Output Open Circuit
- Output Short Circuit
- External Overtemperature Using NTC
The CS1615 and CS1616 are high-performance single
stage dimmable offline AC/DC controllers. The CS1615/16
is a cost-effective solution that provides unmatched singleand multi-lamp dimmer-compatibility performance for
dimmable LED applications. The CS1615 is designed for
120VAC line voltage applications, and the CS1616 is
designed for 230VAC line voltage applications.
L1
Across a broad range of dimmers, the CS1615/16 provides
smooth flicker free dimming, and consistently dims to
nearly zero light output, which closely matches the dimming
performance of incandescent light bulbs. Cirrus Logic’s
patent pending approach to dimmer compatibility provides
full functionality on a wide range of dimmers, including
leading-edge, trailing-edge, and digital dimmers.
Applications
•
•
•
•
Retro-fit LED Lamps
External LED Drivers
LED Luminaries
Commercial Lighting
Ordering Information
See page 14.
Vrec t
C5
T1
C6
R4
D4
LED+
R6
R5
C7
LEDR2
BR1
D3
R3
BR1
VA UX
C2
FBSENSE
D1
BR1
Q2
14
VDD
SGND
C4
R7
11
FBAUX 16
BR1
C3
Q3
GD 13
5 SOURCE
R1
C1
VAUX
IAC
CS1615/16
AC
Mains
D5
2
D2
Q1
Z1
4
eOTP
CTRL1 CTRL2
8
9
C8
10
GND
12
RS
R S ense
R8
NTC
R CTRL1 RCTRL2
Preliminary Product Information
Cirrus Logic, Inc.
http://www.cirrus.com
This document contains information for a product under development.
Cirrus Logic reserves the right to modify this product without notice.
Copyright Cirrus Logic, Inc. 2013
(All Rights Reserved)
APR’13
DS961PP5
CS1615/16
1. INTRODUCTION
VDD
VDD
Voltage
Regulator
14
VDD(on)
VDD(off )
VZ
I ref
15k
2
OLP
-
+
VS OURCE(th)
Peak
Control
+
-
+
-
-
t VAUX
CTRL1
eOTP
CTRL2
11
FBSENSE
16
FBAUX
3
CLAMP
VOCP (th)
VP k_Max (th )
DAC
SGND
GND
VOLP (th )
+
ADC
-
5
12
3
OCP
SOURCE
GD
-
Blank
IAC
13
POR
+
+
V FS TA RT(th )
4
Output
Overvoltage
8
Zero-current
Detect
ICONNE CT
10
9
+
-
VOV P(th )
VDD
MUX
+
-
VZCD(th)
VDD
V CONNE CT(th)
-
I CLA MP
+
Figure 1. CS1615/16 Block Diagram
A typical schematic using the CS1615/16 IC is shown on the
previous page.
Startup current is provided from a patent-pending, external, highvoltage source-follower network. In addition to providing startup
current, this unique topology is integral in providing compatibility
with digital dimmers by ensuring VDD power is always available
to the IC. During normal operation, an auxiliary winding on the
flyback transformer or buck-boost inductor back-biases the
source-follower circuit and provides steady-state operating
current to the IC to improve system efficiency.
Rectified input voltage Vrect is sensed as a current into pin IAC
and is used to control the adaptive dimmer-compatibility
algorithm and to extract the phase of the input voltage for output
dimming control. The SOURCE pin is used to provide a control
signal for the high-voltage source-follower circuit during Leadingedge Mode and Trailing-edge Mode; it also provides the current
during startup.
2
The digital dual-mode controller is implemented with peakcurrent mode primary-side regulation, which eliminates the need
for additional components to provide feedback from the
secondary and reduces system cost and complexity. Voltage
across a user-selected resistor is sensed through pin FBSENSE
to control the peak current of the primary-side inductor. Leadingedge and trailing-edge blanking on pin FBSENSE prevents false
triggering. The required target LED current and average flyback
transformer and buck-boost inductor input current are set by
attaching resistors RCTRL1 and RCTRL2 on pins CTRL1 and
CTRL2, respectively. The controller ensures half line-cycle
averaged constant output current.
Pin FBAUX is used for zero-current detection to ensure
quasi-resonant switching of the single stage output. When an
external negative temperature coefficient (NTC) thermistor is
connected to pin eOTP, the CS1615/16 monitors the system
temperature, allowing the controller to reduce the output current
of the system. If the temperature reaches a designated high set
point, the IC is shut down and stops switching.
DS961PP5
CS1615/16
2. PIN DESCRIPTION
NC
1
16
FBAUX
Zero-current Detect
Rectifier Voltage Sense
IAC
2
15
NC
No Connect
Voltage Clamp Current Source
CLAMP
3
14
VDD
IC Supply Voltage
Source Ground
SGND
4
13
GD
Gate Drive
Source Switch
SOURCE
5
12
GND
Ground
No Connect
NC
6
11
FBSENSE
Flyback Current Sense
No Connect
NC
7
10
eOTP
External Overtemperature Protection
Dimmer Hold Current
CTRL1
8
9
CTRL2
LED Load Current
No Connect
16-lead SOIC and TSSOP
Figure 2. CS1615/16 Pin Assignments
Pin Name
Pin #
I/O
NC
1
IN
No Connect — Leave pin unconnected.
IAC
2
IN
Rectifier Voltage Sense — A current proportional to the rectified line voltage is fed
into this pin. The current is measured with an A/D converter.
CLAMP
3
OUT
Voltage Clamp Current Source — Connect to a voltage clamp circuit on the sourceswitched dimmer-compatibility circuit.
SGND
4
PWR
Source Ground — Common reference current return for the SOURCE pin.
SOURCE
5
IN
Description
Source Switch — Connected to the source of the source-switched external high-voltage FET.
NC
6
IN
No Connect — Connect this pin to VDD using a 47k pull-up resistor.
NC
7
IN
No Connect — Connect this pin to VDD using a 47kpull-up resistor.
CTRL1
8
IN
Dimmer Hold Current — Connect a resistor to this pin to set the minimum input current being pulled by the flyback/buck-boost stage.
CTRL2
9
IN
LED Load Current — Connect a resistor to this pin to set the LED current.
eOTP
10
IN
External Overtemperature Protection — Connect an external NTC thermistor to this
pin, allowing the internal A/D converter to sample the change to NTC resistance.
FBSENSE
11
IN
Feedback Current Sense — The current flowing in the power FET is sensed across a
resistor. The resulting voltage is applied to this pin and digitized for use by the computational logic to determine the FET's duty cycle.
GND
12
PWR
Ground — Common reference. Current return for both the input signal portion of the
IC and the gate driver.
GD
13
OUT
Gate Drive — Gate drive for the power FET.
VDD
14
PWR
IC Supply Voltage — Connect a storage capacitor to this pin to serve as a reservoir
for operating current for the device, including the gate drive current to the power transistor.
NC
15
-
FBAUX
16
IN
DS961PP5
No Connect — Leave pin unconnected.
Zero-current Detect — Connect to the flyback/buck-boost inductor auxiliary winding
for demagnetization current zero-crossing detection.
3
CS1615/16
3. CHARACTERISTICS AND SPECIFICATIONS
3.1 Electrical Characteristics
Typical characteristics conditions:
• TA = 25 °C, VDD = 12V, GND = 0 V
• All voltages are measured with respect to GND.
• Unless otherwise specified, all currents are positive
when flowing into the IC.
Parameter
Minimum/Maximum characteristics conditions:
• TJ = -40°C to +125 °C, VDD = 11V to 17V, GND = 0 V
Condition
Symbol
Min
Typ
Max
Unit
After Turn-on
VDD
11
-
17
V
Turn-on Threshold Voltage
VDD Increasing
VST(th)
-
8.5
-
V
Turn-off Threshold Voltage (UVLO)
VDD Decreasing
VSTP(th)
-
7.5
-
V
IDD = 20mA
VZ
18.5
-
19.8
V
VDD
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