LX1996 Datasheet

LX1996
Multi-string LED Back-light Controller
®
TM
P RODUCTION D ATASHEET
DESCRIPTION
• White LED Backlight Controller for
Middle Size Display Panels
• Up to 6 LED Strings with ±0.5%
Precision Current Matching
• Wide Input Voltage Range from 6V
to 28V
• Temperature Compensated LED
Current
• Ultrasonic Pulse Skipping for
audible noise reduction
• Direct Ambient Light Sensor
Interface for Brightness Control
• High Efficiency over Full Dimming
Range
• Low Standby Current
• On-chip Thermal Shut-down
• Over-voltage Protection
• Packaged in a Thermally Efficient
24 pin 4x4mm MLPQ Package
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Temperature compensated LED current
is accomplished by a dedicated input pin
(OT) that in conjunction with an external
thermistor measures the LED’s ambient
temperature and thereby prevents over
temperature stress to the LEDs by keeping
them within their safe operating area.
Additional features include low sleep
mode current (6µA typ.) for extending
battery time, multi-mode dimming via
ambient light sensor interface, analog
dimming, direct PWM dimming and
combination of analog and direct PWM
dimming for up to a 25000:1 dimming
range.
The LX1996 is designed to work over a
wide input voltage range from 6V to
28Vdc with adjustable over voltage
protection (OVP), and short and open LED
protection.
The LX1996 comes in a compact thermal
efficient 4x4mm 24pin MLPQ package.
WWW . Microsemi .C OM
LX1996 is an integrated white LED
driver for notebook size displays. It is
designed to drive up to six strings of LEDs.
The LX1996 consists of a boost converter
and six precision current sources. It also
includes a direct analog light sensor
interface and can be dimmed by a PWM
signal or by application of a DC control
voltage.
Precision current mirror circuitry sets
all channels to the same current with a
single programming input. The current
value can be programmed up to 30mA per
channel with a single resistor from the
PRG pin to ground. Channel to channel
matching is within ± 0.5 percent typical at
25°C ambient of the channels mean at the
rated output current.
Unique design features include
temperature compensated LED current,
and audible noise reduction using
Ultrasonic Pulse Skipping.
KEY FEATURES
APPLICATIONS
• Notebook & Monitor Displays
• Entertainment Systems
• Automotive Lighting & Panels
IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com
Patents Pending
PRODUCT HIGHLIGHT
6V to 28V
N/C
DRV
SRC
VIN
DSEL1
5V
Large LCD Backlight
PGND
EN
OVP
5V
VLDO
DI
Multi-Mode Dimming
Via Ambient Light
Sensor and/or Direct
PWM Dimming
PWM
OT
LX1996
DSEL2
RT
PWM
CT
CLF
GND
Thermistor
CS1
CS2
LED Panel
Temperature
Compensation of
LED Current
CS3
CS4
CS5
CS6
PRG
Current
Programing
PACKAGE ORDER INFO
TA (°C)
-40 to 85
LQ
THERMAL DATA
Plastic 4x4 mm MLPQ 24-pin
θJA = 30 °C/W
RoHS Compliant / Pb-free
THERMAL RESISTANCE-JUNCTION TO AMBIENT
LX1996ILQ
Junction Temperature Calculation: TJ = TA + (PD x θJA).
The θJA numbers are guidelines for the thermal performance of the
device attached to a pc-board system. All of the above assume no
ambient airflow.
Note: Available in Tape & Reel. Append the letters “TR” to the part number.
(i.e. LX1996ILQ-TR)
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
LX1972
Light
Sensor
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 1
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
DRV
SRC
PGND
OVP
24
23
22
21
20
19
1
VLDO
2
DSEL1
3
DSEL2
4
DI
5
OT
6
MSC
LX1996
XXXX
Connect Bottom
Pad to GND
9
10
11
12
CT
PRG
GND
Solder reflow to follow: IPC/JEDEC J-STD-020B 7/02 Pb-Sn Small Body Profile
8
RT
PWM
7
CLF
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Notes: Exceeding these ratings could cause damage to the device. All voltages are with respect to Ground.
Currents are positive into, negative out of specified terminal.
EN
18
CS6
17
CS5
16
CS4
15
CS3
14
CS2
13
CS1
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Supply Input Voltage (VIN), EN ........................................................................ -0.3V to 30V
CS# pins .............................................................................................................. -0.3V to 28V
DSEL1, DSEL2, DI and PWM pins .................................................................. -0.3V to 6.0V
OT, DRV, SRC, OVP, PRG, CLF, CT, RT Pins .................................. -0.3V to VLDO + 0.3V
CS# Current ................................................................................................................... 35mA
Operating Temperature Range ............................................................................... -40 to 85°C
Maximum Operating Junction Temperature ...................................................................150°C
Storage Temperature Range............................................................................. -65°C to 150°C
Package Peak Temp. for Solder Reflow (40 seconds maximum exposure) ....... 260°C (+0 -5)
VIN
PACKAGE PIN OUT
N/C
ABSOLUTE MAXIMUM RATINGS
LQ PACKAGE
(Top View)
RoHS / Pb-free 100% Matte Tin pin Finish
XXXX = Date code / Lot code identifier
FUNCTIONAL PIN DESCRIPTION
Name
EN
VLDO
DSEL1
DSEL2
DI
OT
1
Enable Input - Logic input. Pull low to put the system into sleep mode; If not used must be tied to VIN.
Internal 5V Regulator Output – Power Pin. Provides a regulated 5V for internal 5V circuits. It can also power
an external light sensor and/or SM Buss chip (limited to 1mA). Must be decoupled closely to the GND with a
ceramic capacitor typical value of 4.7μF.
Dimming Mode Select Input 1. Three level input. Refer to Table 1 in the applications section for functionality
Dimming Mode Select Input 2. – Two Level Logic Input. Refer to Table 1 in the applications section for
functionality
Dimming Input – Signal Pin. Connect a DC dimming voltage or the light sensor output to this pin.
LED Ambient Over Temperature Protection – Signal Pin – Connect to an external NTC thermistor to monitor
the LED light bar temperature. If NTC is not used, then tie this pin to the IC’s VLDO pin. The NTC needs to
be 100kΩ at 25°C and B constant of 4000. Please see the applications section for more details regarding the
OT option.
Pulse Width Modulated Dimming Signal – Signal Input. PWM input used for multi-dimming mode. With
DSEL1 pin tied low, a PWM signal input in the range of 100Hz to 25kHz provides direct digital dimming for the
LED outputs. With DSEL1 pin open and DSEL2 pin tied high, this pin is used as a sync input for
synchronizing the LX1996’s internal PWM dimming clock with an external clock signal of 400ns or greater
width.
Current source setting resistor. Must be 100KΩ between this pin and ground when Analog to Digital Dimming
or Ultrasonic Pulse Skipping modes are used. If neither mode is used, this pin may be left open or tied to
VLDO.
Internal Digital Dimming frequency setting capacitor. A capacitor between this pin and ground sets the
internal Digital Dimming frequency. The relationship between the CT pin capacitor and internal frequency is;
F(Hz) = 5e-6/CT(Farads)
This pin should be left open or grounded when the internal oscillator is not used.
PLL Loop filter connection pin. A loop filter capacitor should be connected between this pin and ground when
the internal dimming is used with synchronization mode engaged. Typical capacitor values are; 0.1uF for
200Hz; 1nF for 20Khz. This pin should be left open or grounded when the synchronization option is not used.
LED current programming. Connect a resistor between this pin and ground to set the LED current. Refer to
applications section for functionality
Signal ground. Should be tied at a single common point to Power Ground (PGND pin 20).
Current Sink pins – controls individual LED string current. CS pins can be wired in parallel for higher currents.
The lowest CS voltage is kept at approx. 0.8V at 20mA.
2
3
4
5
6
7
RT
8
CT
9
CLF
10
PRG
11
GND
12
13
to18
CS1-6
Copyright © 2007
Rev. 1.0, 2007-12-14
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 2
LX1996
Description
O
PWM
Pin #
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
FUNCTIONAL PIN DESCRIPTION
Description
OVP
19
PGND
20
SRC
21
DRV
22
Over Voltage Protection – Signal input. An external voltage divider sets the maximum boost voltage limit in
case of open LED strings. Refer to applications section for functionality.
Power Ground. Should be tied at a single common point to Signal Ground (GND pin 12).
Boost Converter Current Sense Pin. This connects to the junction of the external N-FET source and the
current sense resistor. It is used to set the peak inductor current.
External N-FET Gate Drive. Connect to the Gate of the external N-channel MOSFET
N/C
23
No Connection.
VIN
24
Power Supply Input. Must be closely decoupled to PGND with a 4.7uF ceramic capacitor.
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
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Pin #
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Name
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 3
LX1996
Multi-string LED Back-light Controller
®
TM
P RODUCTION D ATASHEET
FUNCTIONAL BLOCK DIAGRAM
WWW . Microsemi .C OM
SRC
VIN
5V
REGULATOR
ULTRASONIC
TIMER
VLDO
COIL CURRENT
SENSE
4-bit DAC
NGATE
DRIVER
OFF TIMER
Toff=f(VCC)
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FB
DRV
+
-
BOOST CONVERTER
CONTROL LOGIC
EN
DSEL1
+
-
GND
MODE
CONTROL
LED CURRENT OUTPUT,
LED OPEN/SHORT DETECTION,
BOOST CONVERTER REGULATION REFERENCE
DSEL2
OT
OVP
2V
LED CURRENT
TEMPRATURE
PROFILER
LED CURRENT
REFERENCE
PRG
LED CURRENT
REFERENCE
FBref Gen.
CURRENT SOURCE
OUTPUT #6
CS6
CURRENT SOURCE
OUTPUT #5
CS5
CURRENT SOURCE
OUTPUT #4
CS4
CURRENT SOURCE
OUTPUT #3
CS3
CURRENT SOURCE
OUTPUT #2
CS2
FBref
DI
ANALOG
DIMMING
0.2V/2V LIMIT
PWM
RT
CT
FB
BOOST FB
CS OVER VOLTAGE LIMIT
LED SHORT
DETECTION
TRIANGLE
WAVE
GENERATOR
PLL
ANALOG TO
DIGITAL
DIMMING
LED OPEN
DETECTION
OUTPUT
CONTROL
LOGIC
CS OVER VOLTAGE
CS OPEN
CS1
+
-
FBref
+
-
25V
+
-
15V
+
-
0.2V
PGND
OUTPUT ENABLE
CURRENT SOURCE
OUTPUT #1
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
CLF
MU
X
DIGITAL
DIMMING
CLOCK
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 4
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
Parameter
Symbol
Test Conditions / Comment
LX1996
Units
Min
Typ
Max
6
12
28
V
2.5
mA
15
µA
Power Supply
Input Voltage
VIN
Quiescent current
IIN ON
Logic
IIN sleep
EN ≤ 0.4V
6
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Sleep Current
EN ≥2.4V, output not switching, VCS = 0.8V
DSEL1 Input High Voltage
VDSEL1-H
DSEL1 Input Low Voltage
V DSEL1-L
DSEL1 input current High
I DSEL1_H
DSEL1 = 2.4V
DSEL1 input current Low
I DSEL1_L
DSEL1 = 0.8V
2.4
4
-10
-4
DSEL1 Open Voltage
1.2
1.6
DSEL2 Input High Voltage
2.4
DSEL2 Input Low Voltage
V
10
µA
0.8
DSEL2 Pull-down Resistor
600
EN Input High Voltage
2.4
EN Input Low Voltage
V
0.8
2.0
µA
V
V
V
kΩ
V
0.8
V
EN input current
IEN_H
12V ≥ EN ≥ 2.4V
4.0
10
μA
EN input current
IEN_L
EN < 0.4V
0.4
1
μA
PWM Input High Voltage
VPWM-H
PWM Input Low Voltage
VPWM-L
2.4
0.8
PWM Pull-down Resistor
600
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ELECTRICAL CHARACTERISTICS
Unless otherwise specified, the following specifications apply over the operating ambient temperature of -400C < Temp <850C, and the
following test conditions: VIN=12V, VOT = 3V, EN = VIN , RPRG= 4.99 kΩ, L=6.8μH, RSRC= 0.075Ω, COUTPUT = 4.7uF
V
V
kΩ
DIMMING
DI Input Bias Current
VDI =0.2 to 2.0V, Analog dimming
VTH_DI_H
VDI =2.0V, Analog dimming
Minimum PRG voltage
VTH_DI_L
VDI =0.2V, Analog dimming
Direct Digital Dimming
Frequency
Direct Digital Dimming Min.
PWM Pulse Width (Note 2)
RT Reference Voltage
Internal PWM Frequency
FPWM
1.83
2.0
μA
2.17
V
0.2
100
FPWM
FINTPWM
1
V
25000
Hz
4
us
RT = 100kΩ
2
V
CT = 200pF, RT = 100kΩ
25
kHz
CT =.047μF, RT = 100kΩ
100
Hz
Sync. freq. Capture Range
Percent of Internal PWM Frequency
Minimum PWM Input Pulse
Width
For synchronization
-25
+25
400
%
ns
Device Protection
OVP Threshold Voltage
Copyright © 2007
Rev. 1.0, 2007-12-14
VTH_OVP
1.9
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
2.0
2.1
V
Page 5
LX1996
O
Maximum PRG voltage
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
ELECTRICAL CHARACTERISTICS
Unless otherwise specified, the following specifications apply over the operating ambient temperature of -400C < Temp <850C, and the
following test conditions: VIN=12V, VOT = 3V, EN = VIN , RPRG= 4.99 kΩ, L=6.8μH, RSRC= 0.075Ω, COUTPUT = 4.7uF
Vcs
CS pin Over-voltage Limit
VCS
Voltage at CS pin that latches off it’s
respective string.
Voltage at CS pin that clamps Boost Output
15
V
23
25
27
V
19.2
20
20.8
mA
14.4
15
15.6
mA
LED Current Sink Outputs
ICS
VCS = 0.8V; DI ≥ 2.0V; Direct Analog Dimming
Mode
RPRG = 6.65k (LED current set for15mA);, VCS
= 0.8V; DI ≥ 2.0V; Direct Analog Dimming
Mode
DI=0.5V; Direct Analog Dimming Mode
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LED DC Current Programming
Accuracy (including string to
string matching)
Analog Dimming Accuracy
Direct Digital Dimming
Accuracy
ICS
ICSAVG
Current Matching between
strings (Note 3).
ICS-MATCH
Regulated CS Pin Voltage
Direct Digital Dimming Mode; VCS = 0.8V;
PWM input at 25kHz , 25% duty cycle;
Average (DC) LED current.
VIN = 6V to 28V; -40°C to 85°C; VCS = 0.8V
to 5V; DI ≥ 2.0V; Direct Analog Dimming Mode
-1.3
At the lowest CS pin, ICS = 20mA
0.5
5
mA
5
mA
1.3
WWW . Microsemi .C OM
LED Short Protection
Threshold
%
0.75
V
LED current On Rise Time
TCS_Rise
200
ns
LED current Off Fall Time
TCS_Fall
400
ns
Csx current to PRG current
Ratio
PRG Reference Voltage
ICS/IPRG
50
VPRG
2.0
V
1.47
V
1.8
V
LED Current Temperature Profiler
LED Over Temperature Shutdown Voltage Threshold
OT Recovery Voltage
Threshold
OT Input Bias Current
VOT
1
μA
VPRG
VOT = 2.48V
2.0
V
VPRG
VOT = 1.8V
1.2
V
VPRG
VOT = 1.47V
0.8
V
O
VOT Input vs. PRG pin
Reference Voltage (Note 1, 2)
VOT
VLDO Regulator
VLDO Output Voltage
VLDO
IVLDO
UVLO
VUVLO
4.75
Vin < 6.5V; 0mA ≤ IVLDO ≤ 6.0mA
4.5
5.0
External available current
VLDO rising
4.0
UVLO Hysteresis
4.25
5.25
V
5.25
V
1
mA
4.5
V
0.25
V
Boost Converter
DRV Rise Time
TRISE
CL = 1000pF; 10% to 90% of VLDO
25
nsec
DRV Fall Time
TFALL
CL = 1000pF; 90% to 10% of VLDO
14
ns
Copyright © 2007
Rev. 1.0, 2007-12-14
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 6
LX1996
VLDO Source Current
Vin ≥6.5V; 0mA ≤ IVLDO ≤ 6.0mA
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
ELECTRICAL CHARACTERISTICS
Unless otherwise specified, the following specifications apply over the operating ambient temperature of -400C < Temp <850C, and the
following test conditions: VIN=12V, VOT = 3V, EN = VIN , RPRG= 4.99 kΩ, L=6.8μH, RSRC= 0.075Ω, COUTPUT = 4.7uF
RT=100KΩ, Ultrasonic mode
23
40
50
μs
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Maximum Switching Interval
Thermal Protection
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
Over Temperature Shutdown
140
°C
(Note 2)
Thermal Shutdown Recovery
100
°C
(Note 2)
Notes
1. With a 100K NTC thermistor, Bconstant = 4250, and Rbias = 22.1K, VOT threshold values equate to the following
temperature points:
a. OT shut off temperature = 85°C
b. OT derating threshold = 60°C
c. OT recovery temperature = 75°C
2. This parameter is bench characterized but not ATE tested.
3. Based on % variation from (ICS Max+ICS Min)/2.
WWW . Microsemi .C OM
Ultrasonic Pulse Skipping (USPS)
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 7
LX1996
Multi-string LED Back-light Controller
®
TM
P RODUCTION D ATASHEET
Typical Characteristics @ 25°C (Refer to Figure 1)
SYSTEM EFFICIENCY
VS
LOAD
SLEEP CURRENT
Sleep current Vs input voltage
I_sleep (uA)
90%
Efficiency
80%
70%
11
10
9
8
7
6
5
4
3
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60%
6V-Eff
50%
12V-Ef f
6
18V-Ef f
40%
0
20
40
60
80
Total LED current (m A)
100
STRING CURRENT MATCHING
Vs
1.4
1.2
1
6
8
10 12 14 16 18 20 22 24 26 28
0.5%
0.4%
0.3%
Variation ILED1
0.2%
Variation ILED2
0.1%
Variation ILED3
0.0%
Variation ILED4
-0.1%
Variation ILED5
-0.2%
Variation ILED6
-0.3%
-0.4%
-0.5%
3
Vin (V)
6
9
O
0.25
LED current (mA)
PWM output (% duty cycle)
0
1.59
1.379
1.2
0.99
0.795
20.1
16
15.6
12
10.4
8
4.9
4
0.598
2
0
0.4
0.5
0.75
1
1.25
1.5
1.75
2
2.25
2.5
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2
2.2
Analog input (V)
Analog input (V)
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
1.78
10
ICS(X)
20
1.97
70
20
VS
24
2.36
80
30
21
2.2
90
.
18
LED current Vs Analog input
100
40
15
ANALOG INPUT
PWM output Vs Analog input
50
12
Input Voltage (V)
ANALOG INPUT VS INTERNAL DIGITAL
DIMMING
60
Input Voltage
LED String Current Matching Vs. Input Voltage
ISET = 20.04mA
Percent Variation from Range Midpoint
I_Q (mA)
1.6
10 12 14 16 18 20 22 24 26 28
Vin (V)
Quiescent current Vs input voltage
1.8
8
120
SUPPLY CURRENT VS INPUT VOLTAGE
( NO LOAD)
2
INPUT VOLTAGE
WWW . Microsemi .C OM
System
Efficiency
Vs Output
Efficiency
Vs Output
load Load
Analog
Analog Dimming
dim m ing mMode
ode
100%
VS
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 8
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
STARTUP WAVEFORMS
SWITCHING WAVEFORMS
Analog dimming. Full load
Analog dimming. 50% Load
WWW . Microsemi .C OM
Vled
Boost
FET
Drain
EN
VCS
+5V
6x LED
Current
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6X LED
Current
Inductor
Current
LED CURRENT WAVEFORMS
D = 50% at 17.5kHz, Digital dimming
LED CURRENT WAVEFORMS
D = 5% at 17.5kHz, Digital dimming
VCS
VCS
6X LED
Current
Inductor
Current
PWM
Input
6X LED
Current
Inductor
Current
PWM
Input
LED CURRENT WAVEFORMS
D = 1% at 200Hz, Digital dimming
Inductor
Current
O
Boost
Output
LED CURRENT WAVEFORMS
USPS Operation; LED Current = 0.5mA
VCS
Copyright © 2007
Rev. 1.0, 2007-12-14
Boost
Output
LX1996
6X LED
Current
Inductor
Current
LED
Current
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 9
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
LED CURRENT WAVEFORMS
Line Transient Response; VIN 10V to 20V Step
LED CURRENT WAVEFORMS
Line Transient Response; VIN 20V to 10V Step
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Boost
Output
Boost
Output
LED
Current
LED
Current
VIN
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VIN
LED PROTECTION WAVEFORMS
Shorted LED Response – 1 to 5 Shorted LEDS in a Single String
LED PROTECTION WAVEFORMS
LED Open Response
5 LED Short – VCS incremented by shorting one LED at a time up to VCS short threshold of 15V
Boost
Current
OVP
THRESHOLD
VOVP
Boost
Voltage
VBOOST
VCS
VCS
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
CS Current
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 10
LX1996
Multi-string LED Back-light Controller
®
TM
P RODUCTION D ATASHEET
TYPICAL APPLICATION
3 AMP
Si3458DV
23
4.7uF/50V
X5R 1210
24
3
LX1800
SMBus
SCL
VDD
SCD
REF
GND
Aout
ADR
Ain
LX1972
24.9K
N/C
DRV
VIN
SRC
EN
PGND
4.7uF/50V
X5R, 1210
22
1M
21
0.075
20
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1
Large LCD Backlight
B160
6V to 28V
DPST PWM
4.7uF/6.3V,X7R
5V
2
5
4
8
4.7uF
7
9
10
12
DSEL1
OVP
19
5V
VLDO
DI
OT
6
22.1k
PWM
CT
CLF
GND
CS1
CS2
CS3
CS4
CS5
CS6
PRG
78.7K
NTC
100K@25C
B=4250
DSEL2
RT
WWW . Microsemi .C OM
6.8uH
13
14
15
16
17
18
11
4.99k
Figure 1 – Typical Application – This circuit demonstrates the LX1996 and LX1972 interfacing to the
LX1800, which is an SMBus ADC/DAC. This application also uses the Display Power Saving Technology
(DPST) signal.
Key Components - Bill of Materials
Copyright © 2007
Rev. 1.0, 2007-12-14
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
LX1996
O
LX1996ILQ = Multi-string LED Back-light Controller, Microsemi
LX1800ILD = SMBus to Analog Interface, Microsemi
LX1972IBC = Ambient Light Detector, Microsemi
GRM188R60J475KE19 = 4.7uF/6.3V, X7R, 0603, Murata
GRM32ER71H475KA88 = 4.7uF/50V, X5R, 1210, Murata
SLF6028T-6R8M1R5-PF, 6.8μH, 1.5A, TDK
SI3458DV = N channel MOSFET, 60V/1.2A, TSOP-6,Vishay
NCP18WB104J03RA = NTC, 100K at 25C, B = 4250, Murata
B160 = Schottky Diode 1A/60V, SMA, Vishay
Page 11
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
OPERATION THEORY
I LED =
VPRG
× 50
R PRG
VPRG = 2V for either Direct Digital Dimming or Direct Analog
Dimming. In combined Analog and Digital Dimming, VPRG =
2V with DI ≥ 2V. When DI < 2V, then VPRG = DI.
DIMMING CONTROL
The LX1996 offers 6 methods of dimming using only 2 pins
(See Table 1).
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The LX1996 uses a variable peak current variable off time
hysteretic PFM converter topology where inductor peak current
is digitally controlled. It is a current mode step up converter in
PFM burst mode. The LX1996 controls the inductor peak and
the off time to minimize the switching frequency variation over
a wide input power supply range. It regulates the boost output
voltage based on the lowest voltage among the CS pins. This
converter stays in burst PFM mode for the entire load range and
has extremely fast load response. It automatically increases or
decreases the inductor peak current depending on the output
load to minimize the output voltage ripple while maintaining the
output in regulation. Maximum coil peak current can be up to
1.55A with a 75mΩ sense resistor. For a higher power system,
a user can use a smaller resistance current sense resistor.
Conversely, a lower power system can use a larger resistance
current sense resistor. Typical switching frequency is over
1MHz. A 6.8uH inductor is recommended for systems that
require direct digital dimming. A larger inductor may be used
for a higher efficiency if the system runs only in analog
dimming mode.
LED current can be set with an external resistor using the
following formula:
VLDO REGULATOR
DIRECT DIGITAL DIMMING (PWM)
The LED current source outputs are directly turned on and off
by the PWM signal. A high on PWM input pin turns on the
output. The current pulse magnitude is independent of PWM
duty cycle and is set by the PRG resistor with a fixed 2V
reference at the PRG pin.
COMBINED ANALOG AND DIGITAL DIMMING (PWM)
The LED current source outputs are directly turned on and off
by the PWM signal. A high on PWM input pin turns on the
output. The current pulse magnitude is dependent on the
voltage input at the DI pin. Current is set by the PRG resistor,
with a reference voltage at the PRG pin that varies with the
voltage input at the DI pin in a 1:1 ratio. The minimum and
maximum reference voltage at the PRG pin is clamped at 0.2
and 2 Volts, respectively.
O
proportional to CS current. For example, typical VCS will be
800mV at ICS = 20mA, and 80mV at ICS = 2mA. The LX1996
uses active current sources for the best string current matching
between strings. The high impedance outputs have excellent
voltage compliances, therefore, VF matching of the LEDs is less
critical. The current sources can be paralleled for higher current
rating.
F = 5e-6/CT, CT in Farad, F in Hertz.
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 12
LX1996
Regulated 5V is generated from VIN. It provides power to the
internal 5V circuits, an external NFET, and an optional external
light sensor (LX1972) or SMBus chip (LX1800). The total
maximum output current is limited to 1mA from the VLDO pin.
A capacitor must be closely connected across the VLDO pin
and GND for noise decoupling and phase compensation. A
value of 4.7μF is required. The VLDO Regulator shuts off
while the chip is in sleep mode (EN=low) to minimize the sleep ANALOG TO DIGITAL DIMMING
mode current. The VLDO output voltage is monitored by the
Analog to digital dimming mode converts a DC voltage on the
under voltage lockout circuit.
DI input into a PWM output. DI input will be in the range of
LED CURRENT SINKS
0.4 to 2.4V. An internal PWM signal is generated to control the
CS1 through CS6 are the LED current sinks. Voltage LED output, just as in direct digital dimming. Two external
information on these pins is used to regulate the boost converter components are required to make this mode work; CT and RT.
output. Boost converter output regulation is based on the lowest RT is a reference current setting resistor for the internal
CS pin voltage. This regulation scheme insures that the LED dimming oscillator, and the ultrasonic pulse skipping timer. RT
string with the largest total VF has ample headroom for must be a fixed 100kΩ. The internal oscillator frequency is set
regulation, while maximizing the total efficiency for all other by the value of the CT capacitor, and is found by the following
strings. CS pin voltage (at the lowest CS pin) is linearly equation:
Copyright © 2007
Rev. 1.0, 2007-12-14
WWW . Microsemi .C OM
BOOST CONVERTER
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
OPERATION THEORY
The table below summarizes the dimming modes.
DSEL1
Low
Low
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Hi
Hi
Table 1 - Dimming Modes
DSEL2
Dimming Method
Low
Direct Digital Dimming
Hi
Combined Analog and
Digital Dimming Modes
Low
Direct Analog Dimming
Hi
Direct Analog Dimming
with Ultrasonic Pulse
Skipping (USPS)
Low
Analog to Digital dimming
with internal clock
Hi
Analog to Digital dimming
with external clock
synchronization.
Open
Open
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
DIRECT ANALOG DIMMING
In this mode, a DC voltage on the DI pin is used to vary the
reference voltage at the PRG pin. The PRG pin reference
voltage, in conjunction with the resistor connected between the
PRG pin and ground, sets the LED current. The ratio of DI
input voltage to PRG pin voltage is 1:1, up to 2V input. The DI
input voltage range is 0V to 5V, however, the voltage at PRG
pin is limited to 0.2V to 2V with an internal voltage clamp.
Thus the dimming ratio is limited to 10:1. A higher dimming
ratio is obtained in the Combined Analog and Digital Dimming
mode.
WWW . Microsemi .C OM
ANALOG TO DIGITAL DIMMING WITH EXTERNAL SYNC
The internal dimming oscillator can be synchronized to an
external clock on the PWM input. A PLL loop filter capacitor
must be connected between CLF and GND pins for
synchronization. Use 0.1uF for 200Hz, 0.001uF for 20KHz.
The RT, CT and CLF pins can be left open if both the internal
dimming and ultrasonic pulse skipping modes are not used.
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 13
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
OPERATION THEORY
DIGITAL DIMMING MODES OF OPERATION
Analog to Digital dimming
Freq. Range
•
PWM
100Hz
to
25kHz
•
•
Internal
frequency
100Hz –
25kHz
Freq. Range
•
•
•
•
•
Controller Performance
Signal into DI pin will be either from
an Ambient Light Sensor (ALS) or a
variable voltage source, VDI
The LED current is linearly controlled
by a programmable resistor and VDI
Valid VDI range is 0.2V to 2.0V
LED current will be turned On/Off
directly by PWM.
Dimming ratio is 100:1 at PWM =
25kHz. It will be proportionally
higher at lower frequency. The
minimum pulse width is 4μsec
•
•
Analog to Digital dimming with external synchronization
clock
Freq. Range
•
ANALOG DIMMING MODES OF OPERATION
•
Direct Analog Dimming
Freq. Range
•
•
Controller Performance
Signal into DI pin will be either from
Ambient Light Sensor (ALS) or the
adjustable voltage source, VDI
The LED current is linearly
controlled by a programmable
resistor and VDI
Valid VDI range is 0.2V to 2.0V
The Dimming ratio can go up to 10:1.
•
•
Direct Analog Dimming with Ultra Sonic Pulse Skipping
(USPS)
Freq. Range
N/A
Copyright © 2007
Rev. 1.0, 2007-12-14
•
Controller Performance
Enables USPS in analog dimming
mode to reduce boost inductor noise
by moving the switching frequency
out of the audible range.
Internal
frequency
100Hz –
25kHz
•
•
•
•
•
•
Controller Performance
PWM duty cycle controlled by the
signal into the DI pin
Signal into DI pin will be either from
an Ambient Light Sensor (ALS) or a
variable voltage source, VDI
VDI will be in the range of 0.4V to
2.4V
PWM signal is generated by an
internal oscillator. Dimming
frequency is set by a capacitor
connected to the CT pin
The maximum LED current is set by
a programmable resistor connected to
the RPRG pin.
LED current will be turned On/Off
directly by the internal PWM
The internal PWM synchronizes to a
clock on the PWM input pin
Dimming ratio is 10:1 at internal
frequency = 25kHz. It will be
proportionally higher at lower
frequency. The minimum pulse
width is 4μsec
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 14
LX1996
O
N/A
•
•
Combined Analog and Digital Dimming
PWM
100Hz
to
25kHz
•
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•
•
Controller Performance
LED current will be turned On/Off
directly by PWM.
The maximum LED current is set by a
programmable resistor.
Dimming ratio is 10:1 at internal
frequency = 25kHz. It will be
proportionally higher at lower
frequency. The minimum pulse width
is 4μsec
Controller Performance
PWM duty cycle controlled by the
signal into the DI pin
Signal into DI pin will be either from
an Ambient Light Sensor (ALS) or a
variable voltage source, VDI
VDI will be in the range of 0.4V to
2.4V
PWM signal is generated by an
internal oscillator. Dimming
frequency is set by a capacitor
connected to the CT pin
The maximum LED current is set by
a programmable resistor connected to
the RPRG pin.
LED current will be turned On/Off
directly by the internal PWM.
Dimming ratio is 10:1 at internal
frequency = 25kHz. It will be
proportionally higher at lower
frequency. The minimum pulse
width is 4μsec
WWW . Microsemi .C OM
Freq. Range
Direct Digital Dimming
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
OPERATION THEORY
PROTECTION MODES
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THERMAL SHUTDOWN
voltage divider network. This network consists of a thermistor
and a bias resistor connected between +5V and GND. The LED
current profiler circuit will reduce the LED current setting by
reducing the PRG pin voltage. With our recommended external
components, derating begins at 60°C (recommended by most
LED manufacturers). The LED current will reduce proportional
to the temperature, and shut off when the sensing temperature
reaches 85°C. The LED current will recover when the sensing
temperature drops to 75°C. See example chart below (recovery
not shown).
The LX1996 includes a thermal protection circuit. When the IC
senses temperature over +140°C (typ), the LX1996 turns off the
LED output current and other circuits. The output recovers
when the die temperature drops down to 100°C. The thermal
protection does not latch off the IC.
LED C urrent Vs. Tem perature
25m A
20m A
OVER VOLTAGE PROTECTION
A simple resistor divider between the boost output and ground
is used to program the LX1996’s OVP limit. The over-voltage
threshold is set to 2V at the OVP pin. When OVP limit
threshold is met, the LX1996 will regulate the boost output to
the OVP 2V threshold. OVP limit should be set to a voltage
approximately 2 Volts above the maximum total VF of the
individual diode strings.
LED OPEN/SHORT PROTECTION
15m A
10m A
B = 4500
B = 4000
B = 3000
5m A
0°C
20°C
40°C
60°C
80°C
100°C
LX1996
O
In case of an open string, the open string CS voltage will drop to
zero and the boost voltage will rise up to its programmed OVP
limit or the CS pin maximum voltage limit. When the boost
output reaches the OVP limit or the voltage of any CS pin
reaches 25V, the open string is latched off from the regulation
loop. At the moment the open string latches off, The boost
converter will stop switching until the lowest CS pin voltage
gets down to 0.8V. The change in boost output voltage should
have no impact to the remaining active LED string currents
since they are provided by high impedance current sinks. Once
the open condition is corrected, cycling power or the EN input
will reset the latched off CS string.
In case of the LED short condition, LX1996 output works
normally until the CS voltage rises to 15V (up to four shorted
LEDs, typical). When the CS pin voltage reaches 15V, the
shorted string is latched off and is disconnected from the boost
converter’s regulation loop. If the latched off string CS pin
voltage reaches 25V, the circuit will hold the CS pin voltage at
this level.
LED CURRENT TEMPERATURE PROFILER
For LED Bar temperature sensing, the LED current profiler
circuit receives a voltage on the OT pin from the output of a
Copyright © 2007
Rev. 1.0, 2007-12-14
WWW . Microsemi .C OM
Ultra Sonic Pulse Skipping (USPS)
At low LED current level, the boost frequency may go to
audible range. With an USPS option (analog dimming mode
only), the audible noise is completely eliminated.
When this mode is enabled, maximum switching interval is
limited to 40μS, thus keeping the switching frequency beyond
audible range. USPS is an option for analog dimming only.
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 15
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
APPLICATION INFORMATION
IL PK
THERMAL PROFILER COMPONENT SELECTION
The following circuit is a typical application using the OT pin
for temperature profiling:
5V
112.5mV VCC × 20ns
mA
=
+
R SRC
L BOOST
R1
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Typically, Peak current is determined by the size of the FET
desired. Peak current will also determine the amount of energy
stored in the inductor during a single switching cycle.
OT
The VCS detect signal is fed into a 4 bit up/down counter to
determine the peak current level for each boost condition (VIN,
VOUT, and IOUT). There are 15 total current steps available. The
DC maximum threshold, VSCR, is equal to 112.5mV, and the
constant voltage increment is equal to 112.5mV/15 = 7.5mV.
WWW . Microsemi .C OM
INDUCTOR CURRENT SENSE RESISTOR SELECTION (RSRC)
Peak inductor current is determined by the resistor connected
between SRC pin and GND, RSRC. It’s value is determined by
the following equation:
NTC
Use NTC thermistor with resistance of 100k at 25°C. B constant
can be from 3000 to 4500.
1. Find out the NTC resistance at 85°C (R85) by
manufacturing chart or formula:
If we select RSRC = 75mΩ, then step current:
ISTEP.= 7.5mV/75mΩ = 100mA
Maximum inductor peak current:
IPEAK (MAX) = 100mA x 15 +50mA = 1.55A
Note: 50mA term is due to propagation delay and is
based on 4.7uH inductor and VIN = 12V.
2. Calculate R1 value to set the shut off temperature at
85°C by: R1 = 2.4 x R85. This will set VOT = 1.47V when
NTC is at 85°C.
If higher output power is needed, the value of RSENSE must be
lowered accordingly. For example: If 50mΩ is used:
Each current step will be:
ISTEP = 7.5mV/50mΩ = 150mA
Thermal profile is set by the internal circuit with the following
equation:
VPRG=(VOT-0.8)*1.2, VOT=(RTHERM/(RTHERM + R1))*5;
Where RTHERM is the thermistor resistor
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Maximum inductor peak current:
IPEAK (MAX) = 150mA x 15 + 50mA = 2.3A
Copyright © 2007
Rev. 1.0, 2007-12-14
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 16
LX1996
At PRG pin, 2V is the 100% value and 0.8V is the shut off
The current sense signal is very sensitive; therefore, the LX1996 point (40%).
SRC pin must be connected directly to the junction of the sense
resistor, RSRC, and the NFET Source, as close to RSRC as
practical. The return side of the sense resistor must tie directly
to the PGND pin, and then tie the PGND pin to the ground
plane.
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
APPLICATION INFORMATION
Substitute values into equations 1, 2, and 3:
TOFF
FPWM
LMIN
=
=
=
282nsec
654.7kHz
4.96uH
From equation 4, the maximum value of the boost inductor is:
LMAX
=
7.7uH
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The inductor value will be in the range of 4.96uH to 7.7uH.
Lower inductance provides faster transient response; higher
inductance reduces ripple current and improves efficiency.
When selecting the inductor, peak current rating, series
resistance, and physical size should be all considered. The right
candidate for this part is 6.8uH, 1.6A (6x6mm2) from TDK or
Coil craft.
And PFM frequency:
FPFM = VIN/(VOUT x TOFF) (Hz)
(2)
WWW . Microsemi .C OM
BOOST CONVERTER INDUCTOR SELECTION (LBOOST)
The LX1996 boost converter operates always in PFM mode,
and in conjunction with the current sink circuit to support digital
dimming mode with a minimum pulse width of 4μs. Therefore,
a boost inductor must be selected to satisfied digital dimming
mode minimum pulse width requirements, with enough energy
to supply the output during this period.
The LX1996 controls the off time and peak current for
hysteretic PFM converter topology. The off time (TOFF) will
vary proportionally with input voltage per the following
formula:
(1)
TOFF = 150 + (22 x VIN ) (nsec)
For any instant, the stored energy must be large enough to
supply the output load and output capacitor. Therefore:
½ LMIN*I²FPWM ≥ VOUT x IOUT
(3)
OVP SETTING
The worst case for white LED forward voltage VF = 3.5V.
From equation 1, 2, and 3, the minimum boost inductor value Therefore, the boost voltage that is set for 10 LEDs will be:
can be calculated.
VLED = 10xVF +2V = 37V
With a specified minimum pulse-width of 4μsec, the maximum
boost inductor value must allow the inductor to reach the To minimize power loss through the OVP resistor network,
maximum peak current in less than 4μsec. Otherwise, the LED select a top resistor R
The bottom resistor is
TOP = 1MΩ.
current can not get to the maximum.
selected:
LMAX = VIN dt/di
(4)
RBOTTOM = VOVP x RTOP/( VLED – VOVP);
RBOTTOM = (2 x 1MΩ)/(37-2) = 57.1kΩ
To calculate the maximum inductor value, VIN will be at
minimum, di will be at maximum, and dt is set at 2us which is Select the closest resistor value: R
BOTTOM = 56.2kΩ.
½ of the minimum pulse width.
O
For example:
With 10 white LED in series for 6 strings with I-LED = 20mA,
total IOUT = 120mA.
LX1996
Minimum input voltage is 6V.
Per Nichia VF (AVG) = 3.15V, and 3σ = 0.15V, then the worst
case for the peak LED voltage is 31.7V. Adding 0.8V for the
output diode forward drop, the boost voltage will be:
VOUT = 31.7V + 0.8V = 32.5V
The maximum peak inductor current is 1.55A with 75mΩ
current sense resistor.
Copyright © 2007
Rev. 1.0, 2007-12-14
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 17
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
APPLICATION INFORMATION
WWW . Microsemi .C OM
OUTPUT CAPACITOR SELECTION
The output capacitor is preferred to be ceramic for low ESR,
small size and relatively lower cost. The capacitor value needs
to be large enough to minimize the ripple voltage, which is
sensed at CS pins for the feedback current sink regulation. For
up to 42 LEDs, we recommend a minimum of 4.7uF; for larger
number of LEDs, use larger capacitor such as 6.8uF or 10uF.
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OUTPUT DIODE SELECTION
A high switching frequency demands a high-speed rectifier. A
Schottky diode is recommended with a rating of 1A/60V. 1A
rating is more than adequate to meet the peak and average
current required. 60V rating is to cover up to OVP limit when
using 10LEDs per string.
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
SWITCHING MOSFET SELECTION
The switching MOSFET should be an N-channel MOSFET with
a low RDSON rated at VGS = 4.5V, and a low gate charge.
Selection of a FET with the best combined low RDSON and gate
charge (Qg) will generally improve efficiency. The MOSFET
breakdown rating must be higher than the OVP setting.
Good candidates are Si3458DS or AM2358N.
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 18
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
PCB LAYOUT GUIDE
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It is recommended that decoupling capacitors C7 and C4 be placed as close as possible to the LX1996. The Inductor current sense
resistor R1 must tie directly to PGND pin, and then tie to the power ground plane at that pin.
For a good practical layout of switching boost circuit, keep loops as short as possible for the boost switching components ( Q1,
L1, D1, & C3). Connect a separate signal ground plane to GND pin, a separate power ground plane to PGND pin, and then tie
them together at GND pin.
It is important that the LX1996 have a good thermal path to ambient to dissipate heat. The simplest way to do this is to heat sink
the LX1996 bottom pad directly to the ground plane by placing 4 or more vias in the ground pad directly under the LX1996
footprint.
Place the LDO filter capacitor (C5), R5 (RT resistor), C2 (CT capacitor), C1 (CLF capacitor), and R4 (RPRG resistor) as close to the
IC as practical.
WWW . Microsemi .C OM
PCB LAYOUT RECOMMENDATIONS
(SEE FIGURE 2 SCHEMATIC)
LX1996
O
PCB LAYOUT GUIDE – TOP LAYER
Actual PCB size (H x W): 10mm x 40mm
Copyright © 2007
Rev. 1.0, 2007-12-14
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 19
LX1996
®
TM
Multi-string LED Back-light Controller
P RODUCTION D ATASHEET
PCB LAYOUT GUIDE
PCB LAYOUT GUIDE – BOTTOM LAYER
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WWW . Microsemi .C OM
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
PCB LAYOUT GUIDE – TOP SILKSCREEN
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 20
LX1996
Multi-string LED Back-light Controller
®
TM
P RODUCTION D ATASHEET
PCB LAYOUT GUIDE
F1
Vin (6 - 28V)
EN
5V
DSEL1
DI
PWM
3.15 A
D1
SLF6028T-4R7M1R6-PF
1N5819
6 x 6 mm
5V
Powermite
C4
C7
Q1
SM07B-SRSS-TB
1210
100k
R2
Si2308DS
4.7uF/50V
R8
GND
.1uF/50V
1
2
3
4
5
6
7
1M
SOT23
C3
R7
23
24
N/C
Vcc
1206
DRV
SRC
22
21
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N/U
5V
4.7uF/50V
U1
LX1996
4.95 x 8mm
1
3
4
5
2
5V
EN
DSEL1
DSEL2
DI
+5V
PGND
AGND
OVP
R3
R1
0.075
68.1k
R6
22.1k
Thermistor
20
WWW . Microsemi .C OM
L1
J1
GND
C5
4.7uF
12
C1
0.1uF
C2
2.2nF
OT
100k
8
9
10
11
7
RT
CT
CLF
PRG
PWM
CS6
CS5
CS4
CS3
CS2
CS1
6
18
17
16
15
14
13
J2
1
2
3
4
5
6
7
8
9
10
TO LEDs ASSEMBLY
R5
R4
4.99k
19
FH12F-10S-0.5SH
6.4 x 9.1mm
Unless otherwise specified:
- PCB dimension = 10mm x 40mm
- All resistors are in ohm, and 0603 size
- All capacitors size are 0603
Copyright © 2007
Rev. 1.0, 2007-12-14
LX1996
O
Figure 2 – LX1996 Example Schematic
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 21
LX1996
Multi-string LED Back-light Controller
®
TM
P RODUCTION D ATASHEET
Dim
D
b
E
D2
E2
e
A1
MIN
MAX
0.80 1.00
0
0.05
0.20 REF
0.18 0.30
4.00 BSC
4.00 BSC
0.50 BSC
2.30 2.55
2.30 2.55
0.30 0.50
INCHES
MIN
MAX
0.031 0.039
0
0.002
0.008 REF
0.007 0.011
0.157 BSC
0.157 BSC
0.019 BSC
0.090 0.100
0.090 0.100
0.012 0.020
bs
ol
et
e
L
A
A1
A3
b
D
E
e
D2
E2
L
MILLIMETERS
Notes:
A
1. Controlled dimensions are in mm, inches are
for reference only.
2. Dimensions do not include mold flash or
protrusions; these shall not exceed 0.155mm
(.006”) on any side. Lead dimension shall
not include solder coverage.
LX1996
O
A3
PRODUCTION DATA – INFORMATION CONTAINED IN THIS DOCUMENT IS
PROPRIETARY TO MICROSEMI AND IS CURRENT AS OF PUBLICATION DATE.
THIS DOCUMENT MAY NOT BE MODIFIED IN ANY WAY WITHOUT THE
EXPRESS WRITTEN CONSENT OF MICROSEMI. PRODUCT PROCESSING DOES
NOT NECESSARILY INCLUDE TESTING OF ALL PARAMETERS. MICROSEMI
RESERVES THE RIGHT TO CHANGE THE CONFIGURATION AND
PERFORMANCE OF THE PRODUCT AND TO DISCONTINUE PRODUCT AT ANY
TIME.
Copyright © 2007
Rev. 1.0, 2007-12-14
WWW . Microsemi .C OM
PACKAGE DIMENSIONS
Microsemi
Analog Mixed Signal Group
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 22