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RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
DESCRIPTION Dual Drive, RangeMAXTM Wide Range Dual Drive Dimming Control. Dimming, Single Output Inverter. The inverters provide brightness
KEY FEATURES
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LXMG1614E series of Direct DriveTM CCFL (Cold Cathode Fluorescent Lamp) Inverter Modules is specifically designed for driving LCD backlight lamps. Although similar to the RangeMAX LXMG1612 wide range dimming inverters, the LXMG1614E family offers two separate brightness controls for lamp current amplitude and duty cycle. This innovation of dual brightness control with extended dimming, combined with Microsemi's high efficiency Direct Drive topology, provides the industry's most feature rich, small form factor inverter available. The wide range dimming provides exceptional display readability at less than 1% of full brightness, allowing both power savings and low ambient light operating capability.
The adjustments utilizing standard lamp current amplitude control as well as supporting Microsemi's RangeMAX wide range dimming technique. Combining both brightness controls into a single inverter supports the "self heating" lamp technology by using a "boost" current feature and still offers duty cycle control for low brightness operation. This controlled overdrive capability eliminates the need for traditional resistive heater wire methods to ensure light output at extremely low temperatures. The LXMG1614E brightness controls support temperature monitoring with look-up table applications by accepting either a PWM input or DC voltage. Large panel lamps with greater thermal inertia can also utilize this "instant-bright" feature and minimize warm up time.
Independent Brightness Controls For Lamp Current Amplitude and Duty Cycle RangeMAX 1-100% Wide Range Dimming with Controlled Overdrive Boost On-Board Thermister Automatically Limits Maximum Lamp Current Supports Wide Input Voltage Range 9-16V High Efficiency, Single Stage Direct Drive Topology -40C to +85C Ambient Temperature Operation Output Open/Short Circuit Protection Up to 2000V Output Voltage Capability Single Side PCB Component Layout RoHS Compliant UL60950 E175910 APPLICATIONS Self Heating And High Pressure Lamp Technology Automotive Navigation, GPS Systems, Auto PC Extended Cold Temperature Operation Aircraft Cabin Displays Low Ambient Light Conditions Requiring Wide Range Dimming "Instant On" To Full Brightness For Large LCD Backlight Panels Industrial Notebook And Workstations
(continued next page) IMPORTANT: For the most current data, consult MICROSEMI's website: http://www.microsemi.com Protected by U.S. Patents: 5,923,129; 5,930,121; Patents Pending
PRODUCT HIGHLIGHT
LXMG1614E-14-11 LXMG1614E-14-11
Controlled overdrive mode of LXMG1614E Inverter accelerates lamp warm-up time to provide maximum light output even in extreme temperature environments
MODULE ORDER INFO PART NUMBER
LXMG1614E-14-11
Copyright (c) 2005 Rev. 1.0a,2006-09-13
OUTPUT CONNECTOR
JST SM02(8.0)B-BHS-1-TB (LF)(SN)
INVERTER MATES DIRECTLY TO PANEL CONNECTORS
JST BHR-03VS-1
Page 1
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
DESCRIPTION (CONTINUED) Direct Drive Technology. An on-board thermister monitors the inverter's relative The module design is based on the Direct Drive topology, temperature and limits the maximum allowable lamp current. This current limit automatically protects the lamp which provides a number of cost, performance, and form The LXMG1614E series inverters and inverter as a function of temperature, which helps factor advantages. eliminate the classic resonant inductor/capacitors and control the system during Boost mode. integrate the wide range dimming logic into the controller. RangeMAX Digital Dimming Technique.
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Digital dimming provides flicker-free brightness control in any wide range dimming application. With many panels dimming ratios greater than 100:1 can be achieved. A video synchronization feature allows wide ratio dimming without the display disturbances and interference seen with competitive products. The resultant "burst drive" that energized the lamp was designed specifically to ensure that no premature lamp degradation occurs. Even in overdrive boost mode, the waveform is carefully controlled to minimize the effects that are detrimental to lamp life. Individual panel specifications should be referenced for specific thermal and electrical parameters.
Additional Features.
Other benefits of this new topology are fixed-frequency operation and secondary-side strike-voltage regulation. Strike-voltage regulation minimizes corona discharge in the output transformer and related circuitry, providing longer life and higher reliability. All LXMG1614E modules feature both open and shorted lamp protection. The dual drive LXMG1614E is fully customizable (electronically and mechanically) to specific customer requirements.
ABSOLUTE MAXIMUM RATINGS (NOTE 1) Input Supply Voltage (VIN) ................................................................................................................................... -0.3V to 17V Output Voltage, no load .......................................................................................................... Internally Limited to 2000VRMS Output Current full boost ................................................................................................... 13mARMS (<2 minutes @TA<25C) Output Current nominal boost ................................................................................................................................. 6.1mARMS Output Power ......................................................................................................................................... 10W (-40C to 25C) Output Power ............................................................................................................................................ 6W (26C to 85C) Input Signal Voltage (BRITE, BOOST)............................................................................................................... -0.3V to 5.5V Input Signal Voltage (SLEEP, VSYNC) ................................................................................................................. -0.3V to 5.5V Ambient Operating Temperature, zero airflow ..................................................................................................-40C to 85C Operating Relative Humidity, non-condensing ...............................................................................................................90% Storage Temperature Range ..........................................................................................................................-40C to 125C RECOMMENDED OPERATING CONDITIONS
This module has been designed to operate over a wide range of input and output conditions. However, best efficiency and performance will be obtained if the module is operated under the condition listed in the `R.C.' Column. Min. and Max. columns indicate values beyond which the inverter, although operational, will not function optimally.
Parameter
VIN Voltage Range Output Power Brightness Control Input Voltage Range BOOST Control Input Voltage Range Lamp Operating Voltage Lamp Current Full Brightness Operating Ambient Temperature Range
Symbol
VIN PO VBRT_ADJ VBST_ADJ VLAMP IOLAMP TA
Recommended Operating Conditions Min R.C. Max
9.0 0.0 0.0 500 3.5 -40 1.5 12 16.0 6.0 5.0 5.0 1000 9.0 85
Units
D DESCRIPTION
V W V V VRMS mARMS C
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 2
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
ELECTRICAL CHARACTERISTICS
WWW .Microsemi .C OM
Unless otherwise specified, these specifications apply over the recommended operating conditions and TA = -40 to 85C ambient temperature for the LXMG1614E-14-11.
Parameter
OUTPUT PIN CHARACTERISTICS Lamp Current, Full Boost Lamp Current, Full Boost Lamp Current, No Boost Min. Average Lamp Current (Note 2) Lamp Start Voltage Operating Frequency Fault Timeout BRITE INPUT Linear Dim Control Range Input Current Input Voltage for Max. Lamp Current Input Voltage for Min. Lamp Current BOOST INPUT Linear Dim Control Range Input Current Input Voltage for Max. Boost Current Input Voltage for Min. Boost Current SLEEP INPUT RUN Mode OFF Mode Input Current VSYNC CHARACTERISTICS
Symbol
Test Conditions
LXMG1614E-14-11 Min Typ Max
8 5 3 8.8 5.7 3.8 .12 2000 9.4 6.4 4.6
Units
IL(BOOST5) IL(BOOST1.5) IL(BOOST0) IL(MIN) VLS FO TFAULT
VIN=9V, BRITE= 5V, BOOST= 5V, TA per Figure 9 VIN=9V, BRITE= 5V, BOOST= 1.5V, TA per Figure 9 VIN=9V, BRITE= 5V, BOOST= 0V, TA per Figure 9 BRITE = BOOST = 0V
mARMS mARMS mARMS mARMS VRMS KHz SEC
BRITE= 5V
55
65 1.0
75
VBRT IBRT VBRT_ADJ VBRT_ADJ BRITE= 0V BRITE= 5V IO(LAMP) = 100% Duty Cycle IO(LAMP) = Minimum Duty Cycle
0.5 10 10 4.5 0
4.5
VDC ADC ADC
5.0 0.5
VDC VDC
VBST IBOOST VBST_ADJ VBST_ADJ BOOST= 0V BOOST= 5V
0.5 10 10 4.5 0
4.5
VDC ADC ADC
5.0 0.5
VDC VDC
VSLEEP VSLEEP IISLEEP
2.4 0
VIN 0.8 110
VDC VDC
SLEEP = 5V SLEEP = 0V
0
A
Logic High Level Logic Low Level Input Impedance Input Frequency Output Burst Rate
VSYNC (HI) VSYNC (LO) ZIN FVSYNC FBURST Minimum pulse width >1S VSYNC=0V, Free Run Frequency
2.4 -0.3 10 50 135 170
5.5 0.8
VDC VDC K
ELECTRICALS ELECTRICALS
120 195
Hz Hz
Note 2: Minimum lamp current required to maintain even light output may vary with display panel. Average RMS current = (burst duty cycle) X (burst amplitude of full lamp current)
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 3
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
FUNCTIONAL PIN DESCRIPTION
WWW .Microsemi .C OM
Conn. CN1-1,2 CN1-3,4 CN1-5
Pin VIN GND Main Input Power Supply (9V to 16V) Power Supply Return
Description
CN1 (Molex 53261-0871)*
SLEEP > 2.4V (Backlight on), < 0.8V (Backlight off), IISLEEP=110A @ 5.0V CN1-6 BOOST Lamp Current Amplitude Control (0.5-4.5VDC) 4.5VDC gives maximum boost CN1-7 BRITE Brightness Control (0.5- 4.5VDC) 4.5VDC gives maximum lamp current CN1-8 VSYNC Vertical Synchronization Input (50 < fSYNC < 120Hz), minimum pulse width 10S CN2 (JST SM02(8.0)B-BHS-1-TB(LF)(SN))
CN2-1 CN2-2
VOUT1 VOUT2
High Voltage CCFL Lamp Supply High Voltage CCFL Lamp Return
* LX9501G Mating Connector Assembly Available
PHYSICAL DIMENSIONS
120mm
4.724in.
10mm
0.394in.
CN1
23mm
0.905in.
20mm
0.787in.
CN2
3mm .08mm
0.118in.
10mm
0.394in.
130mm
5.118in.
8.5mm
0.335in. PCB tolerances 0.5mm Weight: 12.5(g) typ.
1mm
0.0393in.
All Dimensions are millimeters. Inches for reference only
MECHANICALS MECHANICALS
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 4
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
HOW THE RANGEMAX WORKS
WWW .Microsemi .C OM
VBST 0.5 4.5VDC
High Voltage Transformer Gain & Summing Transformer Driver
VOUT1
Comparator
0.5 4.5VDC
VBRT Ramp
ISENSE
VSENSE
+ Ramp Gen. & PLL Temperature Sense I/V VOUT2
VSYNC
Figure 1 - RangeMAX Simplified Block Diagram HIGHLIGHTS
*
Integrated dual brightness control circuit includes a DC voltage to pulse width converter that minimizes system design work and system noise susceptibility. This provides a familiar and convenient interface while reducing the potential for externally induced noise, which can cause lamp flicker. * RangeMAX inverter modules are designed to operate with the burst frequency synchronized to the video frame rate. This provides operation with no visible display disturbances caused by beat frequencies between the lamps and video frame rates. In this synchronous mode, the inverter burst rate operates at twice the video refresh rate; well beyond standard 50/60Hz video refresh rates where the eye can perceive pulsing light. The frequency at the VSYNC input will affect the minimum dimming level. Generally, the potential dimming (or brightness) range is inversely proportional to the VSYNC frequency.
*
In applications with no access to a vertical sync, an onboard oscillator operates the inverter burst rate at about 170Hz. In this non-synchronous mode, minor display disturbances can be found under certain video conditions. This performance may be acceptable for many applications, but synchronization must be used when no disturbance can be tolerated. * Separate feedback loops for lamp current and open circuit voltage regulation insure reliable strike under all operating conditions, automatic over-voltage prevention with broken or failed lamps, and accurate lamp current regulation. * A single input will accommodate negative and positive vertical sync pulses at any pulse width.
LAMP
DESCRIPTION DESCRIPTION
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 5
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
HOW THE RANGEMAX WORKS (CONTINUED)
LAMP VOLTAGE & LAMP CURRENT - BURST MODE OPERATION
WWW .Microsemi .C OM
Figure 2 - LXMG1614E Combines Current Amplitude and Digital Techniques
The LXMG1614E provides both lamp current amplitude control (BOOST) and a brightness control (BRITE) for dimming. Please see following sections for dimming and amplitude boost control. To achieve extremely wide dimming ranges, rather than only using the traditional dimming technique of varying lamp current magnitude to adjust light output, RangeMAX inverters utilize a fixed lamp current value with a duty cycle control method.
The lamp current burst width can be modulated from 100% (continuous lamp current) down to a 2% duty cycle, allowing the lamp to be dimmed to less than 2% of its full brightness As can be seen in Trace 4 of Figure 5, careful design consideration was given to controlling lamp start voltage to softly start current flow. This eliminates current overshoot that can result in premature cathode wear and reduce lamp life.
Figure 3 - 50% Burst Duty Cycle
Figure 4 - 2% Burst Duty Cycle
DESCRIPTION DESCRIPTION
Figure 5 - 2% Burst Duty Cycle (Expanded Time Base)
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 6
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
HOW THE RANGEMAX WORKS (CONTINUED)
DUAL DIMMING CAPABILITY
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As seen in the Brightness vs. Time graphs, the boost mode operation can improve the performance of cold cathode florescent lamps in any LCD application by reducing the time it takes to warm up lamps to their optimum operating temperature. This feature is helpful in large LCD multi-lamp monitors as well as automotive or industrial extreme temperature applications.
The "boost" control provides a timed overdrive mode to maximize light output over temperature. After a panel is characterized with a profile of the user's application (such as desired light output as a function of ambient light and temperature), the appropriate boost level, and duration of the boost can be set. Further wide range dimming control is provided by the Brite input dimming function.
Figure 6
DESCRIPTION DESCRIPTION
Figure 7
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 7
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
HOW THE RANGEMAX WORKS (CONTINUED)
WIDE RANGE DIMMING FUNCTION AMPLITUDE BOOST FUNCTION
WWW .Microsemi .C OM
Dimming can be controlled by a DC voltage (like a voltage output DAC) or by a PWM signal (5V logic level PWM signal from a micro controller). The PWM signal should be 400Hz to 4kHz, 0V to 5V, 0% to 100% duty cycle.
The Boost Function Control signal levels are the same as the Dimming Control. Less than 0.5V provides 4mA maximum lamp current while 4.5V on Boost provides "max boost" with a max lamp current of 9mA. Please note that these maximum lamp current levels are protected by the onboard thermistor, which limits the maximum lamp current automatically as a function of temperature as seen in Figure 9.
Lamp Current (mArms) control range 9 boost mode
Brightness
control range
100%
VIN = 9V
4
no boost mode
Typical curve for 5.8" panel. Other panels may be different.
1% BRITE 0.0 V 0.5 V 4.5 V 5.0 V
IBOOST 0.0 0.5 4.5 5.0
Figure 8 - Typical brightness as a function of the BRITE control (CN1-7)
Figure 9 - Typical maximum lamp current as a function of the Boost control (CN1-6)
Lamp Current (mArms) 9.0 7.5 5.5 4.0
Typical curve for 5.8" panel. Other panels may be different.
VIN = 9V
DESCRIPTION DESCRIPTION
Temp -40 25 85C 0 Figure 10 - Typical maximum lamp current as a function of ambient temperature
Copyright (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 8
RangeMAXTM
TM (R)
LXMG1614E-14-11
DUAL DIMMING, EXTENDED TEMPERATURE CCFL INVERTER MODULE
PRODUCTION DATASHEET
TYPICAL APPLICATION
9V-16V BOOST BRITE VIN
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*
VOUT1 CCFL TUBE
LXMG1614E-14-11
0V
2.5V
SLEEP V SYNC
SYNC
GND
V OUT2
Figure 11 - Brightness Control
The BRITE/BOOST control may be a voltage output DAC, or other voltage source as shown in Figure 11. A 5V Logic Level PWM signal from a micro-controller may also be used as shown in Figure 12. * If synchronization to the video frame rate is desired, connect the vertical sync pulse from the system video controller to the VSYNC input. If no video synchronization is desired, connect VSYNC to ground. * If you need to turn the inverter ON/OFF remotely, connect a 2.4V to 5V logic signal to the SLEEP input. If remote ON/OFF is not needed, connect the SLEEP input to VIN or other voltage source between 2.4V and 5V. * Connect VOUT1 to the high voltage supply wire from the lamp. Connect VOUT2 to the high voltage return wire from the lamp.
RangeMAX INVERTERS
PWM Signal from System P.W.
BOOST BRITE
LXMG1614E-14-11 2.5mS to 250S 0 < P.W. < 100% of period Figure 12 - PWM Brightness Control
Also available in other wide range dimming single lamp inverters LXMG1612-xx-xx, LXMG1615-03-xx, LXMG1617/8-xx-xx, Dual Output, LXMG1623/4-xxxx, LXMG1626-xx-xx, and Quad Output LXMG164312-6x versions for multiple lamp applications. See the Microsemi website www.microsemi.com for a current list of available inverters products.
APPLICATION APPLICATION
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 (c) 2005 Rev. 1.0a,2006-09-13
Microsemi
Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
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