MICROSEMI LXM1622-05-XX

A
M I C R O S E M I
RangeMAX
LXM1622-05-xx
DUAL 5W, DIGITAL DIMMING CCFL INVERTER MODULE
C O M P A N Y
P RELIMINARY D ATA S HEET
The resultant “burst drive” that
energizes the lamp was designed
specifically to ensure that no premature
lamp degradation occurs (See the “How
RangeMAX Works” section).
Input Voltage Range. The modules
convert the DC voltage from a fixed 5V
supply directly to high-frequency, highvoltage waves required to ignite and
operate CCFL lamps.
A 12V input
inverter is also available; LXM1612-12
series.
The
Direct Drive Technology.
modules design is based on a new Direct
Drive topology, which provides a number
of cost and performance advantages.
Additional Features. Other benefits
of this new topology are fixed-frequency
operation, secondary-side strike-voltage
regulation, and both open and shorted
lamp protection. If lamp fails to strike the
inverter will timeout and shutdown.
RangeMAX Wide Range
Dimming
Fixed 5V input
Easy to Use Brightness Control
Output Short-Circuit Protection
and Automatic Strike-Voltage
Regulation and Timeout
Fixed Frequency Operation
Microamp SLEEP mode
Notebook Sub-Notebook
Computers
Portable Instrumentation
Low Ambient Light
W W W . Microsemi . COM
RangeMAX Wide Range Dimming,
Dual Output Inverter. The LMX1622
series of Direct Drive CCFL (Cold
Cathode Fluorescent Lamp) Inverter
Modules are specifically designed for
driving two lamp LCD displays. They are
available in two power and input voltage
ranges.
LMX1622 modules provide the
designer a vastly superior display brightness range. This brightness range is
achievable with virtually any LCD
display.
RangeMAX
Digital
Dimming
Technique. Digital dimming provides
flicker-free brightness control in any wide
range (100:1+) dimming application.
The modules are available with a dimming input that permits brightness control
from either a DC voltage source or
a PWM signal.
Smooth, Flicker Free 1-100%
Full-Range Brightness Control
Output Open Circuit Voltage
Regulation Minimizes Corona
Discharge For High Reliability
Power Efficient, “Low
Brightness” Capability Allows
For Advanced Power
Management
IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com
D C V o lt a g e
S o u rc e
P o t e n t io m e t e r
PW M
S ig n a l
1
3
2
2
BRITE
1
3
LXM1622-05-XX
PART NUMBER LAMP CURRENT
LMX1622-05-01
LMX1622-05-02
LMX1622-05-03
Copyright  2000
Rev. 0.5,2001-01-18
6.5mA
5.5mA
5.5mA
LAMP RUN
VOLTAGE
500-750
350-550
350-550
OUTPUT CONNECTOR
INVERTER MATES DIRECTLY
TO PANEL CONNECTORS
JST SM02(8.0)B-BHS-1-TB
JST SM02(8.0)B-BHS-1-TB
Honda QZ-19-A3MYL #02
Microsemi
Linfinity Microelectronics Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
BHR-03VS-1
BHR-03VS-1
QZ-19-3F01
Page 1
A
M I C R O S E M I
RangeMAX
LXM1622-05-xx
DUAL 5W, DIGITAL DIMMING CCFL INVERTER MODULE
C O M P A N Y
P RELIMINARY D ATA S HEET
W W W . Microsemi . COM
Input Supply Voltage (VIN)..................................................................................................................................... -0.3V to 6V
Output Voltage, no load .......................................................................................................... Internally Limited to 1800VRMS
Output Current .......................................................................................................................... 7.5mARMS (Internally Limited)
Output Power (for 2 lamps)..............................................................................................................................................12W
Input Signal Voltage (BRITE, VSYNC Input)................................................................................................. -0.3V to VIN +0.3V
Input Signal Voltage (SLEEP).................................................................................................................... -0.3V to VIN +0.3V
Ambient Operating Temperature, zero airflow ..................................................................................................... 0°C to 70°C
Storage Temperature Range ............................................................................................................................ -40°C to 85°C
Note 1: 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.
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
Recommended Operating Conditions
Min
R.C.
Max
Symbol
VIN Voltage Range
Output Power (-01)
Output Power (-02,-03)
Brightness Control Input Voltage Range
Lamp Operating Voltage (-01)
Lamp Operating Voltage (-02,-03)
Lamp Current Full Brightness (-01)
Lamp Current Full Brightness (-02,-03)
Operating Ambient Temperature Range
VIN
PO
PO
4.75
5.8
3
0.0
500
300
VBRT_ADJ
VLAMP
VLAMP
IOLAMP
IOLAMP
TA
5.0
8
5
5.25
10.8
6
2.5
750
500
625
425
6.5
5.5
0
70
Units
V
W
W
V
VRMS
VRMS
mARMS
mARMS
°C
Unless otherwise specified, these specifications apply over the recommended operating conditions and 25°C ambient temperature for the LMX1622-05-xx.
Parameter
OUTPUT PIN CHARACTERISTICS
Full Bright Lamp Current (-01)
Full Bright Lamp Current (-02,-03)
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
SLEEP INPUT
RUN Mode
OFF Mode
Copyright  2000
Rev. 0.5,2001-01-18
VBRT_ADJ
VBRT_ADJ
VSLEEP
VSLEEP
IISLEEP
VSYNC CHARACTERISTICS
Logic High Level
Logic Low Level
Input Impedance
Input Frequency
Free Run Frequency
VBRT_ADJ = 2.25V
VBRT_ADJ = 2.25V
VBRT_ADJ = 0VDC
VSYNC (HI)
VSYNC (LO)
ZIN
FVSYNC
FBURST
LXM1622-05-xx
Min
Typ Max
5.85
4.95
VBRT_ADJ = 2.25VDC
1350
66
VBRT_ADJ = 0VDC
VBRT_ADJ = 2.5VDC
IO(LAMP) = 100% Duty Cycle
IO(LAMP) = Minimum Duty Cycle
.25
-680
196
2.25
0
VBRT
IBRT
Input Current
IL(MAX)
IL(MAX)
IL(MIN)
VLS
FO
TFAULT
Test Conditions
VIN=4.8V
VIN=5.2V
SLEEP=5.0V
SLEEP=0.0V
1.5
-0.3
400
VIN=4.8V
VIN=5.2V
1.5
0
Output Burst Rate; VSYNC=0V
50
190
6.5
5.5
.25
1500
76
1.6
-710
203
0
425
0
7.15
6.05
1800
86
VDC
µADC
µADC
VDC
VDC
VIN
0.5
450
VDC
VDC
27
Microsemi
Linfinity Microelectronics Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
mARMS
mARMS
mARMS
VRMS
KHz
SEC
2.2
-730
220
2.5
0.5
0.8
250
Units
150
310
µA
VDC
VDC
KΩ
Hz
Hz
Page 2
ELECTRICALS
Symbol
A
M I C R O S E M I
RangeMAX
LXM1622-05-xx
DUAL 5W, DIGITAL DIMMING CCFL INVERTER MODULE
C O M P A N Y
P RELIMINARY D ATA S HEET
Parameter
Symbol
POWER CHARACTERISTICS
Run Current (LXM1622-05-01)
Run Current (LXM1622-05-02,03))
Sleep Current
Test Conditions
VIN=5V,VBRT_ADJ = 2.25V, VLAMP = 625VRMS
VIN=5V,VBRT_ADJ = 2.25V, VLAMP = 425VRMS
VIN = 5V, SLEEP= 0.0V
IRUN
IRUN
ISLEEP
LMX1622-05-xx
Min
Typ Max
Units
2060
1080
0.5
mA
mA
µA
0.0
10
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
Conn.
Pin
W W W . Microsemi . COM
Unless otherwise specified, these specifications apply over the recommended operating conditions and 25°C ambient temperature for the LMX1622-05-xx.
Description
CN1 (Molex 53261-0890)*
CN1-1,2
VIN
Main Input Power Supply (4.75V to 5.25V)
CN1-3,4
GND
Power Supply Return
SLEEP
CN1-5
>1.5V (Backlight on), <0.8V (backlight off), IISLEEP=425uA @ 5.0V, disabled if left open
CN1-6
BRITE
Brightness Control (0.25- 2.2VDC) 2.25VDC gives maximum lamp current
CN1-7
BRITE RTN Signal Ground (0Vdc)
CN1-8
VSYNC
Vertical Synchronization Input (50 < fSYNC > 150Hz), minimum pulse width 10uS
CN2,3 for LMX1622-05-01, 02 (JST SM02(8.0)B-BHS-1-TB)
High Voltage Connection to High Side of Lamp. Connect to lamp terminal with shortest lead
CN2-1
VHI
length. DO NOT connect to Ground.
Connection to Low Side of Lamp. Connect to lamp terminal with longer lead length.
CN2-2
VLO
DO NOT connect to Ground.
CN2,3 for LMX1622-05-03 (Honda QZ-19-AMYL#02)
High Voltage Connection to High Side of Lamp. Connect to lamp terminal with shortest lead
CN2-3
VHI
length. DO NOT connect to Ground.
Connection to Lower Side of Lamp. Connect to lamp terminal with longer lead length.
CN2-1
VLO
DO NOT connect to Ground.
* LX9501 Mating Connector Assembly Available
All dimensions are in inches (mm)
0.078in.
2mm
4.88in.
CN2, CN3
(Connector Type)
124mm
PACKAGE DATA
CN1
1
0.068in.
1.75mm
0.118in.
3mm
1.26in.
32mm
3
0.118in.
3mm
CN2
SM02(8.0)B-BHS-1-TB
(JST)
1
CN3
0.24in.
6mm
Honda QZ-19-AMYL#02
1.50in.
1.89in.
38mm
48mm
0.060in.
1.52mm
CN3
CN2
.229in.
7.6mm
W eight: 24.5 (g) typ.
Copyright  2000
Rev. 0.5,2001-01-18
Microsemi
Linfinity Microelectronics Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 3
A
M I C R O S E M I
RangeMAX
LXM1622-05-xx
DUAL 5W, DIGITAL DIMMING CCFL INVERTER MODULE
C O M P A N Y
P RELIMINARY D ATA S HEET
W W W . Microsemi . COM
LAMP VOLTAGE & LAMP CURRENT – BURST MODE OPERATION
!" # – 5% Burst Duty Cycle
!" – 50% Burst Duty Cycle
Rather than using the traditional dimming technique of
varying lamp current magnitude to adjust light output,
RangeMAX inverters use 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 5% duty cycle, allowing the
lamp to be dimmed to less than 3% of its full brightness.
As can be seen in Trace 4 of Figure 3 photo at right, 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.
H igh Voltage
T ransformer
C omparator
HIGHLIGHTS
V BR IT E
+
LAM P
R amp
0.25 2.2V D C
-
T ransformer
D river
V LO
V HI
LAM P
R amp G en.
V LO
•
Integrated 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.
– RangeMAX Simplified Block Diagram
Copyright  2000
Rev. 0.5,2001-01-18
Microsemi
Linfinity Microelectronics Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 4
DESCRIPTION
V SEN SE
I SEN SE
V SYN C
!" $ – 5% Burst Duty Cycle (Expanded Time Base)
V HI
A
M I C R O S E M I
RangeMAX
LXM1622-05-xx
DUAL 5W, DIGITAL DIMMING CCFL INVERTER MODULE
C O M P A N Y
P RELIMINARY D ATA S HEET
•
In applications with no access to a vertical sync, an onboard
oscillator operates the inverter burst rate at about 270Hz. 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.
•
+5V D C
V IN
BR IT E
V HI
CCFL
TUBE
LXM 1622-05-xx
BR IT E R T N
2.5 SLEEP
5V
0
V S YN C
GND
V LO
V S YN C
F ig ure 5 - Brightness C ontrol
PW M Signal
from System
W W W . Microsemi . COM
HIGHLIGHTS (CONTINUED)
BR IT E
The Brightness control may be a voltage output DAC, or
other voltage source as shown in Figure 5. A 2.5V to 5V
Logic Level PWM signal from a micro-controller may
also be used as shown in Figure 5A.
• 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 2.5V 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 2.5V and 5V.
• Connect VHI to high voltage wire from the lamp. Connect
VLO to the low voltage wire (wire with thinner insulation).
Never connect VLO to circuit ground as this will defeat
lamp current regulation. If both lamp wires have heavy
high voltage insulation, connect the longest wire to VLO.
This wire is typically white.
P.W .
LXM 1622-05-xx
1mS to 200µ S
%&" Also available in single lamp inverters LXM1612-xxxx, 12V dual LXM1622-12-xx and Quad Output
LXM1641-01 versions for multiple lamp applications.
0 < P.W. < 100% of period
F ig u re 5 A - PW M B rightness C ontrol
APPLICATIONS
Copyright  2000
Rev. 0.5,2001-01-18
Microsemi
Linfinity Microelectronics Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 5
A
M I C R O S E M I
RangeMAX
LXM1622-05-xx
DUAL 5W, DIGITAL DIMMING CCFL INVERTER MODULE
C O M P A N Y
P RELIMINARY D ATA S HEET
The LMX1622-05-01 output current can be adjusted
lower by changing the value of one resistor (R18) on
the PCB. The following table shows the new output
current values:
The LMX1622-05-02,03 output current can be adjusted
lower by changing the value of one resistor (R18) on the
PCB. Changing the value of R35 can also increase the
output current. The following table shows the new output
current values:
Add R18
Output Current
Resistor Value
6.5mArms
6.0mArms
5.5mArms
5.0mArms
4.5mArms
4.0mArms
3.5mArms
3.0mArms
Not used
1.0M 5%
422K 1%
267K 1%
178K 1%
121K 1%
88.7K 1%
68.1K 1%
Add R18
Output Current
Resistor Value
5.5mArms
5.0mArms
4.5mArms
4.0mArms
3.5mArms
3.0mArms
Not used
845K 1%,
374K 1%,
232K 1%
127K 1%,
71.5K 1%
W W W . Microsemi . COM
'##()*( +
Change R35
Output Current
Resistor Value
5.5mArms
6.0mArms
6.5mArms
576 1% (stock value)
499 1%
442 1%
input from a high impedance. In this case the internal pullup resistor R44 may be removed from the board. Please
use the drawing below to help locate the specified resistor.
The LMX1622-05-xx comes with a built in 5K pull-up
resistor to allow the use of an external potentiometer
for brightness adjust. In some cases this pull-up
resistor may interfere with those driving the BRITE
C2
CN1
C 30
R 54
C 20
U5
C4
C5
C7
C8
R 16
R 14
C 10
C 11
R 17
C9
RJ5
F1
C6
U4
R 10
R 11
RJ3
R2
R 12
Q1
R3
Q3
R8
R9
C 12
C 13
C 14
R 15
D8
R 51
R 46
R44
R 50
R 49
R 52
R 47
R 48
R 53
D5
R 33
R35
C 24
D3
R 30
R 36
R 37
R 45
RJ1
APPLICATIONS
R7
U2
Q4
R6
R5
D1
Q2
R 22
R 20
R 23
C1
C3
R4
RJ2
R 13
RJ4
R1
T1
U1
RJ6
R 19
C 15
C 16
C 17
R18
Preliminary Data – Information contained in this document is pre-production data and is proprietary to LinFinity. It
may not be modified in any way without the express written consent of LinFinity. Product referred to herein is offered
in sample form only and LinFinity reserves the right to change or discontinue this proposed product at any time.
Copyright  2000
Rev. 0.5,2001-01-18
Microsemi
Linfinity Microelectronics Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 6