MICROSEMI LXMG1621-03

RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
KEY FEATURES
DESCRIPTION
Incorporation of a video synchronization feature allows wide ratio
dimming without the display disturbances
and interference seen with competitive
products.
The modules are equipped with a
dimming input that permits brightness
control from an external potentiometer or
DC voltage source. 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).
The module design is based on a new
Direct Drive topology, which provides a
number of cost and performance
advantages.
Microsemi’s multiple lamp inverters
include a built in connector array for the
most common LCD lamp configurations.
Other benefits of this new topology are
fixed-frequency operation and secondaryside strike-voltage regulation.
The LXMG1621 is fully customizable
(electronically and mechanically) to
specific customer requirements.
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
ƒ
ƒ
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RangeMAX Wide Range Dimming
8V to 16V Input Voltage Range
Small Form Factor
Easy To Use Brightness Control
MicroAmp SLEEP Mode
Output Short-Circuit Protection
And Automatic Strike-Voltage
Regulation
Fixed Frequency Operation
Universal Connector
Configuration
RoHS Compliant
UL 60950 E17590
WWW . Microsemi .C OM
The LXMG1621 Direct Drive™ CCFL
(Cold Cathode Fluorescent Lamp)
Inverter Modules are specifically
designed for driving two lamp LCD
backlight displays.
Similar to the LXMG1620, the
LXMG1621 excels in applications where
critical parameters include very wide
range dimmability, high efficiency, and
reliable fail-safe design in a small form
factor.
These 12 volt modules are
specifically designed with desktop and
industrial applications in mind.
Unlike the LXMG1620 or any
traditional dimming CCFL inverters, the
LXMG1621 provides the designer a
vastly superior display brightness range.
100:1+ brightness range is achievable
with a standard LCD display (see Product
Highlight). Our wide range dimming
provides exceptional display readability at
less than 1% of full brightness, allowing
both power savings and low ambient light
operating capability(i.e. “night readable”).
Digital dimming provides flicker-free
brightness control in any wide-range
dimming application.
ƒ
ƒ
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ƒ
ƒ
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APPLICATIONS
ƒ Hi-Brite Displays
ƒ Desktop Displays
ƒ Low Ambient Light Conditions
(i.e. Aircraft Cabins, Automobile)
ƒ Industrial Applications
BENEFITS
ƒ High Efficiency Reduces Heating
Problems
ƒ Smooth, Flicker Free 0-100% FullRange Brightness Control Gives
Your Product A High Quality
Image
ƒ Output Open Circuit Voltage
Regulation Minimizes Corona
Discharge For Long Life And High
Reliability
ƒ Power Efficient, “Low Brightness”
Capability Allows For Advanced
Power Management
PRODUCT HIGHLIGHT
DC Voltage
Source
Potentiometer
BRITE
LXMG1621-XX
W
3
1
2
2
1
3
W
UNIVERSAL DIMMING INPUT
VDC OR POTENTIOMETER
MODULE ORDER INFO
LAMP
LAMP RUN VOLTAGE (RMS)
PART NUMBER
CURRENT
LXMG1621-01
LXMG1621-02
LXMG1621-03
LXMG1621-04
Copyright © 2005
Rev. 1.0a, 2006-11-13
7mA
6mA
6.5mA
5mA
500-750
350-550
350-550
470-640
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 1
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
WWW . Microsemi .C OM
ABSOLUTE MAXIMUM RATINGS (NOTE 1)
Input Supply Voltage (VIN)................................................................................................................................-0.3V to 18V
Output Voltage, no load....................................................................................................... Internally Limited to 1800VRMS
Output Current ........................................................................................................................10mARMS (Internally Limited)
Output Power (per lamp) .................................................................................................................................................. 6W
Input Signal Voltage (BRITE Input).................................................................................................................-0.3V to 6.5V
Input Signal Voltage ( SLEEP , VSYNC)............................................................................................................... -0.3V to VIN
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
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
Recommended Operating Conditions
Min
R.C.
Max
Symbol
Input Supply Voltage Range (Functional)
Input Supply Voltage (Fully Regulated Lamp Current)
Output Power (Per Lamp)
LXMG1621-01
LXMG1621-02 / 03
LXMG1621-04
Brightness Control Input Voltage Range
Lamp Operating Voltage
LXMG1621-01
LXMG1621-02 / 03
LXMG1621-04
Lamp Current
LXMG1621-01
(Full Brightness – Per Lamp) LXMG1621-02
LXMG1621-03
LXMG1621-04
Operating Ambient Temperature Range
VIN
8
10.2
PO
VBRT_ADJ
0.0
500
350
470
VLAMP
IOLAMP
TA
12
12
4
2.5
2.75
Units
16
13.8
5
3
3.5
2.5
750
500
640
625
425
550
7.0
6.0
6.5
5.0
0
V
V
W
W
W
V
VRMS
VRMS
VRMS
mARMS
mARMS
mARMS
MARMS
°C
70
ELECTRICAL CHARACTERISTICS
Unless otherwise specified, these specifications apply over the recommended operating conditions and 25°C ambient temperature for the LXMG1621-xx.
Parameter
`
Symbol
LXMG1621-xx
Min
Typ Max
Test Conditions
Units
OUTPUT PIN CHARACTERISTICS
Full Brightness Current
LXMG1621-01
IL(MAX)
LXMG1621-03
LXMG1621-04
Minimum Lamp Current (Per Lamp)
(Notes 2 & 3)
Lamp Start Voltage
Operating Frequency
Copyright © 2005
Rev. 1.0a, 2006-11-13
IL(MIN)
VLS
fO
6.3
7.0
7.7
mARMS
5.5
6.0
6.5
mARMS
5.7
6.5
7.1
mARMS
4.5
5.0
5.5
mARMS
0.14
mARMS
0.035
mARMS
1500
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
52
57
1800
VRMS
62
kHz
Page 2
ELECTRICALS
LXMG1621-02
VBRT_ADJ = 2.5VDC, SLEEP = HIGH,
Burst Duty = 100%, VIN = 12VDC
VBRT_ADJ = 2.5VDC, SLEEP = HIGH,
Burst Duty = 100%, VIN = 12VDC
VBRT_ADJ = 2.5VDC, SLEEP = HIGH,
Burst Duty = 100%, VIN = 12VDC
VBRT_ADJ = 2.5VDC, SLEEP = HIGH,
Burst Duty = 100%, VIN = 12VDC
VBRT_ADJ = 0VDC, SLEEP = HIGH,
Burst Duty = 2%, VIN = 9VDC
VBRT_ADJ = -50mVDC, SLEEP= HIGH,
Burst Duty =0.5%, VIN = 9VDC
0°C < TA < 40°C, VIN > 10.8VDC
VBRT_ADJ = 2.5VDC, SLEEP= HIGH,
VIN = 12VDC
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
ELECTRICAL CHARACTERISTICS (CONTINUED)
Parameter
`
`
`
Test Conditions
BRITE INPUT
Input Current
IBRT
VBRT_ADJ = 0V
Input Voltage For Max. Lamp Current
VC
IO(LAMP) = 100% Duty Cycle
Input Voltage For Min. Lamp Current
(Note 3)
VC
LXMG1621-xx
Min
Typ Max
-6
IO(LAMP) = 2% Duty Cycle
IO(LAMP) = 0.5% Duty Cycle
Units
-8
-10
µADC
2.5
2.6
VDC
0
0
-50
VDC
mVDC
SLEEP INPUT
RUN Mode
VSLEEP(HI)
2.2
VIN
VDC
SLEEP Mode
VSLEEP(LO)
-0.3
0.8
VDC
Input Current
ISLEEP
100
µADC
6.5
VDC
1.0
VDC
75
KΩ
SLEEP = 5.0V
70
75
VSYNC CHARACTERISTICS
Logic High Level
VSYNC(HI)
4.0
Logic Low Level
VSYNC(LO)
-0.3
Input Impedance
ZIN
60
Pulse Width (Note 4)
tPW
25
250
µs
fSYNC
49
150
Hz
50
µADC
Input Frequency
`
Symbol
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Unless otherwise specified, these specifications apply over the recommended operating conditions and 25°C ambient temperature for the LXMG1621-xx.
66
POWER CHARACTERISTICS
Sleep Current
IIN(MIN)
VIN = 12VDC, SLEEP < 0.8V
5
Note 2: Minimum lamp current required to maintain even light output may vary with display panel.
Note 3: See 200:1 Dimming Application section for details.
Note 4: The module will be functional with pulse widths much larger than 250µs.
FUNCTIONAL PIN DESCRIPTION
Conn.
Pin
Description
CN1
CN1-1
VIN
Input Power Supply (8V < VIN < 16V)
CN1-2
CN1-3
GND
Power Supply Return
CN1-4
SLEEP
ON / OFF Control. (2.2V < SLEEP < VIN = ON, -0.3V < SLEEP < 0.8V = OFF)
CN1-6
BRITE
Brightness Control (-0.3V to 2.5VDC). 2.5VDC gives maximum lamp current.
CN1-7, 8
VSYNC
Vertical synchronization input 49Hz < fSYNC < 150Hz
ELECTRICALS
CN1-5
CN2 thru CN5: Refer to Connection Schematic Section
Copyright © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 3
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
WWW . Microsemi .C OM
PHYSICAL DIMENSIONS
LXMG1621-01 / 02 / 03
124mm
W
4.88 in
CN1
CN2, CN3
32mm
6mm
W
1.26 in.
0.24 in
W
38mm
48mm
1.50 in
1.89 in
Backside
Connectors
∅3.0mm ±0.08 (0.12in)
Grounded Mounting Hole - 2plcs
Warning
High Voltage Present at
all Output Connectors
1.52mm
0.60 in
CN4
W
CN5
CN2
PCB tolerances ±0.5mm
CN3
Weight: 23 (g) typ.
LXMG1621-04
124mm
W
4.88 in
CN1
CN2, CN3
32mm
6mm
1.26 in.
0.24 in
W
48mm
1.50 in
1.89 in
∅3.0mm ±0.08 (0.12in)
Grounded Mounting Hole - 2plcs
Warning
High Voltage Present at
all Output Connectors
1.52mm
0.60 in
CN2
PCB tolerances ±0.5mm
CN3
Weight: 23 (g) typ.
All dimensions are in millimeters (inches for reference only)
Copyright © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 4
MECHANICALS
38mm
Backside
Connectors
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
WWW . Microsemi .C OM
TYPICAL CONNECTION CONFIGURATIONS
LXMG1621-01 / 02 /03
CN5
CN1
CCFL Lamps
LXMG1621-01 / 02 /03
CN1
CN5
CN4
CN4
CCFL Lamps
Desktop Display
Desktop Display
CN1
LXMG1621-01 / 02 /03
CN1
CN5
CCFL Lamps
LXMG1621-01 / 02 /03
CN5
CN4
CN4
CCFL Lamps
Desktop Display
Desktop Display
CN5
CN1
LXMG1621-01 / 02 /03
CN1
CN5
CN4
CCFL Lamps
Desktop Display
Desktop Display
* Connectors CN2 and CN3 are on the bottom side of the inverter. View shown is looking through the board
Figure 1 – Connectivity Configuration Examples
These examples illustrate six typical LCD wiring configurations that are accommodated by Microsemi’s unique connector array.
Microsemi inverters have multiple lamp connector styles that are common to the industry, which are duplicated at both ends of the
module. This permits over 14 variations of module mounting and interconnectivity configuration.
Copyright © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 5
APPLICATIONS
CN4
LXMG1621-01 / 02 /03
CCFL Lamps
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
WWW . Microsemi .C OM
CONNECTION SCHEMATIC
CN1
N.C
.
VHI1
1
2
3
N.C
.
VHI2
Inverter
Output 2
W
W
CN4
4
3
2
1
Inverter
Output 1
CN2
1 W
2
3
4
CN3
3
2
1W
CN5
Figure 2a – LXMG1621-01 / 02 / 03 Connection Schematic
CN1
CN2
3
2
1
VHI2
CN3
Inverter
Output 2
Inverter
Output 1
VHI1
1W
2
3
W
Figure 2b – LXMG1621-04 Connection Schematic
Connectors:
Mates With
CN1
Molex 53261-0871
*Loose(-8000, Chain) Recommended #26 AwG wiring
Pins: 50079-8100*, Housing: 51021-0800
Connection for LXMG1621-01 / 02 / 03
JST BHR-04VS-1
JST BHR-03VS-1
APPLICATIONS
CN2, CN3
JST SM04(4.0)B-BHS-1-TB(LF)(SN)
or Yeon Ho 20015WR-07A00
CN4, CN5
JST SM03(4.0)B-BHS-1-TB(LF)(SN)
or Yeon Ho 20015WR-05A01
Connection for LXMG1621-04
CN2, CN3
JST SM03(4.0)B-BHS-1-TB(LF)(SN)
or Yeon Ho 20015WR-05A01
JST BHR-03VS-1
Connection Rules
1. Always install two (2) lamps. Operating with only one lamp may overdrive lamp current at maximum brightness settings.
2. Verify lamp wiring before connecting lamps to the inverter module. Connecting both lamps to one of the two inverter output
circuits will result in reduced brightness. The LXMG1621-01 / 02 / 03 module connectors are wired per industry standard. The
lamp hot wires (high voltage wires) are always on pin 1 and / or 2, and the cold wire (low voltage wire) is always on pin 3 or 4.
3. The LXMG1621-04 uses the reverse pinout found in some panels. The lamp hot wires (high voltage wires) are on pins 2 and 3
and the cold (low voltage wire) is on pin 1.
Copyright © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 6
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
WWW . Microsemi .C OM
HOW THE RANGEMAX WORKS
LAMP VOLTAGE & LAMP CURRENT – BURST MODE OPERATION
Figure 3 – 50% Burst Duty Cycle
Figure 4 – 2% 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 2% duty cycle, allowing the
lamp to be dimmed to less than 1% of its full brightness.
As can be seen in Trace 3 of Figure 5 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.
Figure 5 – 2% Burst Duty Cycle (Expanded Time Base)
Comparator
0.25 2.2VDC
Ramp
HIGHLIGHTS
•
+
LAMP
VBRITE
VHI
High Voltage
Transformer
-
Ramp Gen.
Transformer
Driver
VLO
VHI
LAMP
ISENSE
VLO
Figure 6 – RangeMAX Simplified Block Diagram
Copyright © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 7
DESCRIPTION
VSENSE
VSYNC
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.
• An on-board oscillator operates the inverter BURST rate
about 95Hz, well beyond standard 50/60Hz video refresh
rates where the eye can perceive pulsing light.
• 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.
RangeMAX™
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
®
TM
LXMG1621-xx
P RODUCTION D ATA S HEET
HIGHLIGHTS (CONTINUED)
•
In applications with no access to a vertical sync, the
inverter burst frequency can be allowed to “free run” at
95Hz. In this non-synchronous mode, minor display
disturbances may be found under certain video conditions.
This performance is 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.
TYPICAL APPLICATION
•
12V
2.5VDC
< 10k
BRITE
VHI2
VHI1
VIN
LXMG1621-xx
0
5V SLEEP
VSYNC
GND
VLO
VSYNC
Figure 7- Brightness Control
PWM Signal 4.99k
from System
4.99k*
4.7µF
P.W.
BRITE
LXMG1621xx
< 100µs
WWW . Microsemi .C OM
HOW THE RANGEMAX WORKS (CONTINUED)
The brightness control may be a simple 10k potentiometer
or a voltage output DAC. A PWM signal from a microcontroller may also be used with a suitable filter such as
shown in figure 8.
• If synchronization to the video frame rate is desired,
connect the vertical sync pulse from the system video
controller to the appropriate VSYNC input. If no video
synchronization is desired, connect VSYNC to ground.
• If you need to turn the inverter ON/OFF remotely, connect
a 3V or 5V logic signal to the SLEEP input. If remote
ON/OFF is not needed, connect the SLEEP input to VIN or
any other voltage greater than 2.2VDC.
• Connect VHI to high voltage wire from the lamp. Connect
VLO to the low voltage wire (wire with thinner insulation).
If both lamp wires have heavy high voltage insulation,
connect the longest wire to VLO. VLO is connected directly
to ground (GND pin) on the inverter PCB. Always insure
a good lamp return by using a wire. Do not rely on a
chassis ground connection.
RangeMAX INVERTERS
0 < P.W. < 100% of period
Also available in single lamp inverters are the
LXMG1612-12-xx or LXMG1615-xx-xx, as well as the
12V dual lamp LXMG1623-xx-xx, LXMG1622-12-xx,
and the Quad output LXMG1643-12-6x versions for
multiple lamp applications.
* use 4.99k for 5V PWM amplitude, 15k for 3.3V PWM
amplitude, and omit for 2.5V PWM amplitute.
Figure 8 - PWM Brightness Control
APPLICATIONS
Copyright © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 8
RangeMAX™
®
TM
LXMG1621-xx
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
P RODUCTION D ATA S HEET
Wide ratio (250:1) dimming can be accomplished using the
Microsemi inverter in two ways:
7
IOLAMP(mA)
The following application defines techniques capable of
delivering dimming ranges in the 250:1 range. As is widely
understood, these techniques will provide general capabilities
and actual system performance will vary with panel design,
CCFTs, ambient temperature and a number of other variables
outside the control of the inverter. These methods can be used
in conjunction with other techniques such as lamp heating and
matching.
WWW . Microsemi .C OM
WIDER DIMMING APPLICATION
0.7
.14
.070
-100mV
0V
2.5V
R50
R56
R55
R52
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 9
APPLICATIONS
Copyright © 2005
Rev. 1.0a, 2006-11-13
C39
R49
R22
C35
R59
R58
C33
C32
C30
CN2
1. By varying the input voltage on the brightness pin as
VBRT_ADJ(V)
indicated in Figure 9. Caution must be exercised when
applying negative voltage to the brightness control input. Figure 9 – Average Lamp Current vs. VBRITE Voltage (per Lamp)
Applying more then –300mV to any inverter input will cause
inverter malfunction (see Absolute Maximum Ratings).
2. By making a resistor value change on the module.
Remove R61 for maximum dimming range or increase R61
value to desired minimum dim range setting (see figure 10).
Care should be exercised since at a low enough dim setting the
inverter will be unable to detect that the lamp has started and
will initiate lamp strike (kickoff) voltage. This will result in
Backside of Module
lamp flicker. For repeatable low light levels the BRITE input
DC supply must be a very clean stable voltage source, at low
dim inputs.
R63
R51
R60
If you plan to completely remove R61 it is recommended that
R62
you ensure that a minimum voltage above zero remain on the
R61 R31
BRITE input to prevent the above flicker problem. This
U9
U7
Q10
minimum voltage may need to be adjusted for each individual
inverter module. If you are using a pot to control the BRITE
R57
R54
R53
input then a separate trim pot on the low side would accomplish
Q11
T1
R48
the same goal.
R89
C37
Both methods discussed will provide a lower duty cycle
operation than is necessary in a 100:1 dimming application.
Figure 10 – Locating The Resistor on the LXMG1621-xx
Careful consideration should be made with regard to display
quality at these dimming levels. At very low brightness levels,
even very small amounts of noise on the VBRITE line can cause
flicker on the display, so special care must be given to
grounding, filtering, and shielding the inverter from the digital
logic and clock signals.
RangeMAX™
TM
®
LXMG1621-xx
DIGITAL DIMMING DUAL LAMP CCFL INVERTER MODULE
P RODUCTION D ATA S HEET
WWW . Microsemi .C OM
NOTES
NOTES
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 © 2005
Rev. 1.0a, 2006-11-13
Microsemi
Integrated Products Division
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 10