MICROSEMI LX1991

LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
KEY FEATURES
DESCRIPTION
1000:1 Dimming Range: The DIG_DIM
input accepts a TTL or CMOS logic signal
that controls duty cycle of the output
currents.
Independent Channels: The six channels
feature independent regulation with respect
to output voltage, so one does not affect the
others. Any one or more outputs can be left
unloaded
without
affecting
current
regulation of the other channels. Multiple
channels can also be connected together to
sink more current in a single load.
EMI Control: Rise and fall time of sink
currents are precisely controlled by placing
a capacitor on the SLOPE_C pin. Special
control circuitry maintains symmetrical rise
and fall times, preserving the LX1991’s
ability to provide accurate output current
response to very narrow input pulses on the
DIG_DIM pin.
Power Handling: The LX1991 is
supplied in a 4x4 MLPQ package capable
of 1.5 watts dissipation. Logic Enable: A
separate input puts the LX1991 to sleep at
less than 1 uA IDD.
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Six precision independent
current sink channels
Simultaneous Analog and
Digital Dimming Modes
Precision programming of
current rise & fall times
1% band gap reference
40 volt rated output stages
3V / 5V logic input compatible
1.5 watt power dissipation
On-chip thermal shutdown
16 Pin 4 x 4 MLPQ Package
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LED Display Driver: This six channel
current sink driver is ideal for controlling
brightness and hue of high quality
dimmable LED displays. High accuracy,
dual mode dimming, and controlled current
switching time provides consistent color
hue, at brightness ratios of up to 1000:1,
and keeps electro magnetic emissions in
check.
Its wide compliance voltage range
combined with 43 volt breakdown capability make the LX1991 ideal for
automotive in-dash displays.
Precision current control: Precision
current mirror circuitry sets all channels to
the same current with a single programming
input. Sinking current value can be programmed up to 30 mA per channel with a
single resistor or potentiometer from ISET+ to
ISET-. Channel to channel matching is typically within ±1 percent of channel mean
at the rated output current.
Dual Mode Dimming: Display dimming
can be achieved by controlling either
current amplitude or duty cycle, and both
methods can be employed at the same time.
BENEFITS
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IMPORTANT: For the most current data, consult MICROSEMI’s website: http://www.microsemi.com
Consistent LED color hue
results from high current
accuracy
1000:1 dimming ratio with
digital dimming
Lowered emissions with
current slope programming
Reduced component count
for compact designs
Drive up to 108 colored
LED’s per IC (6 x 18 @ 2.1
volts)
Drive up to 60 white or blue
LED’s per IC (6 x 10 @ 3.8
volts)
PRODUCT HIGHLIGHT
+36V
5V
LX1991
SLEW CONTROL
Bill of Materials
54 White LED’s
VF ~3.7V
@20mA
1
1
1
54
57
VDD
SINK1
CSLOPE
PWM
SIGNAL
SINK2
DIG_DIM
SINK3
LX1991
ON
ENA
OFF
SINK4
LX1991
Cap
Resistor
White LEDs
Total Count
SINK5
ISET+
1.5K
ISET-
SINK6
GND
LX1991
PACKAGE ORDER INFO
TJ (°C)
MIN VDD
MAX VDD
LQ
Plastic 4x4 MLPQ
16-PIN
RoHS Compliant / Pb-free Transition DC: 0436
-40 to 85
4.5
5.5V
LX1991ILQ
Note: Available in Tape & Reel. Append the letters “TR” to the part number. (i.e. LX1991ILQ-TR)
Copyright © 2001
Rev. 1.0, 5/18/2005
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 1
LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
CSLOPE
NC
ISET+
Supply Voltage (VDD ) ............................................................................... -0.3v to 6V
Analog Output Voltage (SINK1 to SINK6 )............................................... -0.3V to 43V
Analog Inputs (ISET).......................................................................-0.3V to VDD +0.5V
Digital Inputs (ENABLE, DIG_DIM) ...........................................-0.3V to VDD +0.5V
Operating Temperature Range ...................................................................-40°C – 85°C
Storage Temperature Range.....................................................................-65°C – 150°C
Maximum Junction Temperature .......................................................................... 150°C
Peak Package Solder Reflow Temp. (40 seconds max. exposure) ........... 260°C (+0, -5)
ENABLE
PACKAGE PIN OUT
16
15
14
13
DIG _DIM
1
12
NC
VDD
2
11
ISET -
SINK 1
3
10
SINK 6
SINK 2
4
9
7
8
SINK 4
SINK 5
GND
Note: 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.
6
SINK 3
5
GND
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ABSOLUTE MAXIMUM RATINGS
LQ PACKAGE
(Top View)
THERMAL DATA
MSC
1991
xxxx
LQ
Plastic 4x4 MLPQ 16-Pin
THERMAL RESISTANCE-JUNCTION TO AMBIENT, θJC
THERMAL RESISTANCE-JUNCTION TO AMBIENT, θJA
2.2°C/W
36°C/W
Junction Temperature Calculation: TJ = TA + (PD x θJA).
The θJA numbers are guidelines for the thermal performance of the device/ 4 layer pcboard system. All of the above assume no ambient airflow.
The θJA numbers are to MIL-STD-883D Method 1012.1
LQ PACKAGE MARKING
xxxx Denotes Date Code / Lot Code
RoHS / Pb-free 100% Matte Tin Lead Finish
FUNCTIONAL PIN DESCRIPTION
PIN NAME
GND
VDD
SINK1 –
SINK6
DESCRIPTION
Ground
Voltage Input, 4.5 to 5.5V input range. VDD is internally switched (see ENABLE) to remove power from chip.
Current sink channels one through six. Each output sinks the programmed current from the VLED supply to
ground. Compliance voltage is from 1 volt minimum to the VLED supply maximum.
A logic input that duty cycle modulates the output currents. All output currents are turned on at the programmed
current value when DIG_DIM is high and turned off when it is low. Compatible with both 3V and 5V logic.
ENABLE
Chip Enable Input. If logic high, all functions are enabled. If logic low, internal power is disconnected from the
VDD pin, disabling all functions. Logic threshold is 1.6 ± 0.8V maximum over supply and temperature range.
Maximum current into VDD when ENABLE < 0.4V is 1 µA .
ISET+
ISETCSLOPE
Copyright © 2001
Rev. 1.0, 5/18/2005
Current programming resistor pins. Output current in each channel is 24 times the current that flows from ISET+ to
ISET- ISET current is 1.26V / RSET. Connect resistor between ISET+ and ISETCurrent rise and fall time programming capacitor. Rise and fall times increase in direct proportion to capacitor
value. C = 450µA * TR or TF in microseconds, C in picofarads.
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 2
PACKAGE DATA
DIG_DIM
LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
Parameter
LX1991
Typ
Min
Supply Voltage (VDD)
Max
WWW . Microsemi .C OM
RECOMMENDED OPERATING CONDITIONS
Units
4.5
5.5
V
ENABLE Input Voltage
0
VDD
V
DIG_DIM Input Voltage
0
VDD
V
0
1.26
V
40
KΩ
40*
V
CSLOPE Capacitance Range
ISET Voltage
RSET Current Programming Resistor Range
1
SINK1 To SINK6 Output Voltage Range
0.5
3
SINK1 To SINK6 Maximum Output Current
30
mA
*At output voltages greater than 5V total power dissipation when using all six outputs at maximum current will exceed power rating of package and
ambient of 85°C.
SIMPLIFIED BLOCK DIAGRAM
S I N K 1 SINK2
SINK3
VDD
1:1 Current
Mirror
24X
DIG_DIM
24X
24X
Slew Control
GND
+
1.25V
REF
ENABLE
2V
Bias
24X
24X
24X
BLOCK DIAGRAM
0V
ISET-
ISET+
CSLOPE
SINK6
SINK5
SINK4
Figure 1 – Simplified Block Diagram
Copyright © 2001
Rev. 1.0, 5/18/2005
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 3
LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
Parameter
`
Quiescent current
Sleep Current
VDD
IDD ON
Quiescent current
IDD OFF
1
IDD_SLEEP
Input Current
Input Current
4.5
5
5.5
V
10
16
mA
Units
VDD = 5V, ENABLE ≥ 2.4V; DIG_DIM ≤ 0.8V
3.6
6
mA
VDD = 5V, VOUT = 40V, ENABLE ≤ 0.4V
0.08
1
µA
1.6
2.4
V
4.0
0.4
10
1
µA
µA
0.8
VENABLE = VDD
VENABLE = 0V
SINK X 30mA
SINK 30
VDD = 5V, SINKX = 3V, RSET = 1.02KΩ
28.4
30
31.6
mA
SINK X 20mA
SINK X 10mA
SINK 20
VDD = 5V, SINKX = 3V, RSET = 1.54KΩ
19
20
21
mA
SINK 10
VDD = 5V, SINKX = 3V, RSET = 3.09KΩ
VDD = 5V, SINKX = 3V, RSET = 6.19KΩ
VDD = 5V, SINKX = 1V to 5V; RSET = 1.54KΩ
VDD = 5V, SINKX/ISET
ISET = 0µA
RSET = 1.02KΩ; DIG_DIM ≤ 0.8V
SINK X = 10mA
SINK X = 30mA
9
4
10
5
±1
24.5
10
10
200
600
11
6
±2.5
mA
mA
%
100
100
800
1000
µADC
µADC
mV
mV
OUTPUT CURRENT
VISET = Zero Volts; VDD=5V; SINKX = 5V
50
mADC
ENA ≤ 0.4V, VOUT = 40V
1
3
1.6
2.4
µADC
DIG_DIM INPUT
DIG_DIM Logic Threshold
Input Current, low state
DIG_DIM to SINK X Pulse Response
DIG_DIM to SINK X Pulse Response
Minimum SINK X Pulse Width
VTH_DD
IIH DIG_DIM
IIL DIG_DIM
TD(ON)
TD(OFF)
SINK X PWMMIN
0.8
V
VDIG_DINM = VDD
50
µA
VDIG_DIM = 0V
CSLOPE ≤ 20pF
CSLOPE ≤ 20pF
CSLOPE ≤ 20pF, DIG_DIM ≤ 5uS
0.1
340
230
5
µA
nS
nS
µS
CURRENT ON / OFF SLOPE
Current On rise time
TRISE
CSLOPE = 10 nF
15
Current On fall time
Current on / off delay time
TFALL
CSLOPE = 10 nF
15
Tdelay
CSLOPE = 10 nF, TA = 25°C
VRSET
RSET+ = 1.50K to ISET-
22
29
24
29
50
µSec
µSec
µSec
RSET PIN
Voltage at Pin RSET
Pin RSET Max Source Current
1.24
IMAX RSET
1.26
1.28
4.5
V
mA
1
At enable voltages greater than 0.4V but less than 0.8V the outputs will remain off but the sleep current may be greater than 1µA.
SINK X current matching is greatest percentage delta between output currents with respect to the mean, with VSINK X both at 1V
and 5V and RSET = 1.54KΩ.
3
Dropout is defined as the SINKX to GND voltage at which the output current sink drops 10% from the nominal value.
2
Copyright © 2001
Rev. 1.0, 5/18/2005
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 4
ELECTRICALS
`
Max
IIH ENABLE_
IIL ENABLE
Input Current, high state
`
LX1991
Typ
VDD = 5V, ENABLE ≥ 2.4V; DIG_DIM ≥ 2.4V
VTH_EN
SINK X 5mA
SINK 05
2
SINK X Current Matching
SINK X_MATCH
ISET to SINK X Current Ratio
SINK X_RATIO
Output Current ISET = 0µA
SINKSET0
Output Current DIG_DIM ≤ 0.8V
SINKDIG_DIM0
3
VDROPOUT
Dropout Voltage
3
VDROPOUT
Dropout Voltage
Maximum Output Current, ISET Shorted
SINK ISETSC
To Gnd. Each Output
Output Off State Current
SINK X OFF
`
Min
ENABLE INPUT
ENABLE Logic Threshold
`
Test Conditions
POWER
Power Supply Input Voltage
`
Symbol
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ELECTRICAL CHARACTERISTICS
Unless otherwise specified, the following specifications apply over the operating ambient temperature –40°C <TA < 85°C except where otherwise noted
and with the following test conditions: VDD = 4.5 to 5.5 VDC, RSET = 1.54KΩ, SINKX = 3V, DIG_DIM = 2.4V. Typical values are at TA= 25°C
LX1991
TM
®
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
FUNCTIONAL DESCRIPTION
The LX1991 is designed to drive LED’s used in display
illumination and signaling applications such as cellular
telephones, PDA’s automotive dashboard lighting, panel
illumination etc. With a single 5V supply, the six independently
regulated constant current outputs can drive 6 white LED’s (VF <
4.0V), or 12 green or amber LED’s (VF < 2.0V each) arranged as
6 parallel x 2 in series. With a separate high voltage LED supply
(up to 40V) a large matrix of LED’s (>100) can be driven.
The LX1991 features resistor settable output current.
Connecting a resistor between ISET+ and ISET- pins generates a
current that is mirrored into each of the outputs with a gain ratio
of about 24. This ratio remains linear for output currents from 3 to
30mA, at output current less than 3mA the ratio increases
somewhat. Output current can be varied in an analog fashion by
varying RSET resistor, typically this resistor shall be chosen in the
range of 1K to 40K.
Duty cycle dimming with a fixed current amplitude is
accomplished by driving the DIG_DIM input. The switching
frequency can exceed 100 KHz, making it practical to use a PWM
output channel from popular micro controllers. The upper limit on
frequency correlates to the minimum DIG_DIM sink pulse width
which is typically about 5µS.
To use the LX1991 at the maximum usable frequency, or
minimum pulse width the CSLOPE pin must be open. The
CSLOPE pin allows precise control of the sink current rise and
fall time. As the value of the CSLOPE capacitor is increased the
slope of the rise and fall time will change correspondingly along
with some delay to output. Special control circuitry maintains
symmetrical rise and fall times, preserving the LX1991’s ability to
provide accurate output current response to very narrow input
pulses on the DIG_DIM pin.
The ENABLE input is TTL compatible with a turn on threshold
of about 1.6V with about 150mV of hysteresis. Below 0.8V the
chip is disabled and the sink outputs are off. However ENABLE
must be driven below 0.4 volts to insure the minimum sleep
current from VDD and output off current.
Copyright © 2001
Rev. 1.0, 5/18/2005
Package power dissipation can be calculated from the following
equation:
(
) (
n
IOUT
VLOAD
VLED
PD
=
=
=
=
=
PD = n×I OUT × VLOAD -VLED
)
Number of outputs used
Current from each output
Output Supply Voltage
Minimum LED forward voltage
Power Dissipated in mW
Care should be exercised not to exceed the power dissipation of the
package or the maximum junction temperature of the die. Proper
mounting of the package with thermal vias (see PCB Land Guidelines
and Thermal Pad Design section) enhances power dissipation
capability. As an example to drive 24 white LED’s, 4 per channel
from a 18V VLED supply @ 25mA per LED string, we will assume
the minimum LED forward voltage to be 3.5V with an maximum
operating ambient of 50°C.
PD = (6×25mA)×(18V-(4×3.5V)) = 15×4V = 0.6W
This represents a 21.6°C temperature rise (36°C/W *0.6W) for a
die temperature of about 72°C, ignoring device drain current power
dissipation that only represents about a 3°C rise worst case. This is
well under the die junction temperature maximum rating of 150°C,
and within the 85°C electrical specifications.
DIMMING
Dimming can be accomplished both with current amplitude control
(changing the RSET resistor value) with a PWM signal (toggling the
DIG_DIM input) or both. Current between the ISET+ and ISET- pins
may be varied for current amplitude dimming. If a mechanical input
is needed, a rheostat in series with a resistor connected from ISET+ to
ISET- can be used.:
I OUT =Current Ratio×ISET
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 5
APPLICATIONS
All inputs and outputs are ESD and short circuit protected
making the LX1991 an exceptionally robust component. The
device also includes thermal shutdown however it is not
recommended to short the ISET+ and ISET- inputs together while
shorting the outputs to 40V as the power dissipation under these
conditions is the greatest.
APPLICATION NOTES
POWER CONSIDERATIONS
Each output has an independent current sink, however each must be
held above about 600-800mV (typically) to perform properly and
maintain the specified current regulation accuracy. The device is
designed however to allow one or more of the outputs to be unused
(open) without affecting the other channels Or conversely if more
than 30mA is needed the outputs can be combined for higher total
currents.
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THEORY OF OPERATION / APPLICATION NOTE
LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
R SET(KΩ) = 24.5
25 × 1.26 = 1.23KΩ
Once the maximum sink current is set the rheostat will increase
the RSET value thus dimming the LED by reducing the sinking
current.
Wide range dimming can be accomplished by using the
DIG_DIM input pin to pulse the output sink current. The
DIG_DIM pin may be driven with a TTL compatible logic PWM
signal to dim the LED’s. The recommended PWM frequency for
dimming is between 100 Hz and 100 KHz. Below 100 Hz flicker
may be observed. Above 100 KHz duty cycle accuracy and
minimum pulse width is reduced due to delay times and the
current slew rate. To obtain the maximum dim range and still
make use of the slope control function ( see CSLOPE pin below)
it is advisable to use a lower frequency on the DIG_DIM input.
If PWM dimming is used, use of separate power and ground
lines directly from the power source point will help to prevent
noise generated from the LED current transients from entering
video or audio subsystems on the same supply rails. Additional
power supply filtering may be needed in PWM dimming
applications. Care should be exercised in the PCB layout to
prevent coupling from the SINK outputs to the DIG_DIM pin.
Copyright © 2001
Rev. 1.0, 5/18/2005
20
15
10
5
0
0
2
4
6
8
10
CSLOPE Capacitor (nF)
DRAIN CURRENT
The chart below illustrates the correlation between the IC’s drain
current and the total sink output current. The drain current will also
increase slightly if one or more the SINKx pins are left floating or
when the SINK outputs are near dropout, however in both of these
circumstances the increased drain current will be small and controlled
and is a feature of the design.
LX1991 Typical Drain Current Vs
Sink Current
200
150
100
50
0
4
6
8
10
12
14
APPLICATIONS
CSLOPE PIN
The CSLOPE pin is available to control the rise and fall times of
the SINK outputs during pulse dimming. With the CSLOPE pin
open a minimum rise and fall time of about 120 to 200nS will be
present on the output waveforms along with a delay time
(DIG_DIM to SINKx) of about 200nS. As the CSLOPE capacitor
is increases in value so will the corresponding rise and fall times
and delay to output. The calculation for the CSLOPE value is
approximately 450µA * TR or TF in microseconds, C in
picofarads. So for a 5uS rise and fall time 0.00045 * 5 = 2250pF
or about a typical .0022uF capacitor value. For typical slope rise
and fall times see the follow chart
25
Sink Rise/Fall Time (uS)
R SET(KΩ) = Current ratio Output current(mA) × VR SET
Typical CSLOPE vs Slope Times
Total I SINK Current (mA)
The range of the RSET resistor can vary between 1K and 40K
Ohms. The resistor in series with the rheostat will set the
maximum current and should be a least 1KΩ in value. If a fixed
sink current is desired its easy to find the RSET resistor value. As
an example, suppose the desired output current is 25mA per sink
channel. The RSET resistor can be calculated as follows:
WWW . Microsemi .C OM
APPLICATION NOTE – CONTINUED
Typical Drain Current (mA)
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 6
LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
ISINK VS VDD AND TEMPERATURE
ISINK VS VDD AND TEMPERATURE
20.5
30.4
20.4
20.3
VDD=5.5V
30.2
30.1
I OUT Current (mA)
IOUT Current (mA)
30.3
VDD=5V
30
29.9
VDD=4.5V
29.8
29.7
VDD=5.5V
20.2
VDD=5V
20.1
20
VDDx=4.5V
19.9
19.8
19.7
29.6
19.6
29.5
-45
-25
-5
15
35
55
19.5
-45
75
-25
-5
Tem p (°C)
15
35
55
75
Temp (°C)
VDD = 5V, RSET = 1.54KΩ
SINKX = 3V; RSET = 1.02KΩ
ISINK VS VSINK AND TEMPERATURE
DROPOUT VS TEMPERATURE
20.4
800
20.3
700
SINKx=5V
20.2
I OUT Current (mA)
I OUT Current (mA)
WWW . Microsemi .C OM
30.5
SINKx=3V
20.1
20
SINKx=1V
19.9
ISINK=30MA
600
500
400
300
19.8
200
19.7
-45
100
-45
ISINK=10MA
-25
-5
15
35
55
75
Temp (°C)
-25
-5
15
35
55
75
Temp (°C)
Load = 10kΩ and 1µF
Photo Step = Direct Light Input of 14.6µW/cm2
CSLOPE = 2500PF RESPONSE
CSLOPE = 470PF RESPONSE
VDD=5V ,CSLOPE = 2500pF, Chan 1 = 20Khz DIG_DIM
Channel 2 = SINKX = 10mA/DIV, Load = single white LED
VDD=5V, CSLOPE = 470pF, Chan 1 = 100Khz DIG_DIM
Channel 2 = SINKX = 10mA/DIV, Load = single white LED per channel
CHARTS
VDD = 5V, RSET = 1.54KΩ
Copyright © 2001
Rev. 1.0, 5/18/2005
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 7
LX1991
®
TM
Six Output Programmable LED Current Sink
P RODUCTION D ATA S HEET
LQ
16-Pin MLPQ Plastic (4x4mm EP)
D
b
Dim
E2
A
A1
A3
b
D
E
e
D2
E2
K
L
L
D2
E
e
A
A1
K
MILLIMETERS
MIN
MAX
0.80
1.00
0
0.05
0.18
0.30
0.23
0.38
4.00 BSC
4.00 BSC
0.65 BSC
2.55
2.80
2.55
2.80
0.20
0.30
0.50
INCHES
MIN
MAX
0.031 0.039
0
0.002
0.007 0.012
0.009 0.015
0.157 BSC
0.157 BSC
0.026 BSC
0.100 0.110
0.100 0.110
0.008
0.012 0.020
Note:
A3
LQ
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MECHANICAL DRAWING
1. 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.
16-Pin PCB Land Guidelines and Thermal Pad Design
1 - 1.2mm
0.05mm minimum
0.5mm
0.15mm
minimum gap
0.15mm minimum
2.50mm
Maximum
0.37mm Nominal
Package Pad
PCB Land
Top View
Copyright © 2001
Rev. 1.0, 5/18/2005
0.28mm
Pin 1 Indicator
(bottom of Package)
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 8
MECHANICALS
Thermal Via
0.3mm Dia.
The typical land pattern shown includes thermal vias in the
exposed die attach pad for improved thermal performance.
Vias should be about 0.3mm in diameter, with the via
plated to about 1.0 ounce copper. Vias should be plugged
to prevent voids being formed due to capillary action. This
can be avoided by tenting the via during the solder mask
process. In addition, to reduce solder paste volume on the
thermal land, it is recommended that an array of small
apertures in the solder mask be used instead of one large
aperture, with the goal of 50 – 80% solder paste coverage.
Please review IPC / EIA J-Std-001C Section 9.2.6.4
“Bottom Only Termination” for solder joint requirements.
LX1991
TM
®
Six Output Programmable LED Current Sink
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 © 2001
Rev. 1.0, 5/18/2005
Microsemi
Integrated Products
11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570
Page 9