ISD2310 [INFINEON]
LED Display, 4-Character, 5mm;型号: | ISD2310 |
厂家: | Infineon |
描述: | LED Display, 4-Character, 5mm |
文件: | 总10页 (文件大小:484K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
RED ISD2010/2310
YELLOW ISD2011/2311/2351
HIGH EFFICIENCY RED ISD2012/2312/2352
HIGH EFFICIENCY GREEN ISD2013/2313/2353
4-Character 5 x 7 Dot Matrix
Serial Input Alphanumeric Industrial Display
Sunlight Viewable: ISD235X
ISD201X
ISD231X
ISD235X
FEATURES
DESCRIPTION
• Four Dot Matrix Characters
• Character Height
ISD201X—0.150"
The ISD201X/231X/235X are four digit 5 x 7 dot matrix serial
input alphanumeric displays. The displays are available in red,
yellow, high efficiency red, or high efficiency green. The pack-
age is a standard twelve-pin hermetic DIP with glass lens. The
display can be stacked horizontally or vertically to form mes-
sages of any length.
ISD231X/235X—0.200"
• ISD201X/231X, Four Colors: Red, Yellow,
High Efficiency Red, High Efficiency Green
• ISD235X, Three Colors: Yellow, High
Efficiency Red, High Efficiency Green
• Wide Viewing Angle
• Built-in CMOS Shift Registers with Constant Current
LED Row Drivers
• Shift Registers Allow Custom Fonts
• Easily Cascaded for Multiple Displays
• TTL Compatible
• End Stackable
• Operating Temperature Range:
–55°C to +100°C
• Categorized for Luminous Intensity
• Ceramic Package, Hermetically Sealed Flat Glass
Window
These displays have two fourteen-bit CMOS shift registers
with built-in row drivers. These shift registers drive twenty-
eight rows and enable the design of customized fonts. Cascad-
ing multiple displays is possible because of the Data In and
Data Out pins. Data In and Out are easily input with the clock
signal and displayed in parallel on the row drivers. Data Out
represents the output of the 7th bit of digit number four shift
register. The shift register is level triggered. The like columns
of each character in a display cluster are tied to a single pin
(see Block Diagram). High true data in the shift register enables
the output current mirror driver stage associated with each row
of LEDs in the 5 x 7 diode array.
The TTL compatible V input may either be tied to V for max-
B
CC
imum display intensity or pulse width modulated to achieve
intensity control and reduce power consumption.
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
1
March 23, 2000-17
DESCRIPTION (continued)
Dimensions in Inches (mm)
ISD201X
In the normal mode of operation, input data for digit four, col-
umn one is loaded into the seven on-board shift register
locations one through seven. Column one data for digits 3, 2,
and 1 is shifted into the display shift register locations. Then
column one input is enabled for an appropriate period of
time, T. A similar process is repeated for columns 2, 3, 4,
and 5. If the decode time and load data time into the shift
register is t, then with five columns, each column of the dis-
play is operating at a duty factor of:
.083
.699 (17.7)
max.
(2.11)
.290
(7.25)
.146 .310
(3.7)
(7.87)
Pin 1
.175 (4.44)
±.005 (.13)
marked by
dot on back
of package
.050 (1.27)
±.005 (.13)
.100
(2.54)
.200
(5.08)
T
DF = ---------------------
5 (T + 1 )
.270
T+t, allotted to each display column, is generally chosen to
provide the maximum duty factor consistent with the mini-
mum refresh rate necessary to achieve a flicker free display.
For most strobed display systems, each column of the display
should be refreshed (turned on) at a minimum rate of 100
times per second.
.010(.25)
±.002(.05)
typ.
Seating
Plane
(6.85)
.050 (1.27)
.100 (2.54) typ.
±.005 (.13)
10 pl., non-cum.
12 pl.
.300
.020 (.54)
.003 (.08)
(7.62)
±
Pin 1
Indicator
Hue Code
I S D 2 0 1 X
Year
Work
Week
Luminous
With columns to be addressed, this refresh rate then gives a
value for the time T+t of: 1⁄ [5 x (100)]=2.0 msec. If the
device is operated at 5.0 MHz clock rate maximum, it is possi-
ble to maintain t<T. For short display strings, the duty factor
will then approach 20%.
Intensity Code
OSRAM
Part Number
ISD231X/235X
See Appnote 44 for application information and Appnotes 18,
19, 22, 23 at www.infineon.com/opto.
.790 (20.07)
max.
.112
(2.84)
.010 (.25)
±.002 (.05)
12 11 10 9
8
7
.099(2.51)
±.005(.13)
Maximum Ratings
.332
(8.43)
Supply Voltage V to GND...............................–0.5 V to +7.0 V
CC
Inputs, Data Out and V .............................–0.5 V to V +0.5 V
B
CC
.250 (6.35)
Column Input Voltage, V
.............................–0.5 V to +6.0 V
1
2
3
4
5
6
.192
COL
.197 (5.00)
±
.010 (.25)
(4.88)
Operating Temperature Range ....................... –55°C to +100°C
Storage Temperature Range ........................... –65°C to +125°C
Maximum Solder Temperature, 0.063" (1.59 mm)
±
.005 (.13)
C
L
.100
(2.54)
below Seating Plane, t<5.0 s........................................ 260°C
.270
(2)
.200
(6.86)
Maximum Allowable Power Dissipation, T =25°C
A
(5.08)
.050
ISD2010 .......................................................................0.91 W
ISD2011/2/3 .................................................................0.86 W
ISD231X.........................................................................1.1 W
ISD235X.......................................................................1.35 W
.100 (2.54)
(1.27)
12 pl.
±.005 (.13)
.020 (.51)
±.003 (.08)
non-cum. 10 pl.
Pin 1 indicators
dot and notch on
package underside
Hue Code
Luminous
Intensity Code
Notes:
I S D 2 3 1 X
Year
1)
Operation above +100°C ambient is possible if the following
Work Week
conditions are met. The junction should not exceed T =125°C
J
and the case temperature (as measured at pin 1 or the back of
Part No. OSRAM
the display) should not exceed TC=100°C.
Pin Function
Pin Function
2)
Maximum allowable dissipation is derived from V =5.25 V,
CC
1
2
3
4
5
6
Column 1
Column 2
Column 3
Column 4
Column 5
7
8
9
Data Out
V =2.4 V, V
=3.5 V 20 LEDs on per character, 20% DF.
B
COL
V
B
CC
V
10 Clock
11 Ground
No connection 12 Data In
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
ISD201X/231X/235X
March 23, 2000-17
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
2
Figure 1. Timing Characteristics
Figure 2. Maximum Allowable Power Dissipation
vs. Temperature, ISD201X
l/fCLOCK
1.0
TTHL
TWH
TWL
0.8
VIH
VIL
VIH
VIL
2.0 V
0.8 V
CLOCK
Rth(JA) = 35°C/W
0.6
THOLD
TSETUP
Rth(JA) = 55°C/W
0.4
2.0 V
0.8 V
DATA IN
TPLH, TPHL
0.2
VOH
VOL
Tj(MAX)
=
125°C
20
DATA OUT
2.4 V
0.4 V
0.0
-60 -40 -20
0
40 60
80 100 120
Ta - Ambient Temperature - °C
VIH
VIL
2.0 V
0.8 V
VB
TON
TOFF
Figure 3. Maximum Allowable Power Dissipation
vs. Temperature, ISD231X
ON (illuminated)
90%
10%
DISPLAY
1.2
OFF (not illuminated)
1.0
AC Electrical Characteristics
(V =4.75 to 5.25 V, T =–55°C to 100°C)
0.8
CC
A
Rth(JA) = 35°C/W
(1)
Symbol Description
Min. Typ. Max.
Units Fig.
0.6
Rth(JA) = 55°C/W
T
T
T
T
F
Setup Time
Hold Time
50
25
10
20
45
45
—
—
—
—
—
5
ns
1
1
1
1
1
1
SETUP
HOLD
WL
0.4
ns
0.2
Tj(MAX) = 125°C
Clock Width Low 75
Clock Width High 75
ns
0.0
ns
WH
-60 -40 -20
0
20
40 60
80 100 120
Ta - Ambient Temperature - °C
Clock Frequency
—
—
MHz
ns
(CLK)
T
T
Clock Transition
Time
75 200
THL
TLH
Figure 4. Maximum Allowable Power Dissipation
vs. Temperature, ISD235X
T
T
Propagation Delay —
Clock to Data Out
50 125
ns
1
PHL
PLH
1.5
Notes:
1)
All typical values specified at V =5.0 V and TA=25°C unless
otherwise noted.
CC
1.0
2)
V
Pulse Width Frequency—50 kHz (max.)
B
Rth(JA) = 35°C/W
Rth(JA) = 55°C/W
0.5
Tj(MAX) = 125°C
0.0
-60 -40 -20
0
20
40
60
80
100 120
Ta - Ambient Temperature - °C
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
ISD201X/231X/235X
March 23, 2000-17
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
3
Optical Characteristics
Red ISD2010, ISD2310
Description
(4)
Symbol
Min.
105
220
—
Typ.
200
370
660
639
Units Test Conditions
(1,3)
Peak Luminous Intensity per LED
(Character Average)
ISD2010
ISD2310
I
µcd
V
=5.0 V, V
=3.5 V
COL
V
peak
CC
(5)
T =25°C , V =2.4 V
J
—
—
B
Peak Wavelength
λ
λ
nm
nm
V
peak
(2)
Dominant Wavelength
—
dom
Yellow ISD2011, IDS2311, ISD2351
Description
(4)
Symbol
Min.
Typ.
Units Test Conditions
(1,3)
Peak Luminous Intensity per LED
(Character Average)
ISD2011
ISD2311
ISD2351
I
400
650
2400
—
750
µcd
V
=5.0 V, V
=3.5 V
V
CC
COL
peak
(5)
T =25°C , V =2.4 V
1140
3400
583
J
B
Peak Wavelength
λ
λ
nm
nm
—
—
V
peak
(2)
Dominant Wavelength
—
585
dom
High Efficiency Red IDS2012, ISD2312, IDS2352
(4)
Description
Symbol
Min.
400
650
853
—
Typ.
1430
1430
2500
630
Units Test Conditions
(1,3)
Peak Luminous Intensity per LED
(Character Average)
ISD2012
I
µcd
V
=5.0 V, V
=3.5 V
V
peak
CC
COL
(5)
T =25°C , V =2.4 V
ISD2312
ISD2352
J
B
Peak Wavelength
λ
λ
nm
nm
—
—
V
peak
(2)
Dominant Wavelength
—
626
dom
High Efficiency Green IDS2013, ISD2313, IDS2353
(4)
Description
Symbol
Min.
850
1280
2400
—
Typ.
1550
2410
3000
568
Units Test Conditions
(1,3)
Peak Luminous Intensity per LED
(Character Average)
ISD2013
ISD2313
ISD2353
I
µcd
V
=5.0 V, V
=3.5 V
V
peak
CC
COL
(5)
T =25°C , V =2.4 V
J
B
Peak Wavelength
λ
λ
nm
nm
—
—
V
peak
(2)
Dominant Wavelength
—
574
dom
Notes:
1)
The displays are categorized for luminous intensity with the intensity category designated by a letter code on the bottom of the package.
2)
Dominant wavelength (λ
of the device.
) is derived from the CIE chromaticity diagram and represents the single wavelength which defines the color
dom
3)
The luminous sterance of the LED may be calculated using the following relationships:
2
2
L (cd/m )= l (Candela)/A (Meter)
V
V
2
L (Footlamberts)= π l (Candela)/A (Foot)
A=5.3 x 10 m =5.8 x10 (Foot)
V
v
–8
2
–7
2
4)
5)
All typical values specified at V =5.0 V and T =25°C unless otherwise noted.
CC
A
The luminous intensity is measured at T =T =25°C. No time is allowed for the device to warm up prior to measurement.
A
J
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
ISD201X/231X/235X
March 23, 2000-17
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
4
Recommended Operating Conditions
(Guaranteed over operating temperature range)
Parameter
Symbol
Min.
4.75
—
Nom.
5.0
—
Max.
5.25
—
Units
V
Supply Voltage
V
CC
Data Out Current, Low State
Data Out Current, High State
I
I
mA
mA
V
OL
OH
—
—
—
(1)
Column Input Voltage, Column On
V
2.75
70
—
3.5
—
COL
Setup Time
T
T
T
T
T
45
—
ns
SETUP
HOLD
W(CLK)
CLK
Hold Time
30
—
ns
Width of Clock
75
—
—
ns
Clock Frequency
Clock Transition Time
Free Air Operating Temperature Range
Note:
—
—
5.0
200
+100
MHz
ns
—
—
THL
T
–55
—
°C
A
1)
See Figures 5, 6 and 7: Peak column current versus column voltage
Figure 7. Peak Column Current vs. Column
Voltage, ISD235X
Figure 5. Peak Column Current vs. Column
Voltage, ISD201X
600
600
500
400
300
200
100
0
500
400
300
200
100
0
2010
2011/2012/2013
0.0
1.0
2.0
3.0
4.0
5.0
6.0
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Vcol – Column Voltage – Volts
Vcol – Column Voltage – Volts
Figure 6. Peak Column Current vs. Column
Voltage, ISD231X
600
500
ISD2310
400
ISD2311/2/3
300
200
100
0
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Vcol – Column Voltage – Volts
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
ISD201X/231X/235X
March 23, 2000-17
5
Electrical Characteristics (–55°C to +100°C, unless otherwise specified)
(1)
Description
Symbol Min. Typ.
Max. Units
Test Conditions
Supply Current (quiescent)
I
—
—
—
—
5.0
5.0
mA
V =0.4 V
V
V
=5.25 V
CC
CC
B
=V
=2.4 V
CLK
DATA
V =2.4 V
B
All SR Stages=Logical 1
Supply Current (operating)
I
I
I
—
—
—
—
—
10
10
mA
µA
F
=5.0 MHz
CLK
CC
(2)
(2)
Column Current at Any Column Input
Column Current at Any Column Input
V =0.4 V
V
V
=5.25 V
CC
COL
COL
B
=3.5 V
COL
mA
—
All SR Stages=Logical 1
ISD2010 red
ISD2011/2/3: yellow, HER, green
ISD231X: red, yellow, HER, green
ISD235X: yellow, HER, green
350
335
380
550
435
410
520
650
V , Clock or Data Input Threshold Low
V
V
V
V
—
—
0.8
—
—
—
V
V
=4.75 V–5.25 V
B
IL
CC
V , Clock or Data Input Threshold High
2.0
2.4
—
—
V
B
IH
Data Out Voltage
3.6
—
V
I
I
=0.5 mA
V
=5.25 V
CC
OH
OL
OH
I
=0 mA
COL
—
=1.6 mA
OL
Input Current Logical 0, V only
I
I
–30
—
–110
—
–300 µA
V
=4.75 V–5.25 V, V =0.8 V
IL
B
IL
IL
CC
Input Current Logical 0, Data, Clock
Power Dissipation per Package
—
—
—
P
—
W
V
=5.0 V, V
=3.5 V, 17.5% DF
COL
D
CC
15 LEDs on per character, V =2.4 V
B
ISD201X
ISD231X
ISD235X
0.44
0.52
0.74
Thermal Resistance IC, Junction-to-Pin
R
—
—
°C/W/
—
θJ-PIN
Device
ISD201X
ISD231X
ISD235X
30
20
25
Notes:
1)
All typical values specified at V =5.0 V and T =25°C unless otherwise noted.
See Figures 5, 6 and 7: Peak column current versus column voltage
CC
A
2)
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
ISD201X/231X/235X
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
6
March 23, 2000-17
Figure 8. Block Diagram
Column Drive Inputs
Column
1 2 3 4 5
LED
Matrix
2
LED
Matrix
3
LED
Matrix
4
1 2 3 4 5 6 7
Rows
Rows 1-7
Rows 1-7
Rows 1-7
Blanking
Control, VB
Constant Current Sinking LED Drivers
1 2 3 4 5 6 7
Rows 8-14
Rows 15-21
Rows 22-28
Serial
Data
Input
Serial
Data
Output
28-Bit SIPO Shift Register
Clock
Contrast Enhancement Filters for Sunlight Readability
Display Color
Red, HER
Yellow
Filter Color
Red
Marks Polarized Corp.* Optical Characteristics of Filter
MPC 20-15C
MPC 30-25C
MPC 50-122C
MPC 80-10C
25% at 635 nm, Circular Polarizer
25% at 583 nm, Circular Polarizer
22% at 568 nm, Circular Polarizer
10% Neutral, Circular Polarizer
Amber
Green
Yellow/Green
Neutral Gray
Multiple Colors
High Ambient Light
Multiple Colors
Neutral Gray
MPC 80-37C
37% Neutral, Circular Polarizer
* Marks Polarized Corp.
25-B Jefryn Blvd. W.
Deer Park, NY 11729
516/242-1300
FAX 516/242-1347
Marks Polarized Corp. manufactures
to MIL-1-45208 inspection system.
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
ISD201X/231X/235X
7
March 23, 2000-17
The small alphanumeric displays are hybrid LED and CMOS
assemblies that are designed for reliable operation in commer-
cial and industrial environments. Optimum reliability and optical
performance will result when the junction temperature of the
LEDs and CMOS ICs are kept as low as possible.
For ease of calculations the maximum allowable electrical oper-
ating condition is dependent upon the aggregate thermal resis-
tance of the LED matrixes and the two driver ICs. All of the
thermal management calculations are based upon the parallel
combination of these two networks which is 15°C/W. Maxi-
mum allowable power dissipation is given in Equation 3.
Thermal Modeling
Equation 3.
ISD displays consist of two driver ICs and four 5 x 7 LED
matrixes. A thermal model of the display is shown in Figure 9.
It illustrates that the junction temperature of the semiconductor
= junction self heating + the case temperature rise + the ambi-
ent temperature. Equation 1 shows this relationship.
TJ(MAX) – TA
PDISPLAY = ---------------------------------
R
θJC + RθCA
PDISPLAY = 5VCOL ICOL (n ⁄ 35) DF + VCC ICC
For further reference see Figures 2, 3, 4 and 11 – 23.
Figure 9. Thermal Model
Key to equation symbols
DF
Duty factor
Quiescent IC current
Column current
LED T
Rθ1
IC T
LED T
Rθ1
LED T
Rθ1
IC T
LED T
Rθ1
1
2
1
1
2
1
I
CC
Rθ2
Rθ2
I
COL
n
P
Number of LEDs on in a 5 x 7 array
Package power dissipation excluding LED
under consideration
CASE
LED Power IC Power LED Power LED Power IC Power LED Power
RθCA
P
P
P
R
R
T
Power dissipation of a column
Power dissipation of the display
Power dissipation of a LED
Thermal resistance case to ambient
Thermal resistance junction to case
Ambient temperature
Junction temperature of an IC
Junction temperature of a LED
Maximum junction temperature
IC voltage
COL
DISPLAY
LED
See Equation 1 below.
The junction rise within the LED is the product of the thermal
impedance of an individual LED (37°C/W, DF=20%, F=200 Hz),
θCA
θJC
times the forward voltage, V
, and forward current I (LED),
A
F(LED)
F
T
of 13 – 14.5 mA. This rise averages T
=1°C. The Table
J(IC)
J(LED)
T
T
below shows the V
for the respective displays.
J(LED)
J(MAX)
F(LED)
V
V
V
Z
Model Number
VF
CC
Column voltage
Forward voltage of LED
Thermal impedance junction to case
COL
F(LED)
Min.
Typ.
Max.
ISD2010
ISD2310
1.6
1.7
2.0
θJC
Optical Considerations
ISD2011/2/3
ISD2311/2/3
ISD2351/2/3
1.9
2.2
3.0
The light output of the LEDs is inversely related to the LED
diode’s junction temperature as shown in Figure 10. For opti-
mum light output, keep the thermal resistance of the socket or
PC board as low as possible.
The junction rise within the LED driver IC is the combination
of the power dissipated by the IC quiescent current and the
28 row driver current sinks. The IC junction rise is given in
Equation 2.
A thermal resistance of 28°C/W results in a typical junction
rise of 6°C.
See Equation 2 below.
Equation 1.
TJ(LED) = PLED
Z θJ C + PCASE (RθJC + RθCA)+ TA
TJ(LED) = [(ICOL ⁄ 28)VF (LED) ZθJC ] + [(n ⁄ 35)ICOL DF (5VCOL) + VCC ICC] [RθJC + RθCA] + TA
Equation 2.
TJ(IC) = PCOL(RθJC + RθCA) + TA
TJ(IC) = [5(VCOL – VF(LED)) (ICOL ⁄ 2) (n ⁄ 35)DF + VCC
ICC] [RθJC + RθCA] + TA
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
ISD201X/231X/235X
March 23, 2000-17
8
Figure 10. Normalized Luminous Intensity vs. Junction
Temperature
Figure 13. Max. Package Power Dissipation, ISD231X
2.0
10
Vcc = 5.25V, Icc =10mA
Vcol = 3.5, Icol = 520mA
Normalized to:
1.5
DF = 20%, Ta = 25°C
Ta = 25°C
1.0
0.5
0.0
1
.1
-60 -40 -20
0
20 40 60 80 100 120 140
0
5
10
15
20
25
30
35
40
Tj - LED Junction Temperature - °C
LEDs on per Character
Figure 14. Max. Package Power Dissipation, ISD235X
When mounted in a 10°C/W socket and operated at Absolute
Maximum Electrical conditions, the display will show an LED
3.0
junction rise of 17°C. If T =40°C, then the LED’s T will be
A
J
57°C. Under these conditions Figure 11 shows that the lV will
be 75% of its 25°C value.
2.5
Vcc =5.25V, Icc = 10mA
Vcol = 3.5V, Icol = 600mA
2.0
DF = 20%, Ta =25°C
Figure 11. Max. LED Junction Temperature vs. Socket
Thermal Resistance
1.5
50
45
40
35
30
1.0
0.5
0.0
25
0
5
10
15
20
25
30
35
40
Vcol = 3.5V, Icol = 410mA
20
LEDs on per Character
Vcc =5.25V, Icc = 10mA
15
n = 20 LEDs, DF= 20%
Figure 15. Package Power Dissipation, ISD201X
10
P = 0.87W
5
0
1.5
Vcc =5V, Icc = 5mA
0
5
10 15 20 25 30 35 40 45 50
Vcol = 3.5V, Icol = 335mA
Socket Thermal Resistance - °C/W
DF = 20%, Ta = 25°C
1.0
Figure 12. Max. Package Power Dissipation, ISD201X
1.5
Vcc = 5.25V, Icc = 10mA
Vcol = 3.5, Icol = 410mA
0.5
0.0
DF = 20%, Ta = 25°C
1.0
0.5
0.0
0
5
10
15
20
25
30
35
40
LEDs on per Character
0
5
10
15
20
25
30
35
40
LEDs on per Character
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
ISD201X/231X/235X
March 23, 2000-17
9
Figure 16. Max. Package Power Dissipation, ISD231X
Figure 20. Max. Character Power Dissipation, ISD235X
2.0
1.5
Vcc = 5V, Icc = 5mA
Vcc = 5V, Icc = 5mA
Vcol = 3.5, Icol = 380mA
Icol = 450mA, Vcol = 3.5V
1.5
DF = 20%, Ta = 25°C
DF = 20%
1.0
1.0
0.5
0.0
0.5
0.0
0
5
10
15
20
25
30
35
40
0
5
10
15
20
25
30
35
40
LEDs on per Character
LEDs on per Character
Figure 17. Max. Package Power Dissipation, ISD235X
Figure 21. Character Power Dissipation, ISD201X
2.0
0.4
Vcc = 5V, Icc = 5mA
Vcc = 5V, Icc = 5mA
Icol = 450mA, Vcol = 3.5V
Vcol = 3.5, Icol = 335mA
Duty Factor
0.3
1.5
DF = 20%
20%
17%
1.0
0.5
0.0
0.2
0.1
0.0
10%
5%
0
5
10
15
20
25
30
35
40
0
5
10
15
20
25
30
35
40
LEDs on per Character
LEDs on per Character
Figure 18. Max. Character Power Dissipation, ISD201X
Figure 22. Character Power Dissipation, ISD231X
0.5
Vcc =5V, Icc = 5mA
0.50
Vcc = 5.25V, Icc = 10mA
Vcol = 3.5V, Icol = 380mA
0.4
Vcol = 3.5V, Icol = 410mA
Duty Factor
0.40
20%
20%.
0.3
17%.
0.30
10%.
0.2
5%.
17%
0.20
0.1
10%
0.10
0.00
5%
0.0
0
5
10
15
20
25
30
35
40
LEDs on per Character
0
5
10
15
20
25
30
35
40
LEDs on per Character
Figure 23. Character Power Dissipation, ISD235X
Figure 19. Max. Character Power Dissipation, ISD231X
0.5
Vcc = 5V, Icc = 5mA
0.50
Vcc =5.25V, Icc = 10mA
Vcol = 3.5V, Icol = 380mA
20%
17%
20%
17%
Vcol = 3.5V, Icol = 450mA
0.4
0.3
0.2
0.1
0.0
0.40
0.30
0.20
0.10
0.00
10%
5%
10%
5%
0
5
10
15
20
25
30
35
40
0
5
10
15
20
25
30
35
40
LEDs on per Character
LEDs on per Character
2000 Infineon Technologies Corp. • Optoelectronics Division • San Jose, CA
www.infineon.com/opto • 1-888-Infineon (1-888-463-4636)
OSRAM Opto Semiconductors GmbH & Co. OHG • Regensburg, Germany
www.osram-os.com • +49-941-202-7178
ISD201X/231X/235X
March 23, 2000-17
10
相关型号:
ISD2340
SINGLE-CHIP, MULTIPLE-MESSAGES, VOICE RECORD/PLAYBACK DEVICE 32-, 40-, 48-, AND 64-SECOND DURATION
WINBOND
©2020 ICPDF网 联系我们和版权申明