SHARP:Electronic Components 2014/03

Electronic Components
http://sharp-world.com/products/device/
March 2014
2014-03
CONTENTS
TFT
LCD
2
LCD Modules.............................................................................. 2
Imaging
CMOS IMAGE SENSORS / CCDs
SYSTEM LSIs
18
System LSIs ............................................................................. 18
Graphic Display Module with LCDs ........................................... 18
One-chip Graphic Controller...................................................... 19
Touch Panel System.................................................................. 20
Touch Panel System / System LSIs........................................... 21
Touch Panel System / Touch Panel Controller Module .............. 21
Touch Panel System / Sensor Sheets ....................................... 22
REG Analog RF
POWER DEVICES /
ANALOG ICs
Low Power-Loss Voltage Regulators ........................................
Surface Mount Type Low Power-Loss Voltage Regulators .......
Surface Mount Type Chopper Regulators
(DC-DC Converters) .................................................................
Chopper Regulators (DC-DC Converters)................................
Power Supply ICs for CCDs/CCD Camera Modules ................
LED Drivers ..............................................................................
AC-DC Conversion Type ICs for LED Lighting..........................
Power Amplifiers for Wireless LAN ...........................................
Front-End Modules for Wireless LAN .......................................
PACKAGES
30
CSP (Chip Size Package) ........................................................ 30
SiP (System in Package).......................................................... 31
Package Lineup........................................................................ 33
5
CMOS Camera Modules Road Map........................................... 5
CMOS Camera Modules ............................................................ 6
Road Map for High-Resolution CCDs/CMOSs
for Digital Cameras/Digital Camcorders ..................................... 7
High-Resolution CCDs ............................................................... 8
High-Resolution CMOSs ............................................................ 8
Image Sensor Related Devices for Security,
Automotive and Medical Cameras.............................................. 9
Progressive CCDs .................................................................... 10
1/3-type CCDs.......................................................................... 11
1/3.8-type CCD......................................................................... 11
1/4-type CCDs.......................................................................... 12
DSPs for CCDs......................................................................... 13
CCD Peripheral ICs/LSIs.......................................................... 14
LSI
LSI Imaging REG
23
23
23
25
26
26
27
29
29
29
OPTO
OPTOELECTRONICS / IR DEVICES
Photocoupler Lineup ................................................................
Photocouplers ..........................................................................
Phototransistor Output Type ..................................................
OPIC Output..........................................................................
Phototriac Coupler Lineup........................................................
Phototriac Couplers..................................................................
Solid State Relay Lineup ..........................................................
Solid State Relays ....................................................................
DIP type.................................................................................
SIP type.................................................................................
Photointerrupter Lineup............................................................
Photointerrupters <Transmissive type> ....................................
Single Phototransistor Output ...............................................
Darlington Phototransistor Output .........................................
OPIC Type .............................................................................
Photointerrupters <Reflective type> .........................................
Single Phototransistor Output ...............................................
OPIC Output..........................................................................
Photointerrupters for Specific Applications...............................
Transmissive Type..................................................................
Reflective Type ......................................................................
Proximity Sensor ......................................................................
Proximity Sensor with Integrated Ambient Light Sensor ..........
Proximity/Gesture Sensor with
Integrated Ambient Light Sensor ..............................................
Ambient Light Sensors .............................................................
OPIC Light Detectors ...............................................................
Phototransistor Lineup .............................................................
Phototransistors .......................................................................
PIN Photodiodes ......................................................................
Infrared Emitting Diode Lineup.................................................
Infrared Emitting Diodes...........................................................
Optical-Electric Sensor Lineup .................................................
Distance Measuring Sensors ...................................................
High-Precision Displacement Sensor.......................................
Dust Sensor Unit ......................................................................
Fiber Optics Lineup for Audio Equipment.................................
Fiber Optic Transmitters ...........................................................
Fiber Optic Receivers ...............................................................
IR Detecting Unit for Remote Control Lineup
(Classified by Form) .................................................................
IR Detecting Units for Remote Control .....................................
40
40
41
41
45
47
48
50
51
51
52
54
55
55
57
57
59
59
60
61
61
61
62
63
64
65
66
68
68
69
70
70
71
72
74
74
75
76
76
77
78
LEDs
79
High-Luminosity White Surface Mount LEDs ...........................
High-Luminosity Surface Mount LEDs (RGB 3-Color)..............
ZENIGATA LEDs for Lighting..............................................
Surface Light Source LEDs ......................................................
79
79
80
85
LASER
86
LASER DIODES
LCDs
LED
Laser Diodes ............................................................................ 86
89
90
91
92
93
94
95
95
96
96
97
98
98
99
INDEX .................................................................................... 100
ICs
Europe: LNBs for Satellite Broadcast .......................................
Japan: LNBs for BS/CS 110° Satellite Broadcast.....................
Digital DBS Front-End Units .....................................................
Front-End Units for ISDB-T/S ...................................................
Front-End Units for DVB-T2/DTMB...........................................
Front-End Units for Digital Terrestrial and
Analog Terrestrial Broadcasting................................................
Full-Seg Tuner Module for Diversity Reception ........................
MPEG Module ..........................................................................
MPEG Module with Video Recording Function ........................
One-Seg Tuner Module ............................................................
Tuner Module for Multimedia Broadcast Reception..................
Emergency Warning Broadcasting Receiver Module ...............
Ionizing Radiation Sensor Module............................................
One-Seg 8 Tuner Module .........................................................
89
Optoelectronics
IR Devices
RF COMPONENTS
RF Components
LEDs / Laser Diodes
RF
TFT
LCD MODULES
✩New product
■ LCD Modules
<For industrial appliances>
Display
size
(cm)
[ ′′ ]
8.8
[3.5]
Model No.
Dot format
H×V
(dot)
Pixel
pitch
H×V
(mm)
Active
area
H×V
(mm)
Display
colors
LQ035Q3DG03
320 × RGB
× 240
0.2205 ×
0.2205
70.56 ×
52.92
16.19 M
6-bit +
2-bit FRC
✩LS037V7DW05
9.4
[3.7]
Weight
(g)
(MAX.)
Remarks
76.9 × 63.9
× 4.7
TYP.
42
Long-life LED backlight
65.0 × 89.2
× 4.4
48
Advanced Super V,
Advanced TFT-LCD,
With resistive touch
panel
300
65.0 × 89.2
× 3.6
38
Advanced Super V,
Advanced TFT-LCD
300
105.5 × 67.2
× 4.2
51
With resistive touch
panel
105.5 × 67.2
× 3.1
36
450
CMOS
0.8
250
480 × RGB
× 640
0.117 ×
0.117
56.16 ×
74.88
16.77 M
8-bit RGB
✩LS037V7DW06
LQ043T1DG28
480 × 272
× RGB
11
[4.3]
Power
Outline
Lumicondimensions*1
nance
Interface
sumption
W×H×D
(cd/m2)
(W)
(TYP.)
(mm) (TYP.)
(TYP.)
0.198 ×
0.198
95.04 ×
53.856
CMOS
260 k
6-bit RGB
LQ043T1DG29
CMOS
0.36
0.63
360
14
[5.7]
LQ057Q3DC03
320 × 240
× RGB
0.36 ×
0.36
115.2 ×
86.4
260 k
6-bit RGB
500
CMOS
2.5
144.0 × 104.6
× 12.3
210
16
[6.4]
LQ064V3DG06
640 × 480
× RGB
0.204 ×
0.204
130.56 ×
260 k
97.92
6-bit RGB
350
CMOS
3.0
161.3 × 117.0
× 12.0
TYP.
200
LQ084V1DG43
640 × RGB
× 480
0.267 ×
0.267
170.88 ×
260 k
128.16 6-bit RGB
300
CMOS
4.7
221.0 × 152.4
× 9.3
340
LQ084S3LG03
800 × RGB
× 600
0.213 ×
0.213
170.4 ×
127.8
16.19 M
6-bit +
2-bit FRC
330
LVDS
4.1
199.5 × 154.0
× 11.6
320
LQ104V1DG81/LG81
640 × RGB
× 480
0.33 ×
0.33
450
CMOS/
LVDS
5.6
LQ104S1LG81
800 × RGB
× 600
0.264 ×
0.264
LVDS
6.1
800 × RGB
× 600
0.3075 ×
0.3075
21
[8.4]
26
[10.4]
211.2 ×
158.4
260 k
6-bit RGB
420
246.5 × 179.3
× 12.5
TYP.
500
500
LQ121S1LG81
450
31
[12.1]
LQ121S1LG84
LQ121S1LG86
246.0 ×
184.5
260 k
6-bit RGB
5.1
276.0 × 209.0
× 9.1
LVDS
1 500
12.9
600
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
HV mode*2,
Built-in LED backlight
driver circuit
Long-life LED backlight,
DE mode*3,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
All products listed on this page are LED backlight models.
*1 Protrusions such as positioning bosses are not included.
*2 Hsync/Vsync mode
*3 Data enable mode
(Note) Please note that the specifications are subject to change without prior notice for product improvement.
2
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any
defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc.
For details, please inquire with SHARP. Contact SHARP in order to obtain the latest device specification
sheets before using any SHARP device.
TFT
LCD MODULES
✩New product
★Under development
■ LCD Modules
<For industrial appliances> (cont’d)
Model No.
Dot format
H×V
(dot)
Pixel
pitch
H×V
(mm)
Active
area
H×V
(mm)
LQ150X1LG11
16.19 M
6-bit +
2-bit FRC
LQ150X1LG91
38
[15.0]
✩LQ150X1LX95
Display
colors
1 024 × RGB
× 768
0.297 ×
0.297
304.1 ×
228.1
16.19 M
6-bit RGB
+
2-bit FRC
Power
Outline
Lumicondimensions*1
nance
Interface
sumption
W×H×D
(cd/m2)
(W)
(TYP.)
(mm) (TYP.)
(TYP.)
600
8.2
6.8
12.414
350
10.2
331.6 × 254.7
× 9.3
75
404.2 × 330.0
× 34.0
300
15.3
404.2 × 330.0
× 15.0
(350)
(27.5)
1 000
LQ190E1LX51
326.5 × 253.5
× 9.6
LVDS
10 M
6-bit +
2-bit FRC
LQ150X1LW12
331.6 × 254.7
× 9.3
2ch LVDS
48
[19.0]
LQ190E1LW52
1 280 × RGB
× 1 024
0.294 ×
0.294
376.32 ×
301.056
16.77 M
8-bit RGB
★LQ190E1LX75
2ch LVDS
✩LQ190N1LW01
1 680 × RGB 0.24375 × 409.5 ×
0.24375 255.9375
× 1 050
300
51
✩LQ201U1LW31
[20.1]
1 600 × XYZ
× 1 200
0.255 ×
0.255
408.0 ×
306.0
256
gray scale
8-bit
59
[23.1]
1 600 × RGB
× 1 200
0.294 ×
0.294
470.4 ×
352.8
16.77 M
8-bit RGB
LQ231U1LW32
20.2
1 000 2ch LVDS
500
LDI
Weight
(g)
(MAX.)
Remarks
LCD
Display
size
(cm)
[ ′′ ]
Long-life LED backlight,
Built-in LED backlight
driver circuit
Long-life LED backlight,
Built-in LED backlight
driver circuit
Advanced
Super V,
950
Long-life LED backlight,
Built-in LED backlight
driver circuit
Advanced Super V,
Long-life LED backlight,
Built-in LED backlight
driver circuit
Advanced Super V,
Long-life LED backlight,
2 600
Built-in LED backlight
driver circuit
1 850
Advanced Super V,
Long-life LED backlight
396.0 × 323.7
(1 500) Advanced Super V,
× 11.5
Long-life LED backlight,
Built-in LED backlight
444.0 × 283.3
1 600 driver circuit
× 15.5
T.B.D.
436.0 × 335.0
× 20.4
65.5
530.0 × 431.5
× 23.9
Advanced Super V,
Long-life LED backlight,
T.B.D. Built-in LED backlight
driver circuit,
Monochrome
Advanced Super V,
Long-life LED backlight,
4 500
Built-in LED backlight
driver circuit
All products listed on this page are LED backlight models.
*1 Protrusions such as positioning bosses are not included.
(Note) Please note that the specifications are subject to change without prior notice for product improvement.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any
defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc.
For details, please inquire with SHARP. Contact SHARP in order to obtain the latest device specification
sheets before using any SHARP device.
3
TFT
LCD MODULES
✩New product
<For large-size product applications>
Display
size
(cm)
[ ′′ ]
Model No.
Number
of
pixels*1
Dot format
H×V
(dot)
Active
area
H×V
(mm)
80.0
✩LQ315D1LG9N
[31.5]
8 294 400
3 840 × RGB
× 2 160
152.5
[60]
8 294 400
3 840 × RGB 1 330.56 ×
748.44
× 2 160
LK601R3LA19
697.92 ×
392.58
Luminance
(cd/m2)
(TYP.)
Display
colors
Interface
Outline
dimensions*2
Backlight
W×H×D
(mm) (TYP.)
1.07B
10-bit
450
8ch-LVDS*3
733.0 × 428.6
× 57.0*4
Direct-lit
LED
(built-in
driver)
1.06B
8-bit +
2-bit FRC
450
8ch-LVDS*3
1 380.0 ×
790.0 × 106.6
Direct-lit
LED
(built-in
driver)
Remarks
Super-high resolution and
low power consumption achieved
by using IGZO*5 LCD:
90 W (Typ.),
Wide viewing angle:
L/R 176°/ U/D 176°,
Response time [G to G]:
8 ms (Typ.)
Ultraviolet-induced Multi-domain
Vertical Alignment LCD,
High resolution,
High color purity (78% of NTSC),
Wide viewing angle:
L/R 176°/ U/D 176°,
High contrast: 4 000:1,
High-speed response [G to G]:
6 ms (Typ.)
*1 Pixel means a set of each RGB dot.
*2 Excluding FPC for connection and other protruding parts.
*3 LVDS: Low Voltage Differential Signaling
*4 Excluding the LED driver.
*5 IGZO: an oxide semiconductor consisting of In (Indium), Ga (Gallium), and Zn (Zinc).
(Note) Please note that the specifications are subject to change without prior notice for product improvement.
4
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any
defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc.
For details, please inquire with SHARP. Contact SHARP in order to obtain the latest device specification
sheets before using any SHARP device.
Imaging
CMOS CAMERA MODULES ROAD MAP
✩New product
★Under development
■ CMOS Camera Modules Road Map
~2012
2013
RJ63AC400
13M
2014
RJ63AC500
1/3.06 type 0.75 cc
1/3.06 type 0.45 cc
Built-in optical image stabilization
and auto focus functions
11.0 x 11.0 x 6.18
Built-in auto focus function
8.5 x 8.5 x 6.18
RJ63AC100
★RJ63ACL00
RJ63AC200
1/3 type 0.47 cc
Built-in optical image stabilization
and auto focus functions
9.5 x 9.5 x 5.18
RJ63VC200
1/3.06 type 0.67 cc
1/3.06 type 0.40 cc
Built-in optical image stabilization
and auto focus functions
11.0 x 11.0 x 5.53
Built-in auto focus function
8.5 x 8.5 x 5.53
★RJ64VC300
RJ64VC100
8M
1/3.2 type 0.42 cc
1/4 type 0.23 cc
1/4 type 0.29 cc
Built-in auto focus function
8.52 x 8.52 x 5.8
Built-in auto focus function
7.0 x 7.0 x 4.7
Built-in auto focus function
8.5 x 8.5 x 4.05
RJ67NA100
✩RJ67NA300
1/7 type 0.07 cc
1/7 type 0.07 cc
4.5 x 5.0 x 2.96
4.5 x 5.0 x 2.99
CMOS Image Sensors/
CCDs
Image
format
2M
RJ68JA100
1.2M
1/8 type 0.07 cc
5.0 x 5.0 x 2.95
RJ6CBA600
VGA
1/13 type 0.03 cc
3.5 x 3.1 x 2.7
Model No.
Optical format &
volume
Outline dimensions
(D x W x H)
TYP. (mm)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
5
Imaging
CMOS CAMERA MODULES
✩New product
★Under development
■ CMOS Camera Modules
Module configuration: CMOS image sensor, CDS/AGC/10-bit ADC, timing generator, DSP, lens
Color filter: R, G, B primary color mosaic filters
Operating temperature: –20 to 60°C
Lens
Optical Image
format format
Optical function
Model No.
★RJ63ACL00
OIS*2
function,
auto focus function
Video
performance
Output
pixels
(H x V)
MAX.
30 fps at 13M
(Normal/HDR)
60 fps at 1 080p
(Normal/HDR)
4 208
x
3 120
24 fps at 13M
60 fps at 1 080p
4 200
x
1 320
15 fps at 13M
60 fps at 1 080p
4 224
x
3 136
RJ63AC400
1/3.06
type
1/3.2
type
1/4
type
13M
8M
8M
Auto focus function
RJ63AC500
OIS*2 function,
auto focus function
RJ63AC100
Auto focus function
RJ63AC200
Auto focus function
RJ63VC200
15 fps at 8M
60 fps at 720p
RJ64VC100
23 fps at 8M
30 fps at 1 080p
Auto focus function
★RJ64VC300
30 fps at 1 080p
✩RJ67NA300
1/7
type
60 fps at 1 080p
2M
RJ67NA100
—
1/8
type
1.2M
RJ68JA100
30 fps at 720p
1/13
type
VGA
RJ6CBA600
30 fps at VGA
3 280
x
2 464
3 296
x
2 480
3 264
x
2 448
1 976
x
1 200
1 280
x
960
640
x
480
Horizontal
ConfiguF No.
viewing
ration
angle
(°)
F2.0
F1.9
F2.5
F2.4
5 pcs.
6 pcs.
5 pcs.
Output
signal
Outline
Supply
dimensions
Package*1
voltage
(D x W x H)
(V) TYP.
TYP. (mm)
64
3.0/2.7/
1.8/1.0
59
2.7/1.8/
1.05
RAW
(Mipi, 4 lanes)
2.7/1.8/
1.2
64
5 pcs.
59
4 pcs.
63
11.0 x 11.0
x 6.18
8.5 x 8.5
x 6.18
11.0 x 11.0
x 5.53
8.5 x 8.5
x 5.53
2.8/1.8
8.52 x 8.52 FPC type
RAW
(I/O: 1.8
x 5.8
(Mipi, 2 lanes)
or 2.8)
RAW
(Mipi, 2 lanes)
F2.4
9.5 x 9.5
x 5.18
2.7/1.8/
1.2
7.0 x 7.0
x 4.7
5 pcs.
67
2.8/1.8/
1.2
8.5 x 8.5
x 4.05
4 pcs.
80
2.8/1.8/
1.2
4.5 x 5.0
x 2.99
RAW
(Mipi, 2 lanes)
F2.4
3 pcs.
61
F2.8
2 pcs.
47
UYVY
(Mipi, 1 lane)
F3.0
1 pcs.
48
UYVY
(Parallel/
Mipi, 1 lane)
2.8/1.8/
1.2
(I/O: 1.8
or 2.8)
2.8/1.8
(I/O: 1.8
or 2.8)
4.5 x 5.0
x 2.96
5.0 x 5.0
x 2.95
3.5 x 3.1
x 2.7
25WL-CSP
*1 Contact a SHARP sales office regarding FPC type package.
*2 OIS: Optical image stabilization
Additional OIS driver and gyro sensor is necessary.
6
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
ROAD MAP FOR HIGH-RESOLUTION CCDs/CMOSs
FOR DIGITAL CAMERAS/DIGITAL CAMCORDERS
Imaging
★Under development
■ Road Map for High-Resolution CCDs/CMOSs for Digital Cameras/Digital Camcorders
Total
pixels
~ 2012
2013
2014
720p
16M
RJ23E3HA0LT
720p
14M
CMOS Image Sensors/
CCDs
16 590 kpixels
1 080p
RJ23Z3BA0LT
RJ53Z1BA0LT
14 580 kpixels
14 500 kpixels
1/2.3 type
CCD
1/2.33 type
CMOS
4K2K
12M
★RJ5DY1BA0LT
13 110 kpixels
1 type
CMOS
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
7
HIGH-RESOLUTION CCDs /
HIGH-RESOLUTION CMOSs
Imaging
★Under development
High-Resolution Image Sensors for Digital Cameras/Digital Camcorders
■ High-Resolution CCDs
Optical
format
1/2.3
type
Total
pixels
Color filter
14 580 k
R, G, B
primary color
16 590 k mosaic filters
Model No.
Video
performance
Resolution
Image pixels (H x V)
Pixel size
H x V (µm2)
RJ23Z3BA0LT
720p 30 fps
4 360 x 3 272
1.43 x 1.43
105
–86
RJ23E3HA0LT
720p 30 fps
4 648 x 3 488
1.34 x 1.34
125
–87
Video
performance
Resolution
Image pixels (H x V)
Pixel size
H x V (µm2)
Sensitivity
(mV/Lux-sec) TYP.
1 080p 60 fps
4 352 x 3 264
1.4 x 1.4
380
P-LCC072-S394
4K2K 60 fps
4 144 x 3 096
3.1 x 3.1
1 170
N-LCC120-R898
Sensitivity Smear ratio
(mV) TYP. (dB) TYP.
Package
N-LCC040-R350
■ High-Resolution CMOSs
Optical
format
Total
pixels
1/2.33
14 500 k
type
Color filter
Model No.
RJ53Z1BA0LT
R, G, B
primary color
1 type 13 110 k mosaic filters ★RJ5DY1BA0LT
8
Package
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Imaging
IMAGE SENSOR RELATED DEVICES FOR SECURITY,
AUTOMOTIVE AND MEDICAL CAMERAS
■ Image Sensor Related Devices for Security, Automotive and Medical Cameras
Sharp introduces a new line of image sensor related devices for security, automotive and medical cameras under the name of
“iSHartina”, hoping to provide safety and reassurance with our high-performance devices.
●Brand portfolio
High Sensitivity CCD
DSP built in AFE & Video amp.
for CCD
Higher Sensitivity CCD
in Near-IR
CMOS Image Sensors/
CCDs
The Collective Name of SHARP’s Lineup of CCD/DSP/CMOS for Security, Automotive & Medical Cameras
High Sensitivity CMOS Sensor
iSHCCD
The “iSHCCD” is the CCD image sensor that introduced high-sensitivity and high-efficiency technologies developed by
Sharp.
iSHCCD II
The “iSHCCD II” is an advanced CCD image sensor that drastically improves light efficiency by including the nearinfrared light region as a basic structure of “iSHCCD”.
iSHDSP
The “iSHDSP” provides outstanding image quality with high-performance video signal processing, and is suitable with
“iSHCCD” and “iSHCCD II” developed by Sharp.
iSHCMOS
The “iSHCMOS” is a CMOS image sensor that has the advantage of a high-sensitivity and wide-dynamic range
developed for security, automotive and medical cameras.
“iSHCCD”, “iSHCCD II”, “iSHDSP”, “iSHCMOS” and “iSHartina” are trademarks of SHARP Corporation.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
9
Imaging
PROGRESSIVE CCDs
✩New product
★Under development
High-Sensitivity Image Sensors for Security Usage
■ Progressive CCDs
Optical Total
format pixels
520 k
Model No.
Video function
RJ3331AA0PB
NTSC 650 TV lines
—
610 k
RJ3341AA0PB
PAL 650 TV lines
RJ33J3BA0DT
1/3
type
✩RJ33J4BA0DT
1 350 k
✩RJ33J3CA0DT
Primary
color
★RJ33J4CA0DT
B/W
★RJ33N3AA0LT
1 080p 25 fps
★RJ33N3AD0LT
1 080p 50 fps
(2 ch output)
RJ31N3AA0DT
2 100 k
2M 25 fps
Primary
color
Primary
color
Primary
color
RJ31N4AA0DT
B/W
RJ31N3AD0DT
Primary
color
2 130 k
RJ31N4AD0DT
2M 50 fps
(2 ch output)
✩RJ32S3AA0DT
5M 9 fps
2/3
type
Complementary color
Complementary color
Primary
color
✩RJ32S4AA0DT
✩RJ32S4AD0DT
Pixel size Sensitivity*1 Smear ratio
H x V (µm2) (mV) TYP.
(dB) TYP.
976 x 494
5.0 x 7.4
976 x 582
5.0 x 6.3
1 500
5M 15 fps
(2 ch output)
3.75 x 3.75
P-DIP016-0450
–120
P-DIP024-0400
–110
N-LCC040R350B
950
1 430
1 928 x 1 088
2.8 x 2.8
470
1 100
1 650
1 644 x 1 236
4.4 x 4.4
–120
1 100
1 650
Primary
color
530
B/W
–120
1 190
1 320 x 976
B/W
Primary
color
Package
790
P-DIP028-0566
B/W
5 240 k
✩RJ32S3AD0DT
Resolution
Image pixels
(H x V)
B/W
720p 30 fps
2 170 k
1/1.8
type
Color filter
800
2 456 x 2 058
3.45 x 3.45
–110
530
800
*1 The average output voltage (G signal in the case of the primary color filter) when a 1,000-lux light source with a 90% reflector is imaged by a lens of F4, f50 mm at 1/30
sec (1/25 sec in the case of RJ3341AA0PB) frame accumulation.
iSHCCD: The “iSHCCD” is the CCD image sensor that introduced high-sensitivity and high-efficiency technologies developed by Sharp.
iSHCCD II: The “iSHCCD II” is an advanced CCD image sensor that drastically improves light efficiency by including the near-infrared light region as a basic structure of
“iSHCCD”.
10
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Imaging
1/3-TYPE CCDs / 1/3.8-TYPE CCD
✩New product
■ 1/3-type CCDs
Total
pixels
Standard
RJ2315DB0PB
270 k
Resolution
Horizontal
Image pixels
TV lines
(H x V)
Model No.
Pixel size Sensitivity*1 Smear ratio
H x V (µm2) (mV) TYP.
(dB) TYP.
—
NTSC
512 x 492
2 900
–135
4 200
–140
2 900
–135
4 200
–140
2 000
–120
1 800
–130
2 700
–135
3 000
–135
Package
9.6 x 7.5
RJ2315EA0PB
330
—
PAL
512 x 582
9.6 x 6.34
RJ2325EA0PB
410 k
RJ2351CA0PB
—
RJ2355CA0PB
—
NTSC
768 x 494
6.4 x 7.5
RJ2355DA0PB
✩RJ2355EA0PB
480
RJ2361CA0PB
—
2 000
–120
RJ2365CA0PB
—
1 800
–130
RJ2365DA0PB
2 700
–135
✩RJ2365EA0PB
3 000
–135
2 000
–120
2 400
–125
2 600
–125
2 000
–120
2 400
–125
2 600
–125
Color
470 k
P-DIP016-0450
PAL
752 x 582
RJ2331AA0PB
520 k
NTSC
6.53 x 6.39
—
RJ2331BA0PB
976 x 494
5.0 x 7.4
RJ2331CA0PB
CMOS Image Sensors/
CCDs
RJ2325DB0PB
320 k
650
RJ2341AA0PB
610 k
PAL
—
RJ2341BA0PB
976 x 582
5.0 x 6.3
RJ2341CA0PB
*1 The average output voltage measured when imaging a 90% reflector illuminated by a 1,000-lux light source through an optical system set at an f number of F4.0.
iSHCCD: The “iSHCCD” is the CCD image sensor that introduced high-sensitivity and high-efficiency technologies developed by Sharp.
iSHCCD II: The “iSHCCD II” is an advanced CCD image sensor that drastically improves light efficiency by including the near-infrared light region as a basic structure of
“iSHCCD”.
■ 1/3.8-type CCD
Total
pixels
290 k
Standard
Color
NTSC
Model No.
RJ2411CA0PB
Resolution
Horizontal
Image pixels
TV lines
(H x V)
330
532 x 512
Pixel size Sensitivity*1 Smear ratio
TYP. (dB)
H x V (µm2) TYP. (mV)
7.2 x 5.6
1 200
–120
Package
P-DIP014-0400A
*1 The average output voltage measured when imaging a 90% reflector illuminated by a 1,000-lux light source through an optical system set at an f number of F4.0.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
11
Imaging
1/4-TYPE CCDs
✩New product
■ 1/4-type CCDs
Total
pixels
Standard
RJ2411EB0PB
270 k
Resolution
Horizontal
Image pixels
TV lines
(H x V)
Model No.
Pixel size Sensitivity*1 Smear ratio
H x V (µm2) TYP. (mV)
TYP. (dB)
—
1 200
NTSC
512 x 492
RJ2411FA0PB
—
RJ2421EB0PB
—
Package
7.2 x 5.6
–130
1 800
330
320 k
1 100
PAL
410 k
NTSC
512 x 582
7.2 x 4.73
–130
RJ2421FA0PB
—
1 650
RJ2455CA0PB
—
900
RJ2455DA0PB
768 x 494
4.9 x 5.6
–114
1 350
–120
✩RJ2455EA0PB
Color
1 600
RJ2461CA0PB
—
RJ2465CA0PB
—
480
900
470 k
P-DIP014-0400A
PAL
752 x 582
–114
5.0 x 4.77
RJ2465DA0PB
1 350
✩RJ2465EA0PB
1 600
–120
520 k
NTSC
RJ2431AA0PB
976 x 494
3.75 x 5.56
976 x 582
3.75 x 4.47
650
610 k
PAL
RJ2441AA0PB
1 400
–120
*1 The average output voltage measured when imaging a 90% reflector illuminated by a 1,000-lux light source through an optical system set at an f number of F4.0.
iSHCCD: The “iSHCCD” is the CCD image sensor that introduced high-sensitivity and high-efficiency technologies developed by Sharp.
iSHCCD II: The “iSHCCD II” is an advanced CCD image sensor that drastically improves light efficiency by including the near-infrared light region as a basic structure of
“iSHCCD”.
12
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Imaging
DSPs FOR CCDs
■ DSPs for CCDs
Model No.
LR38653
Features
—
For 270-k/320-k/410-k/
470-kpixel CCDs
P-LFBGA171-0811
—
<V driver>
Vertical pulse driver for CCDs, 2-level output x 2,
3-level output x 2, 2-level output circuit for electronic shutter
<CDS/PGA/ADC>
25 MHz, high-speed S/H circuit,
high-gain PGA circuit, 12-bit ADC
For 270-k/290-k/320-k/410-k/
<DSP>
470-kpixel CCDs
10-bit DAC, synchronous signal generation circuit,
CCD drive timing generator, AE control function,
AWB control function, lens shading correction function,
auto white blemish compensation function, mirror image
function, electronic optical axis adjustment function* 1,
YUV digital output, NTSC/PAL analog output
P-LFBGA171-0811
V driver
+
CDS/PGA/ADC
+
DSP
LR38654
Package
<V driver>
Vertical pulse driver for CCDs, 2-level output x 2,
3-level output x 2, 2-level output circuit for electronic shutter
<CDS/PGA/ADC>
25 MHz, high-speed S/H circuit,
high-gain PGA circuit, 12-bit ADC
<DSP>
10-bit DAC, synchronous signal generation circuit,
CCD drive timing generator, AE control function,
AWB control function, lens shading correction function,
auto white blemish compensation function, mirror image
function, YUV digital output, NTSC/PAL analog output
LR36B15
For 270-k/320-k/410-k/
470-kpixel CCDs
<CDS/PGA/ADC>
High-speed S/H circuit, high-gain PGA circuit, 12-bit ADC
<DSP>
75-ohm video amplifier, mechanical iris control function,
10-bit DAC, synchronous signal generation circuit,
CCD drive timing generator, AE control function,
AWB control function, lens shading correction function,
auto white blemish compensation function,
mirror image function, NTSC/PAL analog output
P-HQFN064-0909
LR36B16
<CDS/PGA/ADC>
High-speed S/H circuit, high-gain PGA circuit, 12-bit ADC
<DSP>
75-ohm video amplifier, mechanical iris control function,
10-bit DAC, synchronous signal generation circuit,
CCD drive timing generator, AE control function,
AWB control function, LED light control function,
DWDR (gamma transition function),
For 270-k/320-k/410-k/470-k/
lens shading correction function,
520-k/610-kpixel CCDs
auto white blemish compensation function,
mirror image function,
OSD function (5 languages: En., Ch., Fr., Por., Sp.),
privacy mask function, highlight compensation,
motion detection function, 2D noise reduction,
high resolution function, AF detection value output,
NTSC/PAL analog output, Y/C analog output,
UYVY digital output (ITU-R BT656 compatible)
P-HQFN072-1010
CDS/PGA/ADC
+
DSP
CMOS Image Sensors/
CCDs
Description
*1 Support for only 290-kpixel CCD.
iSHDSP: The “iSHDSP” provides outstanding image quality with high-performance video signal processing, and is suitable with “iSHCCD” and “iSHCCD II” developed by
Sharp.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
13
Imaging
CCD PERIPHERAL ICs/LSIs
■ CCD Peripheral ICs/LSIs
Description
Model No.
IR3M59U
For 270-k/320-kpixel CCDs
IR3M63U
For 270-k/290-k/320-k/410-k/
470-kpixel CCDs
Input voltage range: 4.5 to 10 V,
PWM control + charge pump system,
output voltage: four outputs (15 V, –8 V, 3.3 V, 1.8 V),
power sequencing circuit, overcurrent protection circuit
Power supply IC for
CCDs and peripheral
ICs/LSIs
14
Features
Input voltage range: 4.5 to 16 V,
PWM control + charge pump system,
output voltage: three outputs (15 V/12 V, –8 V/–5 V, 3.3 V),
power sequencing circuit, overcurrent protection circuit
Package
P-VQFN032-0505
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Imaging
CCD PERIPHERAL ICs/LSIs
✩New product
●System Configuration Examples
<Color Security Camera System with Two-chip Configuration [Low Power Consumption Type]>
Analog output for NTSC/PAL
V driver
+
CDS/PGA/12-bit ADC
+
DSP
Power
supply
voltage
–8 V
Input voltage
4.5 to 10 V
Power Power Power
supply supply supply
voltage voltage voltage
1.8 V 3.3 V 15 V
Power supply IC
IR3M63U
Digital output for YUV
E2PROM
DSP serial control
* This system shows the configuration example for LR38654 below.
Four-power-supply CCDs and peripheral IC/LSIs
CCD
270 kpixels
320 kpixels
V driver + CDS/PGA/ADC + DSP
Power supply IC
CMOS Image Sensors/
CCDs
Four-power-supply
CCD
RJ2315DB0PB
RJ2315EA0PB
—
RJ2325DB0PB
RJ2325EA0PB
RJ2351CA0PB
1/3 type
410 kpixels
RJ2355CA0PB
RJ2355DA0PB
LR38653/LR38654
✩RJ2355EA0PB
RJ2361CA0PB
470 kpixels
RJ2365CA0PB
RJ2365DA0PB
✩RJ2365EA0PB
1/3.8 type
290 kpixels
270 kpixels
320 kpixels
RJ2411CA0PB
LR38654
RJ2411EB0PB
IR3M63U
RJ2411FA0PB
RJ2421EB0PB
RJ2421FA0PB
RJ2455CA0PB
1/4 type
410 kpixels
RJ2455DA0PB
LR38653/LR38654
✩RJ2455EA0PB
RJ2461CA0PB
470 kpixels
RJ2465CA0PB
RJ2465DA0PB
✩RJ2465EA0PB
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
15
Imaging
CCD PERIPHERAL ICs/LSIs
✩New product
<Color Security Camera System with Three-chip Configuration ( Ι )>
EEP ROM
Analog output for NTSC/PAL
Four-power-supply
CCD
CDS/PGA/12-bit ADC
+
DSP
LR36B15
V driver
Power
supply
voltage
3.3 V
Four-power-supply CCDs and peripheral ICs/LSIs
CCD
270 kpixels
320 kpixels
CDS/PGA/ADC + DSP + Video amplifier
RJ2315DB0PB
RJ2315EA0PB
RJ2325DB0PB
RJ2325EA0PB
RJ2351CA0PB
1/3 type
410 kpixels
RJ2355CA0PB
RJ2355DA0PB
✩RJ2355EA0PB
RJ2361CA0PB
470 kpixels
RJ2365CA0PB
RJ2365DA0PB
✩RJ2365EA0PB
270 kpixels
320 kpixels
LR36B15
RJ2411EB0PB
RJ2411FA0PB
RJ2421EB0PB
RJ2421FA0PB
RJ2455CA0PB
1/4 type
410 kpixels
RJ2455DA0PB
✩RJ2455EA0PB
RJ2461CA0PB
470 kpixels
RJ2465CA0PB
RJ2465DA0PB
✩RJ2465EA0PB
16
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Imaging
CCD PERIPHERAL ICs/LSIs
✩New product
<Color Security Camera System with Three-chip Configuration (ΙΙ)>
EEP ROM
Analog output for NTSC/PAL
Four-power-supply
CCD
CDS/PGA/12-bit ADC
+
DSP
Analog output for Y/C
Digital output for UYVY (ITU-R BT656 compatible)
Power
supply
voltage
3.3 V
Four-power-supply CCDs and peripheral ICs/LSIs
CCD
270 kpixels
320 kpixels
CDS/PGA/ADC + DSP + Video amplifier
RJ2315DB0PB
CMOS Image Sensors/
CCDs
LR36B16
V driver
RJ2315EA0PB
RJ2325DB0PB
RJ2325EA0PB
RJ2351CA0PB
410 kpixels
RJ2355CA0PB
RJ2355DA0PB
✩RJ2355EA0PB
RJ2361CA0PB
1/3 type
470 kpixels
RJ2365CA0PB
RJ2365DA0PB
✩RJ2365EA0PB
RJ2331AA0PB
520 kpixels
RJ2331BA0PB
RJ2331CA0PB
RJ2341AA0PB
610 kpixels
LR36B16
RJ2341BA0PB
RJ2341CA0PB
270 kpixels
320 kpixels
RJ2411EB0PB
RJ2411FA0PB
RJ2421EB0PB
RJ2421FA0PB
RJ2455CA0PB
410 kpixels
RJ2455DA0PB
✩RJ2455EA0PB
1/4 type
RJ2461CA0PB
470 kpixels
RJ2465CA0PB
RJ2465DA0PB
✩RJ2465EA0PB
520 kpixels
RJ2431AA0PB
610 kpixels
RJ2441AA0PB
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
17
SYSTEM LSIs /
GRAPHIC DISPLAY MODULE WITH LCDs
LSI
■ System LSIs
Model No.
LR35501
LR35503
Function
Features
One-chip graphic controller
One-chip graphic controller
• Built-in video encoder (NTSC/PAL)
• Composite signal output
• Analog RGB signal output
• Capable of moving picture transmission/play, thanks to real-time
image compression and extension technology
• Real images, backgrounds and sprites can be superimposed
• Built-in sprite graphic processor
• Built-in color object detector
• Built-in Bluetooth ® HCI controller
• Built-in sound generator (ADPCM/PSG)
• Built-in CMOS camera interface (9 MHz)
• CPU: Z80 compatible, 27 MHz
• Peripherals (NAND flash I/F, PIO, SIO, UART, ADC, PWM, etc.)
• Digital LCD interface (6-bit RGB), QVGA (320 x 240) compliant
• 27 MHz digital YUV video input
• Capable of moving picture transmission/play, thanks to real-time
image compression and extension technology
• Real images, backgrounds and sprites can be superimposed
• Built-in sprite graphic processor
• Built-in color object detector (Only for CMOS camera input)
• Built-in Bluetooth ® HCI controller
• Built-in sound generator (ADPCM/PSG)
• Built-in CMOS camera interface (9 MHz)
• CPU: Z80 compatible, 27 MHz
• Peripherals (NAND flash I/F, PIO, SIO, UART, ADC, PWM, etc.)
Supply voltage
(V)
Package
Core: 1.8±0.18
P-QFP128-1420
I/O: 3.3±0.3
Core: 1.8±0.18
P-LQFP144-2020
I/O: 3.3±0.3
Bluetooth is a trademark of Bluetooth SIG, Inc.
Z80 is a trademark of ZiLOG, Inc.
■ Graphic Display Module with LCDs
Model No.
18
Function
LR0G934
3.5′′ LCD graphic
display module
(incorporating
LR35503)
LR0G938
3.5′′ LCD graphic
display module with
touch panel function
(incorporating
LR35503)
Features
• LED backlight, QVGA (320 x 240), built-in 3.5′′ color TFT LCD
• Built-in LR35503 (one-chip graphic controller with built-in 8-bit CPU)
• Built-in 64-Mbit NOR flash
• Video input (composite NTSC)
• Built-in real-time clock (RTC)
• External interface
Video input, digital input/output (shared 2 ch UART), analog input (4 ch ADC),
sound output, battery backup terminal (RTC use)
• LED backlight, QVGA (320 x 240), built-in 3.5′′ color TFT LCD
• Touch panel function
• Built-in LR35503 (one-chip graphic controller with built-in 8-bit CPU)
• Built-in 64-Mbit NOR flash
• Video input (composite NTSC)
• Built-in real-time clock (RTC)
• External interface
Video input, digital input/output (shared 2 ch UART), analog input (4 ch ADC),
sound output, battery backup terminal (RTC use)
Supply voltage
(V)
Outline dimensions
(W × D)
(mm)
5±0.5
87.4 × 69.2
5±0.5
87.4 × 69.2
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LSI
ONE-CHIP GRAPHIC CONTROLLER
■ One-chip Graphic Controller <LR35501/LR35503>
LR35501/LR35503 are the system LSIs which enable smooth graphic display by graphic controller with built-in microcomputers and
device control and graphic display with one chip due to the microcomputers and various I/Os.
Common features
Sound output
Built-in versatile graphic functions
• Smooth imaging using sprite processor
• Capable of moving picture
transmission/play, thanks to real-time
image compression technology
• Real images, backgrounds and sprites
can be superimposed
Graphic expression with smooth movement is possible
Add sugar.
Built-in stereo sound circuit
• ADPCM decoder
• Programmable sound generator
Add 3 tablespoons of
sugar.
System LSIs
Warning using realistic alarm tone / audio is possible
Bluetooth®
CMOS camera interface
• CIF/QVGA UYVY input
CIF/QVGA CMOS imager can be connected
• Built-in HCI controller
• SPP, HID compliant
Smooth images transmission achieved by using Bluetooth®
General purpose I/O built-in PIO/UART/SIO/NAND flash interface/ADC/PWM/SPI, etc.
LR35501 features and functions
LR35503 features and functions
• Built-in video encoder (NTSC/PAL)
• Built-in analog RGB output
• Built-in composite video output
• Built-in digital LCD interface
(6-bit RGB QVGA [320 x 240])
• Built-in 27 MHz YUV digital video input
Intellectual training toy
Household electrical appliance
(Driving game)
Recipe guide using moving images
NEXT ➔
TV
Lion
LR35501
Smooth graphics achieved by simple circuits
Flash
(MROM)
Directly connected to TV (composite) output
TEMP :
200°C
TIME :
35 min.
LR35503
LCD
(QVGA)
Flash
(MROM)
Bluetooth is a trademark of Bluetooth SIG, Inc.
19
LSI
TOUCH PANEL SYSTEM
■ Touch Panel System
●Features
1. By adopting Sharp’s proprietary method, approximately eight times more sensitivity (comparison by Sharp)
has been achieved compared with the conventional sequential driving method.*
Capable of sensing a φ2 mm pen touch, multi-touch operation and touch operation using a glove.
2. Contributes to a thinner design of a touch panel display.
A thinner design is achievable because the design is insusceptible to the noise effect, which makes space for the sensor sheets and
the display modules unnecessary.
3. Common user interface from small to large screens allows for a reduction in software development cost.
* When comparing an S/N ratio of 3.58 determined through the conventional sequential driving method using pen-touch writing on a 20-inch screen with an S/N ratio of
30.65 determined through Sharp’s proprietary parallel driving method (measured by Sharp).
●System Configuration
Touch
panel,
up to 5
inches
Touch
panel,
10 to 15.6
inches
Touch
panel,
7 to 10
inches
LR388J7
LR388J6
HOST
HOST
Dedicated
controller
Touch panel,
above 32 inches
Touch panel,
20 to 32 inches
LR0G962
LR0G956
HOST
HOST
LR0G963
HOST
Product lines
●Application Examples
Interactive whiteboard
Table computer
Smart TV
PC monitor
Digital signage
Tablet
Notebook PC
Smartphone
eBook
Multiple people can input on the screen
simultaneously, which makes it more
useful on educational sites.
Multi-touch UI on a large screen
for browsing or layout editing.
Pen touch input
is possible.
Operation with a glove
is possible.
20
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LSI
TOUCH PANEL SYSTEM / SYSTEM LSIs /
TOUCH PANEL SYSTEM / TOUCH PANELCONTROLLER MODULE
★Under development
■ Touch Panel System / System LSIs
★LR388J7
LR388J6
Function
Touch panel controller for small-size
screens (up to 6 inches)
Touch panel controller for tablets
(up to 10 inches)
Features
• 5-finger multi-touch detection
• Scanning speed: 120 Hz
• Capable of sensing a φ2 mm pen touch
• I2C/SPI interface
• 10-finger multi-touch detection
• Scanning speed: 120 Hz
• Capable of sensing a φ2 mm pen touch
• I2C/SPI interface
• Use with dedicated controller (LR0P751)
Supply voltage
(V)
Package
I/O: 1.8±0.18
Analog: 2.6 to 3.6
P-VFBGA96P-0606
Core: 1.8±0.15
I/O: 3.3±0.3
Analog: 3.3±0.3
P-VFBGA176P-0909
Supply voltage
(V)
Outline dimensions
(W × D)
(mm)
5
150 × 10
5
60 × 80
5
130 × 130
(Main)
220 × 100
(AFE)
System LSIs
Model No.
■ Touch Panel System / Touch Panel Controller Module
Model No.
Function
LR0G962
Touch panel controller module
for midium-size screens
(10 to 15.6 inches)
LR0G956
Touch panel controller module
for midium-size screens
(15 to 32 inches)
LR0G963
Touch panel controller module
for large-size screens
(Over 32 inches)
Features
• 10-finger multi-touch detection
• Scanning speed: 240 Hz
• Capable of sensing a φ2 mm pen touch
• Built-in palm cancellation feature
• I2C/USB interface
• Built-in power supply circuit
• 10-finger multi-touch detection
• Scanning speed: 240 Hz
• Capable of sensing a φ2 mm pen touch
• Built-in palm cancellation feature
• USB interface
• Built-in power supply circuit
• 10-finger multi-touch detection
• Scanning speed: 240 Hz
• Capable of sensing a φ2 mm pen touch
• Built-in palm cancellation feature
• USB interface
• Built-in power supply circuit
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
21
LSI
TOUCH PANEL SYSTEM / SENSOR SHEETS
■ Touch Panel System / Sensor Sheets
Model No.
22
Function
LR0P759
19.5′′ sensor sheet (with cover glass)
LR0P779
31.5′′ sensor sheet (with cover glass)
LR0P760
70′′ sensor sheet (with cover glass)
T.B.D.
80′′ sensor sheet (with cover glass)
Features
• Original sensor pattern allows visibility suppression of moire patterns and electrode lines
• Suitable for larger screen sizes thanks to lower resistance
• Capable of ultra-slim frame design
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
REG
LOW POWER-LOSS VOLTAGE REGULATORS /
SURFACE MOUNT TYPE LOW POWER-LOSS VOLTAGE REGULATORS
■ Low Power-Loss Voltage Regulators
●TO-220 Type
(Ta = 25°C)
Absolute maximum ratings Electrical characteristics
Low dissipation
current at OFF state
±3
0.5
A
±2.5
1.0
A
3.3, 5,
9, 12
3.3, 5,
9, 12
24
1.4
15
Lead forming
available
Package
Variable output
voltage
Power
Input dissipation Output Output Dropout
(W)
voltage voltage voltage
voltage
Vin
Vo*3 precision VI-O*5
(V) TYP. (%)
(V)
(V)
Pd*1 Pd*2
Package
shape
type*7
2
20
PQ070VK01FZH
Minimum operating input
voltage: 2.35 V (5 terminals)
1
10
1.4
15
1.5 to 7
±2*4
0.5
PQ150RWA2SZH
ASO protection function
2
20
1.4
15
3.0 to
15
±2.5*4
1.0
o*6
B
o*6
B
o*6
B
PQ30RV11J00H
1
15
1.5
PQ30RV21J00H
Variable output voltage
PQ30RV31J00H
*1
*2
*3
*4
*5
*6
*7
2
3
1.5 to
30
18
35
2
±2*4
0.5
20
E
TO-220
A
Power Devices/
Analog ICs
1
ON/OFF control
PQxxxRDA1SZH series ASO protection function,
low dissipation current at
PQxxxRDA2SZH series OFF state (Iqs: 5 µA (MAX.))
Overcurrent
protection
Features
Overheat
protection
Model No.
Output
current
Io
(A)
Built-in functions
At self-cooling
With infinite heat sink attached
The xxx in the model No. refer to the output voltage values of the model (e.g. 050 for 5 V, 120 for 12 V, 015 for 1.5 V).
Reference voltage precision
Current ratings are defined individually.
o : Available by adding circuit
Refer to page 38
■ Surface Mount Type Low Power-Loss Voltage Regulators
●SOT-89 Type
(Ta = 25°C)
*1
*2
*3
*4
0.5
15
0.9
1.2, 1.5, 1.8,
2.5, 3.3, 5.0
±2.0
1.5 to 9.0
±2.0*4
Variable output
voltage
Output Dropout
voltage voltage
precision VI-O*3
(%)
(V)
Low dissipation
current at OFF state
PQ1LAX95MSPQ
Compact, high radiation package,
ceramic capacitor compatible
Ceramic capacitor compatible,
variable output voltage
Output
voltage
Vo*2
(V) TYP.
ON/OFF control
PQ1LAxx5MSPQ
Power
Output Input
dissipacurrent voltage
tion
Io
Vin
Pd*1
(A)
(V)
(W)
Features
Built-in functions
Overcurrent
protection
Model No.
Electrical characteristics
Overheat
protection
Absolute maximum
ratings
Package
SOT-89
0.7
When mounted on a board
The xx in the model No. refer to the output voltage values of the model (e.g. 25 for 2.5 V, 50 for 5.0 V).
Current ratings are defined individually.
Reference voltage precision
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
23
SURFACE MOUNT TYPE
LOW POWER-LOSS VOLTAGE REGULATORS
REG
●SC-63 Type (1) Output Voltage Fixed Type
Ceramic capacitor compatible,
ASO protection function,
low dissipation current at OFF
state (Iqs: 5 µA (MAX.)),
solder dip compatible lead shape
Minimum operating input voltage:
2.35 V,
ceramic capacitor compatible,
solder dip compatible lead shape
PQxxxGN1HZPH series
*1
*2
*3
*4
*5
8
8
10
5
PQxxxENAHZPH series
PQxxxGN01ZPH series
24
PQxxxENA1ZPH series
PQxxxENB1ZPH series
Minimum operating input voltage:
1.7 V (Dual power supply type),
ceramic capacitor compatible,
solder dip compatible lead shape
3.3, 5,
9, 12
1.0, 1.2
Low dissipation
current at OFF state
Variable output
voltage
ON/OFF control
Package
shape
type*5
–
G
–
G
0.3
–
SC-63
G
0.9
–
G
–
G
–
G
±2.5
0.5
1.5, 1.8,
2.5, 3.3
1.2, 1.5,
1.8, 2.5, ±2.0
3.3
1.5, 1.8,
2.5, 3.3
8
5.5
Package
Taped package
PQxxxDNA1ZPH series
Features
Built-in functions
Overheat
protection
Overcurrent
protection
Model No.
(Ta = 25°C)
Absolute maximum ratings Electrical characteristics
Output
current
Power Output Output
Input
Dropout
IO
dissi- voltage voltage
voltage
voltage
(A)
pation VO*2 preciVin
VI-O*4
Pd*1
sion
(V)
(V)
(V)
(W)
(%)
TYP.
0.5 1 1.5
±30
mV
–
With infinite heat sink attached
The xxx in the model No. refer to the output voltage values of the model (e.g. 033 for 3.3 V, 050 for 5 V, 120 for 12 V).
The value is defined as ±50 mV in some models.
Current ratings are defined individually.
Refer to page 38
●SC-63 Type (2) Output Voltage Variable Type
PQ070XNAHZPH
PQ070XNA2ZPH
Minimum operating input voltage:
2.35 V,
ceramic capacitor compatible,
solder dip compatible lead shape
PQ035ZN1HZPH
PQ200WNA1ZPH
PQ200WN3MZPH
*1
*2
*3
*4
24
(2 A)
8
Reference voltage (Vref): 0.6 V,
minimum operating input voltage:
1.7 V (Dual power supply type),
ceramic capacitor compatible,
solder dip compatible lead shape
Minimum operating input voltage:
3.5 V, ASO protection function,
low dissipation current at OFF
state (Iqs: 5 µA (MAX.)),
ceramic capacitor compatible,
solder dip compatible lead shape
Minimum operating input voltage:
5.5 V,
low dissipation current at OFF
state (Iqs: 5 µA (MAX.)),
(0.3)
ceramic capacitor compatible,
current limit: 800 mA
1.5 to 7
Low dissipation
current at OFF state
Variable output
voltage
Package
shape
type*4
0.5
G
0.9
G
0.5
G
0.3
G
–
G
–
G
G
±2.0*2
10
PQ070XNB1ZPH
PQ035ZN01ZPH
Package
Taped package
PQ070XNA1ZPH
ON/OFF control
Features
Built-in functions
Overheat
protection
Overcurrent
protection
Model No.
(Ta = 25°C)
Absolute maximum ratings Electrical characteristics
Output
current
Power Output Output
Input
Dropout
IO
dissi- voltage voltage
voltage
voltage
(A)
pation VO
preciVin
VI-O*3
Pd*1
(V)
sion
(V)
(V)
(W)
TYP.
(%)
0.5 1 1.5
5
1.2 to 7
0.8 to
3.5
5.5
±30
mV
SC-63
G
8
3.0 to
20
±2.5*2
24
6.8
5.0 to
20
0.5
With infinite heat sink attached
Reference voltage precision
Current ratings are defined individually.
Refer to page 38
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
SURFACE MOUNT TYPE LOW POWER-LOSS VOLTAGE REGULATORS /
SURFACE MOUNT TYPE CHOPPER REGULATORS
REG
●SOP-8 Type
(Ta = 25°C)
PQ1DX125MZPQ
Built-in sink source function
(For DDR II memory)
Built-in sink source function
(For DDR memory)
Output
current
Io
(A)
±0.8
Input
voltage
Vin
(V)
6
Power
dissipation
Pd*1
(W)
Output voltage
Vo
(V) TYP.
0.6
VDD x 1/2
(VDDQ: 1.5 V (MIN.))
VDD x 1/2
(VDDQ: 2.3 V (MIN.))
Output
voltage
precision*2
(mV)
Taped package
PQ1DX095MZPQ
Features
Built-in functions
Overcurrent
protection
Model No.
Electrical characteristics
Overheat
protection
Absolute maximum ratings
±25
±35
Package
SOP-8
*1 When mounted on a board
*2 Reference voltage precision
■ Surface Mount Type Chopper Regulators (DC-DC Converters)
Features
• High switching voltage: 40 V (MAX.)
• For tuner power supply
• Variable oscillation frequency
• Ceramic capacitor compatible
• PWM chopper regulator
(high oscillation frequency)
PQ1CN38M2ZPH
• Output ON/OFF control function
• Overcurrent/overheat protection circuits
• For light load
• PWM chopper regulator
PQ1CN41H2ZPH
(high oscillation frequency)
• Overcurrent/overheat protection circuits
• PWM chopper regulator
• Output ON/OFF control function
PQ1CZ21H2ZPH ▲ • Overcurrent/overheat protection circuits
• Low dissipation current at OFF state
(Standby current <ISD>: 1 µA (MAX.))
• Bootstrap system for high efficiency
(Efficiency 90% (TYP.))
PQ1CX41H2ZPQ
• Low voltage output: 0.8 V (MIN.)
• Ceramic capacitor compatible
• Bootstrap system for high efficiency
(Efficiency 89% (TYP.))
PQ1CX53H2MPQ
• Low voltage output: 0.8 V (MIN.)
• Ceramic capacitor compatible
• Bootstrap system for high efficiency
(Efficiency 88% (TYP.))
PQ1CX61H1ZPQ
• Low voltage output: 1.0 V (MIN.)
• Ceramic capacitor compatible
PQ6CU12X2APQ
3.0 to
5.5
(Ta = 25°C)
Electrical characteristics
Package
Output
voltage*2
Vo
(V)
Output
Oscillation
saturation
Output frequency
voltage
type
fo (Hz)
Vsat (V)
TYP.
TYP.
up to 36
Stepup
300 k to
800 k
Outline
shape
type*4
Ron
SOT-23-6W
TYP. 1.7Ω
0.25
0.35
0.8
8
Stepdown
300 k
0.9
8
VREF*3 to 35
4.5 to (step-down type)/ Step40
–VREF to –30
down
(inverting type)
300 k
0.9
8
Stepdown
100 k
0.9
0.8 to 20
Stepdown
400 k
RDSon
SOP-8
TYP. 0.45Ω
0.8 to 16
Stepdown
400 k
RDSon
USB-8
TYP. 0.15Ω
1.0 to 18.9
Stepdown
900 k
RDSon
SOP-8
TYP. 0.55Ω
Power Devices/
Analog ICs
Model No.
Absolute
maximum ratings
Input
Switch- Power
ing
dissipa- voltage
range
current
tion
Vin
Isw
Pd*1
(W)
(V)
(A)
G
SC-63
G
1.5
1.5
3.5
1.5
0.8
When 4.75 to
mounted
27
on board
2
When 4.75 to
mounted
27
on board
0.8
When 4.75 to
mounted
28
on board
F
*1 With infinite heat sink attached or when mounted on a board listed in the specification sheets.
*2 Output variable range (step-down/inversion).
*3 VREF nearly equal to 1.26 V
*4 Refer to page 38
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
25
CHOPPER REGULATORS /
POWER SUPPLY ICs FOR CCDs/CCD CAMERA MODULES
REG
■ Chopper Regulators (DC-DC Converters)
●TO-220 Type
(Ta = 25°C)
Model No.
Absolute
maximum ratings
Switch- Power Input
ing
dissipa- voltage
range
current
tion
Vin
Isw
Pd*1
(W)
(V)
(A)
Features
• PWM chopper regulator
(high oscillation frequency)
PQ1CG38M2FZH • Built-in overcurrent/overheat protection circuits
• For light load
• Output ON/OFF control function
• PWM chopper regulator
PQ1CG21H2FZH • Built-in overcurrent/overheat protection circuits
• Output ON/OFF control function
PQ1CG41H2FZH • PWM chopper regulator
(high oscillation frequency)
• Built-in overcurrent/overheat protection circuits
PQ1CG41H2RZH • Output ON/OFF control function
Electrical characteristics
Output voltage
Vo*2
(V)
Package
Output
Oscillation
saturation
Output frequency
voltage
type fo (kHz)
Vsat
TYP.
(V) TYP.
0.8*3
Outline
shape
type*5
300
0.95
E
100
1.0
E
300
1.0
1.5*3
14
VREF*4 to 35
(step-down type)/ Step–VREF*4 to –30 down
(inverting type)
40
E
TO-220
PQ1CG2032FZH
E
• PWM chopper regulator
• Built-in overcurrent/overheat protection circuits
PQ1CG2032RZH • Output ON/OFF control function
70
D
3.5*3
1.4
• PWM chopper regulator
(high oscillation frequency)
• Built-in overcurrent/overheat protection circuits
PQ1CG3032RZH • Output ON/OFF control function
E
PQ1CG3032FZH
*1
*2
*3
*4
*5
D
150
D
With infinite heat sink attached
Output voltage variable range
Peak current
VREF nearly equal to 1.26 V (TYP.)
Refer to page 38
■ Power Supply ICs for CCDs/CCD Camera Modules
Model No.
IR3M63U
No. of
output
circuits
4
Input
voltage
range
(V)
Output
voltage
(V)
System
15
Charge pump
Switching
frequency
(Hz)
Switching
transistor
200 k
–
26
–
–8
Negative charge pump
2.5 (DC)
–
3.3
Step-down type PWM + REG
120 (DC)
–
1.8
Step-down type PWM + REG
50 (DC)
–
15/12
Charge pump
12/20 (DC)
–
4.5 to 16
2.5/5 (DC)
–
150 (DC)
–
Package
P-VQFN032-0505
200 k
3
12 (DC)
4.5 to 10
1M
IR3M59U
Switching
Drive capacity
current (mA)
(pF)
[Built-in SW Tr] [External SW Tr]
–8/–5
Negative charge pump
3.3
Step-down type PWM + REG
1M
Built-in
–
Built-in
P-VQFN032-0505
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Analog
LED DRIVERS
■ LED Drivers
●Built-in Step-up Circuit (1)
PQ6CB11X1CP
PQ7L2020BP
IR2E69Y
IR2E56U6
IR2E58U
IR2E65U
Function
Features
Input
Constant
No. of
Number Booster
Switching voltage
output
current
of LEDs method
transistor range
circuits
circuit
(V)
• High voltage CMOS output: 30 V (MAX.)
6
• Output ON/OFF control function
1
(Series
• Overvoltage/overcurrent protection circuits
connection)
• Soft start function
White LED driver
•
High
voltage
CMOS
output:
37
V
(MAX.)
for backlight
PWM
(for small panels) • Output ON/OFF control function
9
• Overvoltage/overcurrent protection circuits
1
(Series
• Soft start function
connection)
• Possible to use a low-capacity (0.1 µF)
output capacitor
• 2 ch (11 LEDs x 1 ch or 6 LEDs x 2 ch)
LED driver for backlight
• Auto brightness adjustment backlight LED
• 3 ch RGB LED driver for illumination
LED driver for
• Built-in step-up DC-DC controller and
Backlight Backlight
backlight and
switching transistor
2
12
call alert display
PWM
• Built-in LCD power supply
RGB
RGB
(auto brightness
(+5.95 V / -5.95 V MAX.)
3
3
adjustment)
• LDO 1 ch
• Interface for digital-output proximity sensor
• Interface for analog-output ambient light
sensor
• Capable of driving a maximum of 72 LEDs
with 12 LEDs (in series) per channel
• Built-in step-up DC-DC controller
• High oscillation frequency (1.5 MHz) makes
use of a small coil possible
6
72
• Capable of controlling brightness using
PWM control
• Step-up output control according to LED-Vf
• Built-in sequential drive mode for output
current
• Capable of driving a maximum of 96 LEDs
with 12 LEDs (in series) per channel
• Built-in step-up DC-DC converter
White LED driver
PWM
• High oscillation frequency (1.5 MHz) makes
8
96
for backlight
use of a small coil possible
• Capable of controlling brightness using
PWM control
• Step-up output control according to LED-Vf
• Capable of driving a maximum of 120 LEDs
with 12 LEDs (in series) per channel
• Built-in step-up DC-DC controller
• High oscillation frequency (1.5 MHz) makes
use of a small coil possible
10
120
• Wider range of PWM brightness control
possible, from simultaneous total output
control to local dimming
• Step-up output control according to LED-Vf
Output*3
current
(mA)
MAX.
Oscillation
frequency
(Hz)
TYP.
Package
*1
2.7 to
250*2 1.2 M USB-6
5.5
*1
2.9 to
5.5
External
500
1.0 M USB-6
Backlight 500 k
3 to
25.7/ch to
35WL-CSP
4.2
RGB 1 M
12.7/ch
25/ch
200 k
to
32VQFN
1.5 M
4.5 to
40/ch
28
500 k
to
24HQFN
1.5 M
External
10 to
100/ch
28
500 k
to
52HQFN
1.5 M
5 to
28
Power Devices/
Analog ICs
Model No.
*1 LED constant current value can be set by external resistors.
*2 Peak switching current
*3 Constant current (MAX.)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
27
Analog
LED DRIVERS
●Built-in Step-up Circuit (2)
Model No.
IR2E67M
IR2E70N
*1
*2
*3
*4
*5
*6
28
Function
Features
• Built-in 10 ch. constant-current control
amplifier (external output transistor)
• Enables driving LEDs up to external
transistor voltage limit
White LED driver
• Built-in timing controller for lighting
for backlight
• Wider range of PWM brightness control
possible, from simultaneous total output
control to local dimming
• Step-up output control according to LED-Vf
• Built-in step-up DC-DC controller for 2 ch
individual control
• Capable of 2 ch individual PWM brightness
control
White LED driver
• LED current value adjustable by external
for backlight
signal (voltage input / PWM signal)
• Brightness control possible at high contrast
ratio 3000:1
• Step-up output control according to LED-Vf
Input
Constant
No. of
Number Booster
Switching voltage
output
current
of LEDs method
transistor range
circuits
circuit
(V)
Output*1
current
(mA)
MAX.
Oscillation
frequency
(Hz)
TYP.
–
10
*2
*3
*4
External
4.5 to
5.5
*5
2
*2
PWM
*6
External
4.5 to
5.5
8 to
28
*5
Package
80LQFP1420
100 k
to
24SSOP
500 k
Constant current (MAX.)
Determined by external transistor voltage limit.
Built-in feedback voltage-generating circuit for external power supply.
Built-in constant-current control amplifier (external output transistor)
Determined by external resistor.
Constant current can be controlled by LED anode voltage control.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
AC-DC CONVERSION TYPE ICs FOR LED LIGHTING /
POWER AMPLIFIERS FOR WIRELESS LAN / FRONT-END MODULE FOR WIRELESS LAN
Analog/RF
✩New product
■ AC-DC Conversion Type ICs for LED Lighting
Model No.
✩IR3M92N4
Operating
Supply
Dissipation
temperature
voltage range
current
range
(V)
(mA)
(°C)
Features
Overvoltage/overheat/overcurrent circuits,
high-speed activation, stand-by feature,
PWM brightness control
−30 to +100
10 to 18
Switching
frequency
(kHz)
1
160
Load driving
capacity
(Ω)
LO
HI
60
15
System
Package
Flyback
Step-down
SOP-8
■ Power Amplifiers for Wireless LAN
IRM068U7
QM2A1UA003
IRM053U7
QM2A1UA004
Supply
voltage
Vcc (V)
TYP.
Application
Control
voltage
Vbb (V)
TYP.
For 2.4 GHz single-band wireless LAN
(IEEE802.11b/g/n)
For 5 GHz single-band wireless LAN
(IEEE802.11a/n)
Linear
output
power*1
(dBm)
Dissipation
current
(mA)
TYP.
Gain
(dB)
TYP.
Detection
circuit
Matching
circuit
18
115
27
20
150
28
18
170
30
20
225
31
Built-in
(IN)
Built-in
(IN)
Built-in
(IN/OUT)
Built-in
(IN/OUT)
18
130
30
18
160
30
Built-in
(IN/OUT)
17
100
28
17
140
30
2.8
3.3
IRM065U7
For 2.4/5 GHz dual-band wireless LAN
(IEEE802.11a/b/g/n)
IRM067U6
Package
(mm)
HQFN6 pin
(1.5 × 1.5 × 0.4 mm)
HQFN10 pin
(2 × 2 × 0.4 mm)
Power Devices/
Analog ICs
Model No.
HQFN16 pin
(3 × 3 × 0.4 mm)
Built-in
(IN/OUT)
2.9
*1 At time of OFDM 64QAM modulating wave input.
■ Front-End Modules for Wireless LAN
Model No.
Application
Front-end IC for 2.4 GHz
QM2A1UB015 wireless LAN (802.11b/g/n)
(SP3T SW + PA + LNA)
Front-end IC for 5 GHz
QM2A1UB011 wireless LAN (802.11a/n)
(SPDT SW + PA + LNA)
Features
• Built-in detection circuit,
high efficiency / high linearoutput power amplifier
• Low-noise amplifier with
bypass mode
• Built-in input/output matching
circuit
• Compact and thin package
• Built-in detection circuit,
Front-end IC for 2.4 GHz
high efficiency / high linearQM2A1UB028 wireless LAN (802.11b/g/n/ac) output power amplifier
(SP3T SW + PA + LNA)
• .11ac-compliant low EVM
design
• Low-noise amplifier with
Front-end IC for 5 GHz
bypass mode
QM2A1UB029 wireless LAN (802.11a/n/ac)
• Built-in input/output matching
(SPDT SW + PA + LNA)
circuit
• Compact and thin package
Transmitter section
Receiver section
Supply Control EVM
Gain:
Dissipation
Noise
voltage voltage
Normal/
(%)/
current
Gain
figure
(V)
(V)
Bypass
Output
(mA)/
(dB)
(dB)
TYP.
TYP.
(dB)
power Output power TYP.
TYP.
TYP.
(dBm)
(dBm)
3.3/2.9 2.5/18*1
150/18
27
2
12/-5
2.5/18*1
195/18
28
2.5
12/-5
Package
3.6
3.3
3.6
2/19*2
200/19
27
2
13/-5.5
2/18*3
180/18
28
2.5
13/-7
HQFN16 pin
(2.5 × 2.5 ×
0.4 mm)
3.3
*1 OFDM 54 Mpps at 64QAM input
*2 MCS7 HT20 at 64QAM input
*3 MCS7 HT40 at 64QAM input
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
29
LSI
CSP
■ CSP
●CSP (Chip Size Package)
The FBGA (commonly known as CSP) has an area array terminal structure with solder balls on the
bottom, to give it a near chip-size footprint. This high-density, compact and low-profile package
technology will greatly help in the design of compact mobile equipment, such as mobile phones and
digital cameras.
●
FBGA (CSP)
Compact and lightweight
Ability to create a near-chip size and lighter-weight package in comparison with conventional plastic packages.
●
High reliability
Comparable high reliability with that of conventional plastic packages.
Features
●
Mountability
Conventional mounting system is available for CSP. SOP and QFP can be mounted together with CSP.
Terminal pitch
0.8 mm
0.65 mm
0.5 mm
0.4 mm
Maximum terminal counts
352 (16 mm x 16 mm)
352 (16 mm x 16 mm)
372 (16 mm x 16 mm)
264 (10 mm x 10 mm)
Nominal dimensions
5 mm x 5 mm to 10 mm x 10 mm
6 mm x 6 mm to 16 mm x 16 mm
Gold wire
IC
Mold resin
Package height
0.8 mm to 1.5 mm (MAX.)
Cross
section
example
Substrate
Cu pattern
Solder ball
Terminal pitch : 0.8 mm
0.65 mm
0.5 mm
0.4 mm
Diameter : 0.45 mm
0.4 mm
0.3 mm
0.25 mm
●Wafer-level CSP
The wafer-level CSP (WL-CSP) is a kind of chip-size package which is manufactured by assembling directly onto the finished wafer.
●
Compact and thinner size
It makes it possible to create an almost IC-size and lighter-weight package.
●
Features
Mountability
The conventional CSP mounting system can be also used in that of wafer-level CSP, which facilitates chip
mounting more than bare-chip mounting does. It can be mounted together with other existing packages and
passive components.
Chip size*
4 mm x 4 mm
3.5 mm x 3.5 mm
3 mm x 3 mm
Pad pitch
0.5 mm
0.4 mm
0.5 mm
0.4 mm
0.5 mm
0.4 mm
Maximum terminal counts
49 (7 x 7)
81 (9 x 9)
36 (6 x 6)
49 (7 x 7)
25 (5 x 5)
36 (6 x 6)
* Rectangular chip form is also available.
Cu pattern
IC
Cross
section
example
Package height
0.5 mm to 1 mm (MAX.)
Passivation layer
Solder ball
30
LSI
SiP
■ SiP (System in Package)
●
Wide variety of lineup
It is possible to provide a wide lineup of stacked CSPs, including 2-chip, 3-chip, 4-chip and 5-chip stacked
CSPs, to respond to customer needs.
●
Compact and thinner size
Encapsulating multiple ICs into an existing plastic package contributes to decreasing the mounting area. In
addition, SHARP’s wafer thinning technology makes it possible to achieve 1.4 mm (MAX.) package height.
●
Multiple functions
Multiple ICs of different sizes and functions, such as logic LSIs and memories, can be incorporated in a
single package, making possible multiple functions.
●
Same-size IC stacking technology
SHARP's stacking technology enables stacking of multiple same-size ICs, contributing to higher memory
density.
Features
Packages
System in Package is SHARP’s original high-density mounting technology that achieves high-density memory capacity and multiple
functions by stacking multiple ICs or multiple packages. The System in Package technology means chip-stacked package technology
that can achieve up to 5-chip mounting by stacking ICs in a single package. The System in Package technology contributes to higher
functionality of applications, such as mobile phones and digital cameras, as well as to reduction in size and weight.
●Chip Stacked CSP
(4-chip stacked CSP)
When using a SHARP four-chip stacked CSP, the mounting area and weight of a package can be
decreased by half in comparison with using two 2-chip stacked CSPs, or a 3-chip stacked CSP and a
conventional CSP.
(5-chip stacked CSP)
Gold wire
IC
Mold resin
Cross
section
example
Package height
1.4 mm (MAX.)*
1.6 mm (MAX.)*
Cu pattern
Substrate
Diameter : 0.45 mm
0.30 mm
Solder ball
Terminal pitch : 0.8 mm
0.5 mm
* At 0.8 mm terminal pitch
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
31
LSI
SiP
●Chip Stacked TSOP/QFP*/VQFN/HQFN
●
Decreased mounting area
By encapsulating two identical or different types of ICs into a single conventional plastic package, the
mounting area of the package can be decreased.
●
Multiple functions
Thanks to the incorporation of different sizes and functions of multiple ICs, such as logic LSIs and
memories, the functionality increases.
●
Higher memory density
When incorporating two identical memory ICs into a single package, memory density doubles on the
same mounting area.
Features
(TSOP, QFP*)
(Hamburger type)
(Turtle stack type)
IC
Cross
section
example
Gold wire
IC
Gold wire
(HQFN)
(VQFN)
Gold wire
Mold resin
Gold wire
Package height
1.0 mm (MAX.)
Mold resin
Package height
1.0 mm (MAX.)
* Including TQFP and LQFP.
32
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LSI
PACKAGE LINEUP
■ Package Lineup
●Surface-Mount Type
Appearance
(Package material)
Package code
No. of terminals
Package depth & width
Terminal pitch Nominal dimensions
(D x W) x
mm
mm
(seated height [MAX.]) mm
P-LFBGA048-0606
P-TFBGA048-0608
48
P-TFBGA048-0808
P-TFBGA056-0808
56
P-TFBGA060-0811
60 (48)*
P-TFBGA064-0811
64
P-TFBGA072-0811
P-LFBGA072-0811
81
P-LFBGA085-0811
85
P-LFBGA087-0811
87
P-LFBGA088-0912
FBGA
(CSP)
D
W
(Plastic)
6.0 x 6.0 x (1.4)
6x 8
6.0 x 8.0 x (1.2)
8x 8
8.0 x 8.0 x (1.2)
8 x 11
72 (64)*
P-TFBGA081-0808
P-LFBGA088-0811
6x 6
8.0 x 11.0 x (1.2)
8.0 x 11.0 x (1.4) / (1.6)
88
8x 8
8.0 x 8.0 x (1.2)
8 x 11
8.0 x 11.0 x (1.4) / (1.6)
9 x 12
9.0 x 12.0 x (1.4) / (1.6)
8 x 11
8.0 x 11.0 x (1.4) / (1.6)
P-LFBGA090-0811
90
P-TFBGA096-1010
96
P-LFBGA107-0912
107
P-TFBGA111-1010
111
P-TFBGA112-1010
112
P-LFBGA115-0914
115
9 x 14
9.0 x 14.0 x (1.4) / (1.6)
P-LFBGA116-1010
116
10 x 10
10.0 x 10.0 x (1.4) / (1.6)
P-LFBGA130-1013
130
10 x 13
10.0 x 13.0 x (1.4) / (1.6)
P-TFBGA144-1111
144
11 x 11
11.0 x 11.0 x (1.2)
P-TFBGA160-1212
160
12.0 x 12.0 x (1.2)
P-LFBGA168-1212
168
12.0 x 12.0 x (1.4) / (1.6)
P-TFBGA180-1212
180
P-TFBGA184-1212
184
P-TFBGA240-1414
240
P-LFBGA280-1616
280
P-LFBGA352-1616
352
0.8
10 x 10
10.0 x 10.0 x (1.2)
9 x 12
9.0 x 12.0 x (1.4) / (1.6)
10 x 10
10.0 x 10.0 x (1.2)
12 x 12
Packages
Package
type
12.0 x 12.0 x (1.2)
14 x 14
14.0 x 14.0 x (1.2)
16 x 16
16.0 x 16.0 x (1.5)
6.0 x 6.0 x (1.2)
P-TFBGA064-0606
64
6x 6
P-LFBGA140-0909
140
9x 9
9.0 x 9.0 x (1.4)
P-LFBGA160-1010
160
10 x 10
10.0 x 10.0 x (1.4) / (1.6)
P-TFBGA180-1313
180
P-LFBGA192-1010
192
P-LFBGA208-1212
208
P-LFBGA224-1313
224
P-TFBGA260-1313
260
0.65
13 x 13
13.0 x 13.0 x (1.2)
10 x 10
10.0 x 10.0 x (1.4) / (1.6)
12 x 12
12.0 x 12.0 x (1.4) / (1.6)
13 x 13
13.0 x 13.0 x (1.4) / (1.6)
13.0 x 13.0 x (1.2)
* Figures in brackets indicate available terminal counts.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
33
LSI
PACKAGE LINEUP
●Surface-Mount Type (cont’d)
Package
type
Appearance
(Package material)
Package code
No. of terminals
P-VFBGA057-0505
57
P-VFBGA075-0505
75
P-TFBGA064-0606
64
P-TFBGA068-0606
68
P-VFBGA081-0606
81
P-TFBGA084-0606
84
Package depth & width
Terminal pitch Nominal dimensions
(D x W) x
mm
mm
(seated height [MAX.]) mm
5x 5
6.0 x 6.0 x (1.1)
6x 6
6.0 x 6.0 x (0.9)
7.0 x 7.0 x (0.9)
100
7.0 x 7.0 x (1.1)
P-TFBGA100-0707
P-VFBGA108-0707
P-TFBGA108-0707
P-VFBGA120-0707
P-TFBGA120-0707
7.0 x 7.0 x (0.9)
108
7x 7
132
P-TFBGA133-0808
133
7.0 x 7.0 x (1.1)
8.0 x 8.0 x (1.1)
8x 8
P-VFBGA144-0808
144
P-TFBGA152-0808
D
W
P-VFBGA171-0811
P-LFBGA171-0811
P-VFBGA176-0909
P-TFBGA176-0909
P-TFBGA180-0909
P-TFBGA188-0909
P-VFBGA188-1111
P-VFBGA208-1010
P-TFBGA208-1010
P-TFBGA245-1010
P-LFBGA245-1010
(Plastic)
34
8.0 x 8.0 x (0.9)
8.0 x 8.0 x (1.3) / (1.5)
0.5
8 x 11
8.0 x 11.0 x (1.3)
152
8x 8
8.0 x 8.0 x (1.1)
171
8 x 11
P-LFBGA144-0811
FBGA
(CSP)
7.0 x 7.0 x (1.1)
7.0 x 7.0 x (0.9)
120
P-TFBGA132-0707
P-LFBGA144-0808
6.0 x 6.0 x (0.9)
6.0 x 6.0 x (1.1)
P-VFBGA100-0606
P-VFBGA100-0707
5.0 x 5.0 x (0.9)
9.0 x 9.0 x (0.9)
176
9x 9
180
188
11 x 11
10 x 10
245
424
P-WFBGA144-0606
144
P-WFBGA121-0606
121
P-WFBGA145-0606
145
P-TFBGA168-0707
168
P-TFBGA204-0808
204
P-WFBGA205-0808
205
P-WFBGA261-0808
261
9.0 x 9.0 x (1.1)
11.0 x 11.0 x (0.9)
10.0 x 10.0 x (0.9)
208
P-FBGA424-1414
8.0 x 11.0 x (0.9)
8.0 x 11.0 x (1.3) / (1.5)
10.0 x 10.0 x (1.1)
10.0 x 10.0 x (1.3)
14 x 14
14.0 x 14.0 x (1.8)
6.0 x 6.0 x (0.75)
6x 6
0.4
7x 7
6.0 x 6.0 x (0.8)
7.0 x 7.0 x (1.0)
8.0 x 8.0 x (1.0)
8x 8
8.0 x 8.0 x (0.8)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LSI
PACKAGE LINEUP
●Surface-Mount Type (cont’d)
Appearance
(Package material)
No. of terminals
P-TFBGAXXX-0606
to 36
6x 6
6.0 x 6.0 x (1.2)
P-TFBGAXXX-0707
to 49
7x 7
7.0 x 7.0 x (1.2)
P-TFBGAXXX-0808
to 81
8x 8
8.0 x 8.0 x (1.2)
P-TFBGAXXX-0909
to 100
9x 9
9.0 x 9.0 x (1.2)
P-TFBGAXXX-1010
to 121
10 x 10
10.0 x 10.0 x (1.2)
P-TFBGAXXX-1111
to 144
11 x 11
11.0 x 11.0 x (1.2)
P-TFBGAXXX-1212
to 196
12 x 12
12.0 x 12.0 x (1.2)
P-TFBGAXXX-1313
to 216
13 x 13
13.0 x 13.0 x (1.2)
14 x 14
14.0 x 14.0 x (1.2)
15 x 15
15.0 x 15.0 x (1.2)
P-TFBGAXXX-1414
P-TFBGAXXX-1515
FBGA
(CSP)
D
W
(Plastic)
PBGA
(BGA)
(Plastic)
0.8
to 240
P-TFBGAXXX-1616
to 352
16 x 16
16.0 x 16.0 x (1.2)
P-TFBGAXXX-0606
to 49
6x 6
6.0 x 6.0 x (1.2)
P-TFBGAXXX-0707
to 81
7x 7
7.0 x 7.0 x (1.2)
P-TFBGAXXX-0808
to 121
8x 8
8.0 x 8.0 x (1.2)
P-TFBGAXXX-0909
to 144
9x 9
9.0 x 9.0 x (1.2)
P-TFBGAXXX-1010
to 196
10 x 10
10.0 x 10.0 x (1.2)
P-TFBGAXXX-1111
to 224
11 x 11
11.0 x 11.0 x (1.2)
P-TFBGAXXX-1212
to 256
12 x 12
12.0 x 12.0 x (1.2)
P-TFBGAXXX-1313
to 272
13 x 13
13.0 x 13.0 x (1.2)
P-TFBGAXXX-1414
to 304
14 x 14
14.0 x 14.0 x (1.2)
P-TFBGAXXX-1515
to 320
15 x 15
15.0 x 15.0 x (1.2)
P-TFBGAXXX-1616
to 352
16 x 16
16.0 x 16.0 x (1.2)
P-TFBGAXXX-0606
to 100
6x 6
6.0 x 6.0 x (1.1)
P-TFBGAXXX-0707
to 132
7x 7
7.0 x 7.0 x (1.1)
P-TFBGAXXX-0808
to 164
8x 8
8.0 x 8.0 x (1.1)
P-TFBGAXXX-0909
to 192
9x 9
9.0 x 9.0 x (1.1)
P-TFBGAXXX-1010
to 216
10 x 10
10.0 x 10.0 x (1.1)
P-TFBGAXXX-1111
to 244
11 x 11
11.0 x 11.0 x (1.1)
P-TFBGAXXX-1212
to 268
12 x 12
12.0 x 12.0 x (1.1)
P-TFBGAXXX-1313
to 296
13 x 13
13.0 x 13.0 x (1.1)
P-TFBGAXXX-1414
to 320
14 x 14
14.0 x 14.0 x (1.1)
P-TFBGAXXX-1515
to 348
15 x 15
15.0 x 15.0 x (1.1)
P-TFBGAXXX-1616
to 372
16 x 16
16.0 x 16.0 x (1.1)
P-TFBGAXXX-0505
to 100
5x 5
5.0 x 5.0 x (1.0)
P-TFBGAXXX-0606
to 144
6x 6
6.0 x 6.0 x (1.0)
P-TFBGAXXX-0707
to 168
7x 7
7.0 x 7.0 x (1.0)
P-TFBGAXXX-0808
to 204
8x 8
8.0 x 8.0 x (1.0)
P-TFBGAXXX-0909
to 228
9x 9
9.0 x 9.0 x (1.0)
P-TFBGAXXX-1010
to 264
10 x 10
10.0 x 10.0 x (1.0)
1.0
21 x 21
21.0 x 21.0 x (2.2)
1.27
35 x 35
35.0 x 35.0 x (2.63)
P-BGA0356-2121
356
P-BGA0476-3535
476
P-BGA0528-3535
528
D
W
Package depth & width
Terminal pitch Nominal dimensions
(D x W) x
mm
mm
(seated height [MAX.]) mm
Package code
0.65
0.5
0.4
Packages
Package
type
XXX: Terminal counts
BGA is a trademark of Motorola Nippon Ltd.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
35
LSI
PACKAGE LINEUP
●Surface-Mount Type (cont’d)
Package
type
Appearance
(Package material)
W
Package code
P-SSOP008-0150
No. of
terminals
8
SSOP
Package depth & width
Lead frame material
(D x W) x
Alloy42
Copper alloy
(seated height [MAX.]) mm
4.5 (150)
3.0 x 3.0 x (1.1)
–
7.0 (275)
6.0 x 7.8 x (1.27)
–
0.65
(Plastic)
D
W
P-SSOP024-0275
24
P-TSOP048-1220
48
TSOP
12 x 20
12.0 x 18.4 x (1.2)
14 x 20
14.0 x 18.4 x (1.2)
0.5
(Plastic)
D
QFP
W
LQFP
D
TQFP
(Plastic)
VQFN
W
D
HQFN*
(Plastic)
P-TSOP056-1420
56
P-QFP048-0707
48
P-QFP072-1010
72
P-LQFP080-1212
80
P-LQFP100-1414
100
P-TQFP048-0707
48
P-TQFP100-1414
100
P-TQFP128-1414
128
P-VQFN020-0404
20
P-VQFN024-0404
24
P-VQFN028-0505
28
P-VQFN032-0505
32
P-VQFN036-0606
0.5
0.5
0.5
0.4
10 x 10
10.0 x 10.0 x (1.8)
–
12 x 12
12.0 x 12.0 x (1.7)
–
14 x 14
14.0 x 14.0 x (1.7)
–
7x 7
7.0 x 7.0 x (1.2)
–
–
7x 7
14 x 14
4x 4
7.0 x 7.0 x (1.65)
14.0 x 14.0 x (1.2)
4.2 x 4.2 x (1.0)
–
–
–
–
–
5x 5
5.2 x 5.2 x (1.0)
36
6x 6
6.2 x 6.2 x (1.0)
–
P-VQFN048-0707
48
7x 7
7.2 x 7.2 x (1.0)
–
P-VQFN036-0505
36
5x 5
5.2 x 5.2 x (1.0)
–
P-VQFN052-0707
52
7x 7
7.2 x 7.2 x (1.0)
–
P-HQFN020-0404
20
4.0 x 4.0 x (1.0)
–
4.0 x 4.0 x (0.85)
–
4.2 x 4.2 x (1.0)
–
5x 5
5.0 x 5.0 x (1.0)
–
7x 7
7.2 x 7.2 x (1.0)
–
P-HQFN024-0404
24
P-HQFN028-0505
28
P-HQFN052-0707
52
* HQFN is a higher heat dissipation package of VQFN.
36
Terminal pitch Nominal dimensions
mm (mil)
mm (mil)
0.5
0.4
0.5
0.4
4x 4
100 mil = 2.54 mm
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
Imaging
PACKAGE LINEUP
●For CCDs
Package
type
Appearance
(Package material)
W
Package code
No. of
terminals
Terminal pitch
mm
Nominal dimensions
mm (mil)
Package depth & width
(D x W) x
(seated height [TYP.]) mm
P-DIP014-0400A
14
1.27
10.16 (400)
10.0 x 10.0
1.27
11.43 (450)
11.4 x 12.2
1.78
12.7 (500)
12.4 x 14.0
P-DIP016-0450
16
P-DIP016-0500C
DIP
D
(Plastic)
W
SOP
P-DIP024-0400
24
0.80
10.16 (400)
10.0 x 10.0
P-DIP028-0566
28
1.11
14.4 (566)
14.2 x 16.0
P-SOP014-0400A
14
1.27
12 (470)
10.0 x 10.0 x (4.1)
P-SOP028-0400
28
0.69
10.16 (400)
10.0 x 10.0 x (3.5)
P-SOP032-0525
32
0.78
13.3 (525)
12.0 x 13.8 x (3.92)
0.65
8.9
8.3 x 8.9 x (1.52)
0.80
11.0
11.0 x 11.0 x (1.62)
(Plastic)
Packages
D
W
N-LCC040-R350 (B)
LCC
40
D
N-LCC040-S433A
(Ceramic)
100 mil = 2.54 mm
●For CMOSs
Package
type
Appearance
(Package material)
Package code
No. of
terminals
Terminal pitch
mm
Nominal dimensions
mm (mil)
Package depth & width
(D x W) x
(seated height [TYP.]) mm
P-LCC072-S394
72
0.6
10 (394)
10.0 x 10.0 x (1.48)
N-LCC120-R898
120
0.65
22.8 (898)
20.0 x 22.8 x (2.67)
W
LCC
D
(Plastic)
W
LCC
D
(Ceramic)
100 mil = 2.54 mm
Nominal dimensions
FBGA (CSP)
PBGA (BGA)
VQFN
HQFN
SOP
SSOP
MFP
TSOP
DIP
LCC
QFP
LQFP
TQFP
FBGA : fine-pitch ball grid array package
MFP
PBGA : plastic ball grid array package
TSOP : thin small outline package
VQFN : very thin quad flat non-leaded package
SOP
QFP
HQFN : heat sink quad flat non-leaded package
: small outline package
SSOP : shrink small outline package
: mini flat package
: quad flat package
LQFP : low profile quad flat package
TQFP : thin quad flat package
DIP
: dual inline package
LCC
: leadless chip carrier
Ball Grid Array and BGA are trademarks of Motorola Nippon Ltd.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
37
REG
PACKAGE LINEUP
●Lead-Inserting Type Packages [For regulators: PQ series]
Appearance
(Package material)
Package type
No. of
terminals
Terminal pitch
mm
Outline dimensions
(Width x Thickness x Height) mm
Lead frame
material
4
2.54
10.2 (MAX.) x 4.5 x 29.1*2
Cu
4
2.54
10.2 (MAX.) x 4.5 x 29.1*2
Cu
5
(1.7)*1
10.2 (MAX.) x 4.5 x 24.6*2
Cu
5
(1.7)*1
10.2 (MAX.) x 4.5 x 24.6*2
Cu
5
(1.7)*1
10.2 (MAX.) x 4.5 x 24.6*2
Cu
A
TO-220
(Plastic)
B
TO-220
(Full mold)
(Plastic)
C
TO-220
(Full mold)
[Lead forming type]
(Plastic)
D
TO-220
[Lead forming type]
(Plastic)
E
TO-220
[Lead forming type]
(Plastic)
*1 The figure in parentheses indicates reference value.
*2 Including lead length
●Surface-Mount Type Packages [For regulators/LED drivers: PQ series]
Appearance
(Package material)
Package type
No. of
terminals
Terminal pitch
mm
Outline dimensions
(Width x Height x Thickness) mm
Lead frame
material
5
(Heat sink included)
(1.27)*1
6.6 (MAX.) x 9.7 (MAX.)*2 x 2.1
Cu
8
1.27
5 x 6.2*2 x 1.55*2
Cu
6
1.5
4.5 x 4.3*2 x 1.5
Cu
F
SC-63
(Plastic)
SOP-8
(Plastic)
SOT-89
(Plastic)
*1 The figure in parentheses indicates reference value.
*2 Including lead length
38
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
REG
PACKAGE LINEUP
●Surface-Mount Type Packages [For regulators/LED drivers: PQ series] (cont’d)
No. of
terminals
Terminal pitch
mm
Outline dimensions
(Width x Height x Thickness) mm
Lead frame
material
6
0.95
2.9 x 2.8*2 x 1.3
Cu
6
0.95
2.9 x 2.8*2 x 1.3
Cu
6
(0.95)*1
(3.4)*1 x 3.3*2 x 1.4 (MAX.)
Cu
5
(0.95)*1
(2.9)*1 x 2.8*2 x 1.3 (MAX.)
Cu
USB-6
6
0.5
2.0 x 1.8 x 0.8
Cu
(Terminal material)/
Au plating
(Terminal finish)
USB-8
9
(Including radiating fin)
1.0
5.0 x 4.5 x 0.75 (MAX.)
Cu
Package type
Appearance
(Package material)
SOT-23-6
(Plastic)
SOT-23-6W
(Plastic)
SOT-23-L
SOT-23-5
Packages
(Plastic)
(Plastic)
*1 The figure in parentheses indicates reference value.
*2 Including lead length
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using
any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets before using any
SHARP device.
39
OPTO
PHOTOCOUPLER LINEUP
■ Photocoupler Lineup
<Phototransistor output type>
Package type
Mini-flat 4-pin
Compact, SMT type
Output type
Single phototransistor
Features
Model No. (series)
General purpose,
High collector-emitter voltage, etc.
Low input current
AC input response
Darlington phototransistor
High sensitivity,
High collector-emitter voltage
Single phototransistor
General purpose,
High resistance to noise, etc.
Low input current
Low input current
Compact, Half pitch
(lead space), SMT type
Single phototransistor
(4-pin, DIP type)
Darlington phototransistor
PC354NJ0000F
41
PC364NJ0000F
41
PC355NJ0000F / PC452J00000F
41
PC365NJ0000F
41
PC3Hx series
42
42
Low input current
PC3H71xNIP0F
42
PC3H3J00000F / PC3H4J00000F
42
Low input current
PC3H41xNIP0F
42
PC3H5J00000F
42
PC3H510NIP0F
42
Reinforced insulation
PC123XNNSZ0F
43
Low input current
General purpose,
High collector-emitter voltage, etc.
PC1231xNSZ0X
43
PC817XNNSZ0F / PC851XNNSZ0F
43
Low input current
PC8171xNSZ0X
43
High sensitivity
High sensitivity,
High collector-emitter voltage
Low input current
DIP type (6-pin)
41
41
PC3HU7xYIP0B
Low input current
DIP type (4-pin)
PC35x series / PC451J00000F
PC367NJ0000F
Reinforced insulation
AC input response
Darlington phototransistor
Page
PC815XNNSZ0F / PC852XNNSZ0F /
PC853XNNSZ0F
43
PC81510NSZ0X
43
Single phototransistor
General purpose,
High collector-emitter voltage, etc.
PC7xxV0NSZXF
44
Darlington phototransistor
High sensitivity,
High collector-emitter voltage, etc.
PC7x5V0NSZXF
44
<OPIC output type>
Package type
Compact, SMT type
DIP type, SMT type
Output type
Features
Page
Digital output
General purpose, High response speed, 2ch, etc.
Analog/Digital output
High CMR
PC457S0NIP0F / PC457L0NIP0F
45
Digital output
General purpose
PC900V0NSZXF
46
For inverter control, Built-in short-circuit protection circuit
PC925LxNSZ0F / PC942J00000F ▲ /
PC928J00000F / PC929J00000F
46
Built-in base amplifier
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
40
Model No. (series)
PC400J00000F / PC456L0NIP0F ▲ /
PC410S0NIP0F / PC410L0NIP0F /
PC4D10SNIP0F
45
OPTO
PHOTOCOUPLERS
■ Photocouplers
Model No.
Internal
connection
diagram
: Approved
Approved
by safety
standards*2
Features
UL
(Ta = 25°C)
Absolute maximum ratings
Electro-optical characteristics
Current transfer ratio
Response time
Isolation
CollectorForward voltage
emitter
Package current (AC)
tr
voltage CTR
IC
IF
RL VCE
VCE
Viso
IF
(µs)
(%)
VCEO
(mA) (Ω) (V)
(mA)
(V)
(mA)
(rms)
TYP.
MIN.
(V)
(kV)
PC357NJ0000F
General purpose
❇
50
3.75
80
50
5
5
4
2
100
2
PC352NJ0000F ▲
General purpose,
high resistance to noise* 1
50
3.75
80
90
5
5
4
2
100
2
PC451J00000F
High collector-emitter
voltage
❇
50
3.75
350
40
5
5
4
2
100
2
PC367NJ0000F
Low input current,
high resistance to noise* 1
10
3.75
80
100
0.5
5
4
2
100
2
PC354NJ0000F
AC input response
❇
±50
3.75
80
20
±1
5
4
2
100
2
PC364NJ0000F
Low input current,
AC input response,
high resistance to noise* 1
±10
3.75
80
50
±0.5
5
4
2
100
2
PC355NJ0000F
High sensitivity
❇
50
3.75
35
600
1
2
60
2
100
2
PC365NJ0000F
High sensitivity,
low input current
10
3.75
35
600
0.5
2
60
10
100
2
PC452J00000F
High collector-emitter
voltage
❇
50
3.75
350
1 000
1
2
100
20
100
2
Mini-flat
4-pin
Optoelectronics
Darlington phototransistor output
Single phototransistor output
Output type
◆Phototransistor Output Type
<Compact, SMT type>
*1 CMR: MIN.10 kV/µs
*2 Please refer to Specification Sheets for model numbers approved by safety standards.
❇ A VDE approved type is optionally available.
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
PC357NJ0000F
(Mini-flat 4-pin)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
41
OPTO
PHOTOCOUPLERS
Output type
◆Phototransistor Output Type
<Compact, half pitch (lead space) SMT type>
Darlington phototransistor output
Single phototransistor output
Model No.
*1
*2
*3
*4
*5
*6
Internal
connection
diagram
Features
UL
PC3HU7xYIP0B
Reinforced insulation
(internal insulation distance:
MIN. 0.4 mm),
low-profile package
PC3H7J00000F
Standard
PC3H71xNIP0F
*4, 5
(Ta = 25°C)
Absolute maximum ratings
Electro-optical characteristics
Current transfer
Isolation
CollectorResponse time
ratio
Forward voltage
emitter
Package current (AC)
voltage CTR
tr
Viso
IF
IC RL VCE
IF
VCE
VCEO
(µs)
(%)
(mA)
(rms)
(mA) (Ω) (V)
(mA)
(V)
(V)
TYP.
MIN.
(kV)
Lowprofile
50
3.75
80
50
5
5
4
2 100 2
mini-flat
4-pin
*6
50
2.5
80
20
1
5
4
2
100
2
High resistance to noise* 1,
low input current
10
2.5
80
100
0.5
5
4
2
100
2
PC3H3J00000F
AC input response,
high resistance to noise *1
±50
2.5
80
20
±1
5
4
2
100
2
PC3H4J00000F
AC input response
*2, 6
±50
2.5
80
20
±1
5
4
2
100
2
PC3H41xNIP0F
AC input response,
high resistance to noise* 1,
low input current
±10
2.5
80
50
±0.5
5
4
2
100
2
PC3H5J00000F
High sensitivity
50
2.5
35
600
1
2
60
2
100
2
10
2.5
35
600
0.5
2
60
2
100
2
PC3H510NIP0F
High sensitivity,
low input current
Mini-flat
4-pin
Mini-flat
4-pin
CMR: MIN.10 kV/µs
A VDE approved type is optionally available.
Please refer to Specification Sheets for model numbers approved by safety standards.
VDE, CSA approved
In conformance with BSI, SEMKO, DEMKO, NEMKO, and FIMKO
UL, cUL approved
PC3HU7xYIP0B
42
: Approved
Approved
by safety
standards*3
PC3H7J00000F
(Mini-flat 4-pin)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PHOTOCOUPLERS
Model No.
Internal
connection
diagram
: Approved
(Ta = 25°C)
Absolute maximum ratings
Isolation CollectorForward
Package current voltage emitter
(AC)
voltage
VDE Others
IF
UL
Viso (rms) VCEO
*3
*2
(mA)
(V)
(kV)
Approved by
safety standards*8
Features
Electro-optical characteristics
Current transfer ratio Response time
CTR
(%)
MIN.
IF
(mA)
tr
RL
(µs) (Ω)
TYP.
PC123XNNSZ0F* 1, *5, *6, *7
High isolation voltage,
reinforced insulation
50
5.0
70
50
5
4
100
PC1231xNSZ0X* 1
High isolation voltage, reinforced
insulation, low input current,
high resistance to noise *4
10
5.0
70
50
0.5
4
100
PC817XNNSZ0F* 5, *6, *7
High isolation voltage
–
*9
50
5.0
80
50
5
4
100
PC8171xNSZ0X* 5, *6
High isolation voltage, low input
current, high resistance to noise *4
–
–
10
5.0
80
100
0.5
4
100
PC851XNNSZ0F* 5, *6
High isolation voltage,
high collector-emitter voltage
–
–
50
5.0
350
40
5
4
100
PC815XNNSZ0F* 5, *6
High isolation voltage,
high sensitivity
–
–
50
5.0
35
600
1
60
100
PC81510NSZ0X
High isolation voltage,
high sensitivity, low input current
–
–
10
5.0
35
600
0.5
60
100
PC852XNNSZ0F* 5, *6
High isolation voltage,
high collector-emitter voltage
–
50
5.0
350
1 000
1
100 100
PC853XNNSZ0F* 5, *6
High isolation voltage,
high collector-emitter voltage
–
50
5.0
350
1 000
1
100 100
4-pin
DIP
Optoelectronics
Darlington phototransistor output
Single phototransistor output
Output type
◆Phototransistor Output Type
<DIP type (4-pin)>
*1
*2
*3
*4
*5
*6
*7
Wide lead spacing type is also available. Creepage distance: 6.4 mm or more, wide lead spacing type: 8 mm or more.
Optionally available.
BSI, SEMKO, DEMKO, NEMKO, FIMKO, CSA
CMR: 10 kV/µs MIN.
Lead forming type is also available for surface mounting.
Taped package of lead forming type for surface mounting is also available.
Wide lead spacing type is also available. Compatible with wide lead spacing type lead-forming models for surface-mount use. Also compatible with taped packages for wide
lead spacing type lead-forming models for surface-mount use.
*8 Please refer to Specification Sheets for model numbers approved by safety standards.
*9 UL, CSA approved
PC817XNNSZ0F
(4-pin DIP)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
43
OPTO
PHOTOCOUPLERS
Darlington phototransistor output
Single phototransistor output
Output type
◆Phototransistor Output Type
<DIP type (6-pin)>
Model No.
Internal
connection
diagram
: Approved, o: Under application
Features
UL
(Ta = 25°C)
Absolute maximum ratings
Electro-optical characteristics
Isolation Collector- Current transfer Response
Forward
ratio
time
emitter
Package current voltage
(AC)
voltage CTR
IF
tr
RL
I
F
Viso (rms) VCEO
(%)
(mA) (µs)
(Ω)
VDE*1
(mA)
(kV)
(V)
MIN.
TYP.
Approved
by safety
standards*2
PC714V0NSZXF
High isolation voltage
50
5.0
80
50
5
4
100
PC724V0NSZXF
High isolation voltage,
large input current
–
150
5.0
35
20
100
4
100
PC713V0NSZXF
High isolation voltage,
with base terminal
50
5.0
80
50
5
4
100
6-pin
DIP
PC715V0NSZXF
High isolation voltage,
high sensitivity
50
5.0
35
600
1
60
100
PC725V0NSZXF
High isolation voltage,
high sensitivity,
high collector-emitter voltage,
high power
50
5.0
300
1 000
1
100
100
*1 Optionally available.
*2 Please refer to Specification Sheets for model numbers approved by safety standards.
PC713V0NSZXF
(6-pin DIP)
44
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PHOTOCOUPLERS
“OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
◆OPIC Output ( light-detecting element and signal-processing circuit integrated onto a single chip.
: Approved
<Compact, SMT type> (1-1)
Model No.
A
PC456L0NIP0F ▲
A
PC410L0NIP0F
PC410S0NIP0F
PC4D10SNIP0F
(Ta = 25°C)
Absolute maximum
Electro-optical characteristics*1
ratings
Isolation
Low level output voltage
Threshold input current
Package Forward voltage
current
IFHL
VOL
IFLH
(AC)
Ta
IOL
RL
IF
IF
UL VDE*3
(mA) (mA)
Viso (rms) (V)
(°C)
(mA) (mA)
(Ω)
(mA)
MAX.
MAX. MAX.
(kV)
Approved by
safety
standards*2
Internal
connection
diagram
PC400J00000F
)
Features
Digital output,
normal-off operation
Built-in preamplifier,
high speed transmission
(2 Mb/s),
for flow soldering
High speed (10 Mb/s),
High CMR (10 kV/µs),
For flow soldering
High speed (10 Mb/s),
high CMR (10 kV/µs),
for flow soldering,
Solder heat resistance:
270°C
High speed (10 Mb/s),
for flow soldering,
Solder heat resistance:
270°C
2ch output
–
–
50
3.75
0.4
0 to +70
16
4
2.0
–
280
25
3.75
0.6
–40 to +85
2.4
10
5.0
–
20 k
20
3.75
0.6
–40 to +85
13
5
5.0
–
350
SOP
8-pin
20
3.75
0.6
–40 to +85
13
5
5.0
–
350
SOP
8-pin
20
3.75
0.6
–40 to +85
13
5
5.0
–
350
Mini-flat
5-pin
<Compact, SMT type> (1-2)
Model No.
Internal
connection
diagram
: Approved
Optoelectronics
A: Rated voltage circuit
*1 Each item is measured at Vcc=5V. (PC400)
*2 Please refer to Specification Sheets for model numbers approved by safety standards.
*3 Optionally available.
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
(Ta = 25°C)
Absolute maximum
Electro-optical characteristics
ratings
Isolation
Current transfer ratio
Propagation delay time
Package Forward voltage
current
tPHL tPLH
CTR
(AC)
IF
RL
VO VCC
IF
IF
VDE*2
Viso (rms) (%) (mA) (V) (V) (µs) (µs)
(Ω) (mA)
(mA)
MIN.
TYP. TYP.
(kV)
Approved by
safety
standards*1
Features
UL
PC457L0NIP0F
High speed (1 Mb/s),
high CMR (15 kV/µs),
for flow soldering
Mini-flat
5-pin
25
3.75
19
16
0.4
4.5
0.2
0.4
1 900
16
PC457S0NIP0F
High speed (1 Mb/s),
high CMR (15 kV/µs),
for flow soldering,
Solder heat resistance:
270°C
SOP
8-pin
25
3.75
19
16
0.4
4.5
0.2
0.3
1 900
16
*1 Please refer to Specification Sheets for model numbers approved by safety standards.
*2 Optionally available.
PC400J00000F
(Mini-flat 5-pin)
PC410S0NIP0F
(SOP 8-pin)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
45
OPTO
PHOTOCOUPLERS
“OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
◆OPIC Output ( light-detecting element and signal-processing circuit integrated onto a single chip.
: Approved
<DIP type, digital output>
Internal
connection
diagram
Model No.
Features
PC900V0NSZXF* 2, *3
Digital output,
normal-off operation
A
(Ta = 25°C)
Absolute
maximum ratings
Approved by
safety
standards*5
UL
)
Electro-optical characteristics*1
Threshold input
Isolation
Low level output voltage
Package Forward voltage
current
current
(AC)
I
V
OL
FHL
IFLH
IF
Ta
IOL
RL
IF
VDE
Viso (rms) (V)
(mA) (mA)
(mA)
(°C)
(mA)
(mA)
(Ω)
*4
(kV)
MAX.
MAX. MAX.
6-pin
DIP
50
5.0
0.4
0 to +70
16
4
2.0
–
280
A: Rated voltage circuit
*1 Each item is measured at Vcc=5V.
*2 Lead forming type is also available for surface mounting.
*3 Taped package of lead forming type for surface mounting is also available.
*4 Optionally available.
*5 Please refer to Specification Sheets for model numbers approved by safety standards.
PC900V0NSZXF
(6-pin DIP)
“OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
◆OPIC Output ( light-detecting element and signal-processing circuit integrated onto a single chip.
: Approved
<DIP type, Gate drive type>
Model No.
Internal
connection
diagram
PD
PC942J00000F ▲
PC928J00000F
Tr1
Tr2
Interface
Amplifier
Interface
Amplifier
PC929J00000F
Interface
OPIC
PC925LxNSZ0F* 1
Interface
Amplifier
Approved by
safety
standards*3
Features
Package
UL
VDE
*2
• Built-in drive circuit
directly connectable to
MOS-FET and IGBT
• Peak output current: 2.5 A
• Low dissipation current
(Icc = TYP. 2.5 mA)
• High resistance to noise
(CMR: MIN. 15 kV/µs)
For controlling invertercontrolled air-conditioner
For driving inverter IGBT,
built-in short
protection circuit
For driving inverter IGBT,
high speed, built-in short protection circuit
)
(Ta = 25°C)
Absolute
Electro-optical characteristics
maximum ratings
Isolation
Propagation delay time
Forward
voltage
current
t
PHL
PLH
t
(AC)
VCC
RL2
IF
RL1
IF
Viso (rms) (µs) (µs)
(V) (mA) (Ω)
(Ω)
(mA)
TYP.
TYP.
(kV)
MAX. MAX. 15 to
0.5
0.5
30
7 to
16
RG =
10
–
6
5
5
10
1.0
24
10
RG =
47
–
0.3
24
5
RG =
47
–
25
5.0
25
5.0
2.0
2.0
25
4.0
1.0
20
4.0
0.3
8-pin
DIP
14-pin SMT
(Half pitch
lead)
*1 Lead forming type is also available for surface mounting. Taped package of lead forming type for surface mounting is also available.
*2 A VDE approved type is optionally available.
*3 Please refer to Specification Sheets for model numbers approved by safety standards.
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
PC925LENSZ0F, PC942J00000F▲
(8-pin DIP)
46
PC928J00000F
(PC929J00000F)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PHOTOTRIAC COUPLERS
■ Phototriac Couplers
: Approved
(Ta = 25°C)
Approved by
safety standards*4
Model No.
Internal
connection
diagram
S2S3000F
Features
200 V lines, compact
UL,
CSA
Electro-optical
Absolute maximum ratings
characteristics
Min. trigger
Repetitive
Isolation
current
peak
Package ON-state
voltage
IFT
current OFF-state
(AC)
VDE Others
voltage
(mA) MAX.
IT (rms)
Viso (rms)
(A)
VDRM
VD = 6 V,
(kV)
RL = 100Ω
(V)
*6
–
S2S5A00F
200 V lines, compact
*6
–
S2S5FA0F
High impulse noise product
*6
–
PC3ST11NSZAX
PC3SH11YFZAX
PC3SH13YFZAX
200 V lines, compact
200 V lines, compact,
reinforced isolation
200 V lines, compact,
reinforced isolation,
high noise resistance
*6
–
*2
*2
10
Mini-flat
4-pin
0.05
3.75
10
10
600
4-pin
DIP
0.1
10
5.0
10
10
PC2SD11NTZAF
100 V lines
–
–
PC1S3021NTZF
100 V lines
–
*2
PC3SD12NTZAF
200 V lines
*6
–
10
PC1S3052YTZF
200 V lines
*6
*2
10
PC3SD12NTZBF
200 V lines
*6
–
PC3SD13NTZBF
High impulse noise product
*6
–
7
PC3SD12NTZCF
200 V lines
*6
–
5
PC4SD11NTZBF
200 V lines,
repetitive peak-OFF-state voltage
*6
–
PC3SD11NTZCF
200 V lines
*6
–
600
5
PC4SD11NTZCF
200 V lines,
repetitive peak-OFF-state voltage
*6
–
800
5
PC3SF11YVZAF
200 V lines, reinforced isolation
*2
PC3SF11YVZBF
200 V lines, reinforced isolation
*2
*2
*2
*2
PC3SF13YVZBF
PC4SF11YVZAF
PC4SF11YVZBF
200 V lines, reinforced isolation,
high noise resistance
200 V lines, reinforced isolation,
repetitive peak-OFF-state voltage
200 V lines, reinforced isolation,
repetitive peak-OFF-state voltage
10
400
10
600
6-pin
DIP*1, 3
0.1
800
7
5.0
7
10
600
7
7
800
10
7
For the notes *1 to *6, see next page.
48
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PHOTOTRIAC COUPLER LINEUP
■ Phototriac Coupler Lineup
Package
Mini-flat (SMD)
Applied voltage
AC 200 V lines
(VDRM = 600V)
ON-state
current (rms)
0.05 A
Features
AC 200 V lines
(VDRM = 600V)
0.1 A
Page
S2S3000F*3 / S2S5A00F*3 / S2S5FA0F*3
48
S2S4000F*3
49
PC3ST11NSZAX* 3
48
PC3ST21NSZBX* 2
49
PC3SH11YFZAX* 3 / PC3SH13YFZAX* 3
48
PC3SH21YFZBX* 2
49
General purpose
PC2SD11NTZAF* 3 / PC1S3021NTZF* 4
48
General purpose
PC3SD12NTZAF* 3 / PC3SD12NTZBF* 2 /
PC3SD12NTZCF* 1 / PC1S3052YTZF* 3 /
PC3SD11NTZCF* 1 / PC3SD13NTZBF* 2
48
PC3SD21NTZAF* 3 / PC3SD21NTZBF* 2 /
PC3SD21NTZCF* 1 / PC3SD21NTZDF* 5 /
PC3SD23YTZCF* 1 / PC1S3063YTZF* 1
49
PC3SF11YVZAF* 3 / PC3SF11YVZBF* 2 /
PC3SF13YVZBF* 2
48
PC3SF21YVZAF* 3 / PC3SF21YVZBF* 2 /
PC3SF23YVZSF* 2
49
PC4SD11NTZBF* 2 / PC4SD11NTZCF* 1
48
PC4SD21NTZCF* 1 / PC4SD21NTZDF* 5
49
PC4SF11YVZAF* 3 / PC4SF11YVZBF* 2
48
PC4SF21YVZBF* 2 / PC4SF21YVZCF* 1 /
PC4SF21YWPSF* 2
49
General purpose
Built-in zero-cross circuit
DIP type
Model No.
General purpose
Built-in zero-cross circuit
Reinforced isolation
Built-in zero-cross circuit
DIP type
(6-pin package,
5th-pin cut)
AC 100 V lines
(VDRM = 400V)
AC 200 V lines
(VDRM = 600V)
0.1 A
0.1 A
Built-in zero-cross circuit
Reinforced isolation
Built-in zero-cross circuit
AC 200 V lines
(VDRM = 800V)
0.1 A
General purpose
Built-in zero-cross circuit
Reinforced isolation
Built-in zero-cross circuit
Optoelectronics
(4-pin)
Minimum trigger current: *1 IFT & 5 mA, *2 IFT & 7 mA, *3 IFT & 10 mA, *4 IFT & 15 mA, *5 IFT & 3 mA
47
OPTO
PHOTOTRIAC COUPLERS
■ Phototriac Couplers
(Built-in zero-cross circuit type)
: Approved
(Ta = 25°C)
Approved by
safety standards*4
S2S4000F
Internal
connection diagram
Zero-cross circuit
PC3ST21NSZBX
200 V lines, compact
200 V lines, compact
*6
Features
UL,
CSA
–
4-pin
DIP
7
0.1
600
5.0
200 V lines, compact,
reinforced isolation
200 V lines,
low zero-cross voltage: MAX. 20 V
200 V lines,
low zero-cross voltage: MAX. 20 V
200 V lines,
low zero-cross voltage: MAX. 20 V
100 V lines,
low zero-cross voltage: MAX. 20 V
200 V lines,
high pulse/noise resistance
(TYP. 2 kV)
200 V lines,
low zero-cross voltage: MAX. 20 V
200 V lines,
repetitive peak-OFF-state voltage
200 V lines,
repetitive peak-OFF-state voltage
*2
*6
–
10
*6
–
7
*6
–
*6
–
3
PC3SF21YVZAF
200 V lines, reinforced isolation
*2
10
PC3SF21YVZBF
200 V lines, reinforced isolation
*2
PC3SF23YVZSF
High impulse noise product
*2
7
200 V lines, reinforced isolation,
repetitive peak-OFF-state voltage
200 V lines, reinforced isolation,
repetitive peak-OFF-state voltage
*2
7
*2
High impulse noise product
*2
PC3SH21YFZBX
PC3SD21NTZAF
PC3SD21NTZBF
PC3SD21NTZCF
PC1S3063YTZF
PC3SD23YTZCF
PC3SD21NTZDF
Zero-cross circuit
PC4SD21NTZCF
PC4SD21NTZDF
PC4SF21YVZBF
PC4SF21YVZCF
PC4SF21YWPSF
*1
*2
*3
*4
*5
*6
*6
*2
–
*6
–
*6
–
7
5
600
5
5
3
6-pin
DIP*1, 3
0.1
800
5
5.0
600
Optoelectronics
Model No.
Electro-optical
Absolute maximum ratings
characteristics
Min. trigger
Repetitive Isolation
current
Package ON-state
peak
voltage
IFT
current
OFF-state
(AC)
VDE Others
(mA) MAX.
IT (rms)
VDRM Viso (rms)
(A)
VD = 4 V,
(V)
(kV)
RL = 100Ω
Mini-flat
*6
–
0.05
600
3.75
10*5
4-pin
7
800
5
6-pin
DIP*3
7
Lead forming type for surface mounting is also available.
In conformance with BSI, SEMKO, DEMKO, and FIMKO
These are molded pin No. 5.
Please refer to Specification Sheets for model numbers approved by safety standards.
VD = 6 V, RL = 100Ω
Optionally available
S2S3000F
(Mini-flat 4-pin)
PC2SD series
(PC3SD series, PC4SD series)
(6-pin DIP)
PC3SF series
(PC4SF series)
(6-pin DIP)
PC3ST series
(4-pin DIP)
PC3SH series
(4-pin DIP)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
49
OPTO
SOLID STATE RELAY LINEUP
■ Solid State Relay Lineup
Package
DIP 6-pin
DIP 8-pin
Applied voltage
Page
General purpose
PR22MA11NTZF
51
AC 200 V lines
0.06 A
General purpose
PR31MA11NTZF
51
0.15 A
General purpose
PR32MA11NTZF
51
0.3 A
General purpose
PR33MA series
51
0.3/0.6/0.9 A
General purpose
PR23MF11NSZF / PR26MF series /
PR29MF series
51
0.6/0.9 A
Built-in zero-cross circuit
PR26MF21NSZF / PR29MF21NSZF
51
0.3/0.6/0.9/1.2 A
General purpose
PR33MF5 series / PR39MF5 series /
PR36MF5 series / PR3BMF5 series
51
0.6/0.9/1.2 A
Built-in zero-cross circuit
PR36MF2 series / PR39MF2 series /
PR3BMF21NSZF
51
2/8 A
3 to 16 A
General purpose
S102T01F*1 / S108T01F*1 /
S101S05F / S102S01F / S112S01F / S116S01F
52
2/8 A
3 to 16 A
Built-in zero-cross circuit
S102T02F*1 / S108T02F*1 /
S101S06F / S102S02F / S116S02F
52
8A
Built-in snubber circuit
S102S11F
52
3/8 A
Built-in snubber circuit/
zero-cross circuit
S101S16F / S102S12F
52
General purpose
S202T01F*1 / S208T01F*1 /
S202S01F / S212S01F / S216S01F
52
2/8 A
3 to 16 A
Built-in zero-cross circuit
S202T02F*1 / S208T02F*1 /
S201S06F / S202S02F / S216S02F
52/53
8/8 A
Built-in snubber circuit
S202S15F / S202S11F
53
8A
Built-in snubber circuit/
zero-cross circuit
S202S12F
53
AC 100 V lines
AC 100 V lines
AC 200 V lines
50
Model No.
0.15 A
Low profile
*1 Low profile
Features
AC 100 V lines
AC 200 V lines
SIP 4-pin
ON-state current
(rms)
OPTO
SOLID STATE RELAYS
✩New product
■ Solid State Relays
<DIP type>
: Approved
Approved by
safety standards*1
Model No.
Internal
connection
diagram
Features
UL
(Ta = 25°C)
Electrical
characteristics
Min. trigger
Repetitive Isolation
current
Package ON-state
peak
voltage
IFT
current
OFF-state
CSA VDE*2
(AC)
IT (rms)
(mA) MAX.
voltage Viso (rms)
VD = 6 V,
(A)
VDRM (V)
(kV)
RL = 100Ω
PR22MA11NTZF
100 V lines,
150 mA model in a small package
PR31MA11NTZF
200 V lines, compact
Absolute maximum ratings
0.15
6-pin
DIP
400
10
0.06
10
5.0
200 V lines,
150 mA model in a small package
200 V lines,
300 mA model in a small package
0.3
15
PR23MF11NSZF
100 V lines, compact
–
0.3
10
PR26MF11NSZF
100 V lines, compact
–
PR32MA11NTZF
✩PR33MA series
10
600
10
0.6
100 V lines, compact,
low input current
–
PR29MF11NSZF
100 V lines, compact
–
PR29MF12NSZF
100 V lines, compact,
low input current
–
PR33MF51NSLF
200 V lines, compact
PR26MF12NSZF
0.15
400
5
10
0.9
5
10
PR33MF52NSLF
200 V lines, compact
PR36MF51NSLF
200 V lines, compact
PR36MF12NSZF
PR39MF51NSLF
PR39MF12NSZF
PR3BMF51NSLF
PR3BMF52NSZF
PR26MF21NSZF
PR29MF21NSZF
PR36MF21NSZF
PR36MF22NSZF
PR39MF21NSZF
PR39MF22NSZF
PR3BMF21NSZF
Zerocross
circuit
10
10
0.6
200 V lines, compact,
low input current
200 V lines, compact
5
600
200 V lines, compact,
low input current
200 V lines, compact
200 V lines, compact,
low input current
100 V lines, compact
(built-in zero-cross circuit)
100 V lines, compact
(built-in zero-cross circuit)
200 V lines, compact (built-in zerocross circuit)
200 V lines, compact (built-in zerocross circuit), low input current
200 V lines, compact (built-in zerocross circuit)
200 V lines, compact (built-in zerocross circuit), low input current
200 V lines, compact (built-in zerocross circuit)
Optoelectronics
0.3
8-pin
DIP
10
4.0
0.9
5
10
1.2
–
5
0.6
10
400
–
0.9
10
10
0.6
5
600
10
0.9
5
1.2
10
*1 Please refer to Specification Sheets for model numbers approved by safety standards.
*2 Optionally available.
PR22MA11NTZF
(6-pin DIP)
PR26MF21NSZF
(8-pin DIP)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
51
OPTO
SOLID STATE RELAYS
<SIP type> (1)
: Approved
Approved by
safety standards*6
Model No.
Internal
connection
diagram
Features
UL
CSA
S102T01F
100 V lines, low profile
S108T01F
100 V lines, low profile
–
–
100 V lines, low profile
(built-in zero-cross circuit)
100 V lines, low profile
(built-in zero-cross circuit)
–
–
S101S05F
100 V lines
S102S01F
100 V lines
S112S01F
(Ta = 25°C)
Absolute maximum ratings
Electrical
characteristics
Min. trigger current
Repetitive Isolation
Package ON-state
peak
voltage
current
IFT
OFF-state
(AC)
IT (rms)
voltage Viso (rms) (mA)
(A)
MAX.
VDRM(V)
(kV)
VD
(V)
RL
(Ω)
2
8
12
30
8*2
8
12
30
8
12
30
8*2
8
12
30
3*3
15
12
30
8*2
8
12
30
100 V lines
12*4
8
12
30
S116S01F
100 V lines
16*5
8
12
30
S101S06F
100 V lines (built-in zero-cross circuit)
15
6
30
8
6
30
8
6
30
8
12
30
S102T02F
S108T02F
Zerocross
circuit
Low
profile
4-pin
SIP
3.0
2
4.0
400
3*3
4-pin
SIP
3.0
100 V lines (built-in zero-cross circuit)
100 V lines (built-in zero-cross circuit)
16*5
100 V lines (built-in snubber circuit)
8*1
100 V lines (built-in snubber circuit,
built-in zero-cross circuit)
100 V lines (built-in snubber circuit,
built-in zero-cross circuit)
3*3
3.0
15
6
30
8*1
4.0
8
6
30
S202T01F
200 V lines, low profile
2
8
12
30
S208T01F
200 V lines, low profile
–
–
8
12
30
8
12
30
8
12
30
8
12
30
8
12
30
8
12
30
S102S02F
Zerocross
circuit
S116S02F
S102S11F
S101S16F
S102S12F
Zerocross
circuit
8*2
4.0
Low
profile
4-pin
SIP
8*2
3.0
200 V lines, low profile
(built-in zero-cross circuit)
200 V lines, low profile
(built-in zero-cross circuit)
–
–
8*2
S202S01F
200 V lines
8*2
S212S01F
200 V lines
–
–
S216S01F
200 V lines
–
–
S202T02F
S208T02F
Zerocross
circuit
4-pin
SIP
2
12*4
16*5
600
4.0
For the notes *1 to *6, see next page.
52
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
SOLID STATE RELAYS
<SIP type> (2)
: Approved
Approved by
safety standards*6
S201S06F
S202S02F
Zerocross
circuit
S216S02F
Features
Absolute maximum ratings
Repetitive Isolation
Package ON-state
peak
voltage
current
IFT
OFF-state
(AC)
IT (rms)
voltage Viso (rms) (mA)
(A)
MAX.
VDRM(V)
(kV)
UL
CSA
200 V lines (built-in zero-cross circuit)
3*3
200 V lines (built-in zero-cross circuit)
8*2
200 V lines (built-in zero-cross circuit)
–
16*5
–
4-pin
SIP
8*2
200 V lines (built-in snubber circuit)
–
–
S202S11F
200 V lines (built-in snubber circuit)
8*1
200 V lines (built-in snubber circuit,
built-in zero-cross circuit)
8*1
Zerocross
circuit
RL
(Ω)
15
6
30
8
6
30
8
6
30
15
12
30
8
12
30
8
6
30
4.0
S202S15F
S202S12F
3.0
VD
(V)
3.0
4.0
*1 Tc & 88°C
*2 Tc & 80°C
*3 Tc & 100°C
*4 Tc & 70°C
*6 Please refer to Specification Sheets for model numbers approved by safety standards.
S102T01F series
(Low profile 4-pin SIP)
600
*5 Tc & 60°C
Optoelectronics
Model No.
Internal
connection
diagram
(Ta = 25°C)
Electrical
characteristics
Min. trigger current
S102S02F series
(4-pin SIP)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
53
OPTO
PHOTOINTERRUPTER LINEUP
■ Photointerrupter Lineup
<Transmissive type>
Output type
Single phototransistor
Package type
Compact
Outline
High resolution
High response speed
Case type
Darlington
phototransistor
High resolution
Model No. (series)
Page
PWB mounting type
GP1S396HCP0F / GP1S09xHCZ0F /
GP1S19xHCZ0F
Surface-mount type/
Soldering reflow
GP1S396HCPSF / GP1S296HCPSF /
GP1S092HCPIF / GP1S19xHCxSF
55
PWB mounting type, etc.
GP1S5x series
56
55
Horizontal slit,
High resolution
PWB mounting type
GP1S59J0000F
56
With connector
General purpose
Snap-in
GP1S173LCS2F / GP1S273LCS1F
56
Case type
General purpose
PWB mounting type, etc.
GP1L5x series
57
Wide gap
PWB mounting type
GP1L57J0000F
57
High voltage
PWB mounting type
GP1A98HCZ0F
57
Surface-mount type
GP1A98HCPSF
57
High resolution
With screw hole/
PWB mounting type
GP1A5x series
58
Wide gap
PWB mounting type
GP1A57HRJ00F
58
General purpose
Screw mounting type/Snap-in
GP1A173LCS3F / GP1A173LCS2F /
GP1A173LCSVF / GP1A273LCS1F
59
High sensitivity
Digital output
Mounting method
Compact
(OPIC output)
Case type
With connector
<Reflective type>
Output type
Package type
Outline
Mounting method
Single phototransistor
Leadless
Long focal distance
Surface-mount type
High response speed
Compact,
thin (leadless)
General purpose
OPIC output
With connector
Light modulation type,
Sensitivity adjusted
Model No. (series)
Page
GP2S700HCP
59
Surface-mount type
GP2S60
59
Screw mounting type/
Compact snap-in/
Inverter light countermeasures
GP2A25 series / GP2A28 series /
GP2A200LCS0F / GP2A230LRS0F /
GP2A231LRSAF / GP2A230LRSAF /
GP2A240LCS0F / GP2A250LCS0F
60
<Application-specific photointerrupter lineup>
Detection type
Transmissive type
Outline (Output type etc.)
Case type
With encoder function
Digital 2 output
(phase A/B)
Page
PWB mounting type
GP1A057SGKLF
61
Resolution: 150 LPI
Linear scale slit pitch:
0.17 mm
PWB mounting type
GP1A057RBKLF
61
Resolution: 180 LPI
Linear scale slit pitch:
0.14 mm
With screw hole/
PWB mounting type
GP1A058SCK0F
61
Resolution: 300 LPI
Linear scale slit pitch:
0.0847 mm
With screw hole/
PWB mounting type
GP1A054RDKLF
61
Resolution for reading:
180 LPI
Pitch: 0.14 mm
Output resolution: 360 LPI
With screw hole/
PWB mounting type
GP1A101C2KSF
61
For amusement use
Screw mounting
GP1A204HCS0
61
Injection
For prism system (Single phototransistor)
Screw mounting
GP2S29SVJ00F
61
–
GP2A222HCKA
62
For amusement use (Pachinko ball sensor)
54
Model No. (series)
Resolution: 45 LPI
Linear scale slit pitch:
0.56 mm
Case type
With encoder function
Digital 2 output
(Multiplying output)
Reflective type
Mounting method
OPTO
PHOTOINTERRUPTERS (TRANSMISSIVE TYPE)
■ Photointerrupters
<Transmissive type>
◆Single Phototransistor Output
<Compact type>
Internal
connection
diagram
Features
GP1S092HCPIF
Wide gap, for soldering reflow,
surface mount compatible, with positioning boss
(4.5 × 2.6 × 2.9 [height] mm)
2.0
0.3
2.0
5
5
50
0.1
1
5
GP1S093HCZ0F
Wide gap (4.5 × 2.6 × 2.9 [height] mm)
2.0
0.3
2.0
5
5
50
0.1
1
5
GP1S094HCZ0F
Wide gap, with positioning pin,
(5.5 × 2.6 × 4.8 [height] mm)
3.0
0.3
0.8
5
5
50
0.1
1
5
GP1S096HCZ0F
Narrow gap (3.5 × 2.6 × 2.9 [height] mm)
1.0
0.3
2.0
5
5
50
0.1
1
5
1.7
0.3
3.0
5
5
50
0.1
1
5
1.5
0.3
3.0
5
5
50
0.1
1
5
1.1
0.3
2.0
5
5
50
0.1
1
5
1.1
0.3
2.0
5
5
50
0.1
1
5
1.0
0.2
3.0
5
5
50
0.1
1
5
1.2
0.12
2.0
5
5
30
0.1
1
5
1.2
0.12
2.0
5
5
30
0.1
1
5
2.0
0.3
2.0
5
5
50
0.1
1
5
GP1S195HCZSF
GP1S195HCPSF
Compact, wide gap,
size: 3.6 × 2.0 × 2.7 (height) mm
Compact, wide gap, surface mount compatible,
size: 3.4 × 2.0 × 2.7 (height) mm
GP1S196HCZ0F
Compact, low profile (3.1 × 2.0 × 2.7 [height] mm)
GP1S196HCZSF
GP1S196HCPSF
Surface mount, for soldering reflow,
compact, low profile (3.1 × 2.0 × 2.7 [height] mm)
Surface mount, for soldering reflow,
compact, low profile (2.5 × 1.8 × 1.9 [height] mm)
Straight lead type,
compact, low profile (2.26 × 1.4 × 1.6 [height] mm)
Surface mount, for soldering reflow,
compact, low profile (2.26 × 1.4 × 1.6 [height] mm)
High resolution, wide gap,
with mounting hole (4.5 × 2.6 × 4.5 [height] mm)
GP1S194HCZ0F
GP1S296HCPSF
GP1S396HCP0F
GP1S396HCPSF
GP1S097HCZ0F
Optoelectronics
Model No.
(Ta = 25°C)
Electro-optical characteristics
Detecting
and
Current transfer ratio
Response time
Slit width
emitting
tr
CTR
(mm)
I
F
V
CE
IC
RL VCE
gap
(µs)
(%)
(mA) (V)
(mA) (kΩ) (V)
(mm)
TYP.
MIN.
❇ Topr: –25 to +85°C
❇❇ GP1SxxxHCZxF: Sleeve package, GP1SxxxHCPxF: Taped package
GP1S092HCPIF
GP1S093HCZ0F
GP1S094HCZ0F
GP1S096HCZ0F
GP1S194HCZ0F
GP1S195HCPSF/
GP1S195HCZSF
GP1S196HCZ0F
GP1S196HCZSF/
GP1S196HCPSF
GP1S296HCPSF
GP1S396HCPSF
GP1S396HCP0F
GP1S097HCZ0F
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
55
OPTO
PHOTOINTERRUPTERS (TRANSMISSIVE TYPE)
<Case type>
Model No.
(Ta = 25°C)
Internal
connection
diagram
GP1S50J0000F
Features
High resolution, both-side mounting type
Electro-optical characteristics
Detecting
and
Current transfer ratio
Response time
Slit width
emitting
tr
CTR
(mm)
I
F
V
CE
IC
RL VCE
gap
(µs)
(%)
(mA) (V)
(mA) (Ω) (V)
(mm)
TYP.
MIN.
3.0
0.5
2.5
20
5
3
2
100
2
GP1S51VJ000F
High resolution, side mounting type
3.0
0.5
2.5
20
5
3
2
100
2
GP1S52VJ000F
High resolution, PWB mounting type
3.0
0.5
2.5
20
5
3
2
100
2
GP1S53VJ000F
High resolution, PWB mounting type
5.0
0.5
2.5
20
5
3
2
100
2
3.0
0.5
2.5
20
5
3
2
100
2
2.0
0.15
2.0
20
5
38
0.5
1 000
2
5.0
0.5
2.5
20
5
3
2
100
2
4.2
0.5
2.5
20
5
3
2
100
2
High resolution, with positioning pin,
PWB mounting type
High resolution, with positioning pin,
PWB mounting type
High resolution, with positioning pin,
PWB mounting type
High resolution, horizontal slit, with positioning pin,
PWB mounting type
GP1S54J0000F
GP1S56TJ000F
GP1S58VJ000F
GP1S59J0000F
❇ Topr: –25 to +85°C
GP1S50J0000F
GP1S51VJ000F
GP1S52VJ000F
GP1S53VJ000F
GP1S54J0000F
GP1S56TJ000F
GP1S58VJ000F
GP1S59J0000F
<With connector>
Model No.
Internal
connection
diagram
(Ta = 25°C)
Features
Electro-optical characteristics
Detecting
and
Current transfer ratio
Response time
Slit width
emitting
tr
CTR
(mm)
IF
VCE
IC
RL VCE
gap
(µs)
(%)
(mA) (V)
(mA) (Ω) (V)
(mm)
TYP.
MIN.
GP1S173LCS2F
Snap-in mounting integrated connector type
Applicable to 3 kinds of thickness of mounting boards
5.0
0.5
2.5
20
5
3
2
100
2
GP1S273LCS1F
Snap-in mounting integrated connector type
Applicable to 3 kinds of thickness of mounting boards
Compact (Compatible with 1.5 mm pitch connector)
5.0
0.7
2.5
20
5
3
2
100
2
❇ Topr: –25 to +85°C, –30 to +95°C (GP1S173LCS2F, GP1S273LCS1F)
GP1S173LCS2F
56
GP1S273LCS1F
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PHOTOINTERRUPTERS (TRANSMISSIVE TYPE)
◆Darlington Phototransistor Output
<Case type>
Model No.
Internal
connection
diagram
(Ta = 25°C)
Electro-optical characteristics
Detecting
and
Current transfer ratio
Response time
Slit width
emitting
tr
CTR
(mm)
IF
VCE
IC
RL VCE
gap
(µs)
(%)
(mA) (V)
(mA) (Ω) (V)
(mm)
TYP.
MIN.
Features
GP1L50J0000F
High sensitivity, both-side mounting type
3.0
0.5
50
1
2
80
2
100
2
GP1L51J0000F
High sensitivity, side mounting type
3.0
0.5
50
1
2
80
2
100
2
GP1L52VJ000F
High sensitivity, PWB mounting type
3.0
0.5
50
1
2
80
2
100
2
GP1L53VJ000F
High sensitivity, PWB mounting type
5.0
0.5
30
1
2
80
2
100
2
GP1L57J0000F
High sensitivity, wide gap, PWB mounting type
10.0
1.8
70
1
2
130
2
100
2
❇ Topr: –25 to +85°C
GP1L50J0000F
GP1L51J0000F
GP1L52VJ000F
GP1L53VJ000F
GP1L57J0000F
◆OPIC Type ( light-detecting element and signal-processing circuit integrated onto a single chip. )
<Compact type>
“OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
GP1A98HCZ0F
GP1A98HCPSF
Internal
connection
diagram
Voltage
regulator
Amplifier
Features
Optoelectronics
Model No.
(Ta = 25°C)
Electro-optical characteristics
Detecting
and
Threshold input current
Propagation delay time
Slit width
emitting
tPLH
IFHL
tPHL
IFLH
(mm)
VCC
IF
RL
RL
gap
(mA) (mA)
(µs)
(µs)
(V)
(mA) (kΩ)
(kΩ)
(mm)
MAX. MAX.
TYP. TYP.
VCC
(V)
Compact, PWB mounting
3.2
0.5
8
–
3.3 to 3.9 to
24
20
2.0
10.0
10
3.9 to 3.3 to
20
24
Compact, surface mount
3.2
0.5
8
–
3.3 to 3.9 to
24
20
2.0
10.0
10
3.9 to 3.3 to
20
24
❇ Topr = –25 to +85°C
GP1A98HCZ0F
GP1A98HCPSF
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
57
OPTO
PHOTOINTERRUPTERS (TRANSMISSIVE TYPE)
<Case type>
(Ta = 25°C)
Internal
connection
diagram
Model No.
Features
GP1A50HRJ00F
GP1A51HRJ00F
Voltage
regulator
Amplifier
GP1A52HRJ00F
GP1A53HRJ00F
GP1A57HRJ00F
Detecting
and
Slit width
emitting
(mm)
gap
(mm)
(When light is cut off:
low level)
Threshold input current
IFLH
IFHL
VCC
(mA)
(mA)
(V)
MAX.
MAX.
tPLH
(µs)
TYP.
Propagation delay time
tPHL
IF
RL
(µs)
(mA) (Ω)
TYP.
VCC
(V)
Both-side mounting,
with screw hole
3.0
0.5
5
–
5
3
5
5
280
5
Side mounting, with screw hole
3.0
0.5
5
–
5
3
5
5
280
5
PWB mounting type
3.0
0.5
5
–
5
3
5
5
280
5
PWB mounting type
5.0
0.5
8
–
5
3
5
8
280
5
10.0
1.8
7
–
5
3
5
7
280
5
5.0
0.5
8
–
5
3
5
8
280
5
3.0
0.5
–
5
5
5
3
5
280
5
PWB mounting type,
with positioning pin
PWB mounting type,
with positioning pin
GP1A58HRJ00F
Electro-optical characteristics
Voltage
regulator
Amplifier
GP1A52LRJ00F
PWB mounting type
(When light is cut off:
high level)
❇ Topr = –25 to +85°C
GP1A50HRJ00F
58
GP1A51HRJ00F
GP1A52LRJ00F
(GP1A52HRJ00F)
GP1A53HRJ00F
 GP1A58HRJ00F 
 with positioning pin 
GP1A57HRJ00F
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
PHOTOINTERRUPTERS
(TRANSMISSIVE TYPE)/(REFLECTIVE TYPE)
OPTO
✩New product
◆OPIC Type ( light-detecting element and signal-processing circuit integrated onto a single chip.
<With 3-pin connector terminal>
“OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
Model No.
Internal
connection
diagram
Voltage
regulator
Amplifier
GP1A173LCSVF
GP1A273LCS1F
Voltage
regulator
Amplifier
GP1A75EJ000F ▲
with 3-pin connector
GP1A173LCS2F
(Ta = 25°C)
Electro-optical characteristics
Supply voltage
Low level output voltage
VCC
VOL
Light
IOL
VCC
(V)
(V)
cut-off
(mA)
(V)
MIN.
MAX.
MAX.
Detecting
and
Slit width
emitting
(mm)
gap
(mm)
Features
✩GP1A173LCS3F
)
Snap-in mounting integrated
connector type*1
Snap-in mounting integrated
connector type*1
Snap-in mounting integrated
connector type*1,
enforced electrostatic discharge
(ESD) type
Integrated connector, compatible
with 1.5 mm pitch connector,
snap-in mounting type* 1
Either-side mounting type
Screw mounting type
5.0
0.5
2.7
5.5
0.35
No
4
3.3
5.0
0.5
4.5
5.5
0.35
No
4
5
5.0
0.5
4.5
5.5
0.35
No
4
5
5.0
0.7
4.5
5.5
0.35
No
4
5
5.0
0.5
4.5
5.5
0.35
Yes
16
5
GP1A173LCS3F,
GP1A173LCS2F,
GP1A173LCSVF
GP1A273LCS1F
Optoelectronics
❇ Topr: –20 to +75°C, –30 to +95°C (GP1A173LCS3F, GP1A173LCS2F, GP1A173LCSVF, GP1A273LCS1F)
*1 Applicable to 3 kinds of thickness of mounting boards.
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
GP1A75EJ000F▲
■ Photointerrupters
<Reflective type>
◆Single Phototransistor Output
<Compact>
Model No.
Internal
connection
diagram
(Ta = 25°C)
Features
Electro-optical characteristics
Optimum
detecting
Current transfer ratio
Response time
distance CTR (%)
IF
VCE
tr (µs)
IC
RL
(mm)
MIN.
(mA)
(V)
TYP. (mA) (kΩ)
VCE
(V)
GP2S700HCP
Compact (4 × 3 × 2 [height] mm),
long focal distance, surface mounting leadless type
4
1.5
4
2
20
0.1
1
2
GP2S60
Thin (3.2 × 1.7 × 1.1 [height] mm), surface mounting
leadless type
1
1.0
4
2
20
0.1
1
2
❇ Topr: –25 to +85°C
GP2S700HCP
GP2S60
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
59
OPTO
PHOTOINTERRUPTERS (REFLECTIVE TYPE)
“OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
◆OPIC Output ( light-detecting element and signal-processing circuit integrated onto a single chip.
<With 3-pin connector terminal>
Internal
connection
diagram
Model No.
GP2A200LCS0F
GP2A240LCS0F
GP2A250LCS0F
GP2A25J0000F
GP2A230LRS0F
GP2A230LRSAF
GP2A231LRSAF ▲
GP2A25NJJ00F
GP2A25DJ000F
GP2A28AJ000F
)
(Ta = 25°C)
Electro-optical characteristics
Optimum
Supply voltage Dissipation current Low level output voltage
detecting
VCC
VOL
ICC
distance
VCC
VCC
(V)
(mA)
(V)
(mm)
(V)
(V)
MIN. MAX. MAX.
MAX.
Features
Multi types of paper detectable, light modulation type,
with connector, sensitivity adjusted
Applicable to inverter fluorescent lamp,
light modulation type, with connector, sensitivity adjusted
(Following
diagram [A]) Static electricity resistant,
applicable to inverter fluorescent lamp,
light modulation type, with connector, sensitivity adjusted
Multi types of paper detectable, light modulation type,
with connector, sensitivity adjusted
Compact, hook type (GP2A231LRSAF),
(Following
multi types of paper detectable, light modulation type,
diagram [B])
with connector
Multi types of paper detectable, light modulation type,
sensitivity adjusted, improved light-resistance characteristic
for inverter lighting, built-in visible light cut filter
(Following
Multi types of paper detectable, light modulation type,
diagram [A])
with connector, sensitivity adjusted
Multi types of paper detectable, light modulation type,
with connector, sensitivity adjusted, hook type
5 to 15
4.75
5.25
30*1
5
0.4
5
5 to 15
4.75
5.25
30*1
5
0.4
5
2.5 to
12.5
4.75
5.25
30*1
5
0.4
5
3 to 7
4.75
5.25
30*1
5
0.4
5
3 to 7
4.75
5.25
20*1
5
0.4
5
3 to 7
4.75
5.25
30*1
5
0.4
5
3 to 7
4.75
5.25
30*1
5
0.4
5
3 to 7
4.75
5.25
30*1
5
0.4
5
❇ Topr: –10 to +60°C (GP2A25J0000F, etc.)
–10 to +70°C (GP2A200LCS0F, GP2A240LCS0F, GP2A250LCS0F, GP2A230LRS0F, GP2A230LRSAF, GP2A231LRSAF)
*1 Smoothing value R L = ∞
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
[Internal connection diagram]
[A]
Voltage regulator
Demodulator
GP2A25J0000F
Amplifier
Comparator
Oscillator
Synchronous detector
 GP2A25NJJ00F, GP2A200LCS0F, 
 GP2A240LCS0F

GP2A250LCS0F
[B]
Voltage regulator
Demodulator
(10kΩ)
Amplifier
GP2A25DJ000F
Comparator
60
Oscillator
GP2A230LRS0F
GP2A231LRSAF▲
GP2A28AJ000F
Synchronous detector
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PHOTOINTERRUPTERS FOR SPECIFIC APPLICATIONS
■ Photointerrupters for Specific Applications
◆Transmissive Type
<Case type, with encoder function>
(Ta = 25°C)
Absolute maximum ratings
Electro-optical characteristics
Vcc
(V)
Topr
(°C)
GP1A057RBKLF
GP1A054RDKLF
GP1A057SGKLF
GP1A058SCK0F
6
6
6
6
–10 to +70
–10 to +70
–10 to +70
–10 to +70
Operating
voltage
Vcc (V)
TYP.
3.3
3.3
3.3
3.3
GP1A101C2KSF
6.5
–10 to +70
3.3
Model No.
Response frequency
Output signal
Resolution
f (kHz)
MAX.
IF (mA)
60
60
25
60
20
20
20
20
Dissipation
current
(output side)
Icc (mA) MAX.
7
5.5
5.5
5.5
120
20
20
Linear scale slit pitch 0.17 (mm) (150LPI)
Linear scale slit pitch 0.0847 (mm) (300LPI)
Linear scale slit pitch 0.56 (mm) (45LPI)
Linear scale slit pitch 0.14 (mm) (180LPI)
Resolution for reading: 180 LPI
Digital 2 output
(Pitch: 0.14 mm)
(Multiplying output)
Output resolution: 360 LPI
Digital 2 output
(Phase A/B)
* High precision read and low affection of angle error from vibration thanks to the multi-segment PD system.
Duty ratio: 50±15%, phase difference: 90±45°
GP1A057RBKLF
(GP1A057SGKLF)
GP1A058SCK0F
GP1A101C2KSF
<For amusement use>
Model No.
Internal
connection
diagram
(Ta = 0 to +40°C)
Features
Detecting
and emitting
gap
(mm)
Slit width
(mm)
4.0
0.5
Electro-optical characteristics
Operating voltage
Low level output voltage
Vcc (V)
IOL
VCC
VOL (V) Light
MIN.
MAX.
MAX. cut-off
(mA)
(V)
Optoelectronics
GP1A054RDKLF
Voltage regulator
Connector with lock,
screw mounting type,
high resistant to noise
GP1A204HCS0
10.8
24
0.4
Yes
5
10.8 to 24
Amplifier
GP1A204HCS0
◆Reflective Type
<Case type, phototransistor output>
Model No.
GP2S29SVJ00F
❇ Topr: –25 to +85°C
Internal
connection
diagram
(Ta = 25°C)
Electro-optical characteristics
Peak photocurrent
Response time
IF
VCE
tr (µs)
IC
RL
ICP
(mA)
(mA)
(V)
TYP.
(mA)
(kΩ)
Features
Long focal distance (with prism system*1),
compact, screw mounting type
0.4 to
3.0*1
20
5
38
0.5
1
VCE
(V)
2
*1 Space between prism and sensor is 8 mm.
GP2S29SVJ00F
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
61
OPTO
PHOTOINTERRUPTERS FOR SPECIFIC APPLICATIONS /
PROXIMITY SENSOR
<For amusement use>
(Ta = 25°C)
Model No.
GP2A222HCKA
Electro-optical characteristics
Supply voltage
Dissipation current Response frequency
Vcc (V)
Icc (mA)
f (Hz)
Features
Employs reflective type, pinball detector, connector with lock
In conjunction with an IC, detects beam interruption*1
4.5 to 16.5
MAX. 12
MAX. 500
*1 Used together with interface IC for control (IR3N184)
GP2A222HCKA
■ Proximity Sensor
(Ta = 25°C)
Absolute maximum ratings
Model No.
GP2AP002S00F
62
Features
Compact size (4.0 × 2.0 × 1.25 t mm)
Drastically reduced LED current consumption by
employing a light modulation system
Built-in LEDs for simple optical design and I 2C output
VCC
(V)
Topr
(°C)
3.8
–25 to +85
Electro-optical characteristics
NonPeak
Detecting
detecting
Dissipation
emission
distance
distance
current
wavelength
Lon
Loff
Icc (µA)
λp
(mm)
(mm)
TYP.
(nm)
MIN.
MAX.
240
25
150
940
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
PROXIMITY SENSOR WITH INTEGRATED
AMBIENT LIGHT SENSOR
OPTO
✩New product
■ Proximity Sensor with Integrated Ambient Light Sensor
Absolute maximum ratings
Model No.
Features
LED and ambient light sensor
combined in a single package
(5.6 × 2.1 × 1.25 t mm)
Drastically reduced LED
current consumption by
employing a light modulation
GP2AP002A00F ▲
system
Built-in LEDs for simple optical
design
Proximity sensor: I2C output
Ambient light sensor: logarithmic current output
VCC
(V)
Topr
(°C)
3.8
–25 to
+85
(Ta = 25°C)
Electro-optical characteristics
Proximity sensor portion
Ambient light sensor portion
Output current
RecomNonDissipation Detecting
Peak
Peak
mended
detecting
current
sensitivity
emission
distance
illuminance
distance
Io1
Io2
Icc (µA)
wavelength
wavelength
Lon
range
Loff
(µA)
(µA)
TYP.
λp
λp
(mm)
Ev (lx)
(mm)
TYP.
MAX.
(nm)
(nm)
MIN.
MIN.
MAX.
270
25
150
940
3 to
55 000
30
1
(at Ev = (at Ev =
1 000 lx) 0 lx)
555
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
(Ta = 25°C)
Absolute maximum ratings
Electro-optical characteristics
Model No.
✩GP2AP030A00F
Features
LED and ambient light sensor combined in
a single package (4.0 × 2.1 × 1.25 t mm)
Built-in LEDs for simple optical design
Illuminance output: digital 16-bit output
(Minimum detectable illuminance: 0.02 lx)
I2C output compatible (proximity sensor,
ambient light sensor)
GP2AP002S00F
VCC
(V)
Topr
(°C)
5.5
–35 to
+85
65
GP2AP002A00F▲
Detecting
distance
Lon
(mm)
TYP.
100
Ambient light sensor portion
ADC
RecomPeak
conversion
mended
Output
emission
time
illuminance
resolution
wavelength
Tint
range
(bit)
λp
(ms)
Ev
(nm)
TYP.
(lx)
940
0.02 to
10 000
16
Optoelectronics
Proximity sensor portion
Dissipation
current
Icc
(µA)
TYP.
100
GP2AP030A00F
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
63
PROXIMITY/GESTURE SENSOR WITH
INTEGRATED AMBIENT LIGHT SENSOR
OPTO
✩New product
■ Proximity/Gesture Sensor with Integrated Ambient Light Sensor
Absolute maximum ratings
(Ta = 25°C)
Electro-optical characteristics
Proximity/gesture
sensor portion
Model No.
✩GP2AP052A00F
Features
LED and ambient light sensor combined in
a single package (5.6 × 2.1 × 1.25 t mm)
Built-in LEDs for simple optical design
Illuminance output: digital 16-bit output
(Minimum detectable illuminance: 0.02 lx)
I2C output compatible
Gesture recognition: directional hand
movements detected without touching the
screen
VCC
(V)
Topr
(°C)
5.5
–35 to
+85
Ambient light sensor portion
DissipaDissipation
tion
ADC
Recomcurrent Detecting
Peak
current
conversion
mended
Icc
Output
distance
emission
Icc
time
illuminance
(Gesture)
resolution
Lon
wavelength
(µA)
Tint
range
(µA)
(bit)
(mm)
λp
TYP.
(ms)
Ev
TYP.
TYP.
(nm)
TYP.
(lx)
65
200
100
940
0.02 to
10 000
16
100
GP2AP052A00F
64
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
AMBIENT LIGHT SENSORS
■ Ambient Light Sensors
(Ta = 25°C)
Absolute maximum ratings
Type
Package
Built-in amplification circuit
Peak sensitivity characteristic close
to human visual sensitivity
GA1A2S100SS
Output characteristic: Linear current
output for illuminance
Lead frame (straight) type
Built-in amplification circuit
Peak sensitivity characteristic close
to human visual sensitivity
GA1A2S100LY
Output characteristic: Linear current
output for illuminance
Lead frame (L bend) type
Built-in amplification circuit
Peak sensitivity characteristic close
GA1A1S202WP to human visual sensitivity
Output characteristic: Logarithmic
current output for illuminance
Built-in amplification circuit
Peak sensitivity characteristic close
to human visual sensitivity
GA1A1S203WP ▲
Output characteristic: Logarithmic
current output for illuminance
Thin type
Built-in amplification circuit
Peak sensitivity characteristic close
to human visual sensitivity
GA1A1S204WP
Output characteristic: Logarithmic
current output for illuminance
Back-mount-available type
Built-in amplification circuit
Peak sensitivity characteristic close
GA1A1S100WP to human visual sensitivity
Output characteristic: Linear current
output for illuminance
Output current
Recommended Recommended Dissipation
Peak
Topr supply voltage illuminance
current
sensitivity
Io2
Io1
(°C)
VCC
Icc (µA) wavelength (µA)
range
(µA)
(V)
TYP.
Ev (lx)
λp (nm)
TYP.
TYP.
VCC
(V)
IO
(mA)
7.0
5
–40 to
+85
2.7 to 3.6
10 to 10 000
500
555
480
48
(at Ev = (at Ev =
1 000 lx) 100 lx)
7.0
5
–40 to
+85
2.7 to 3.6
10 to 10 000
500
555
48
480
(at Ev = (at Ev =
1 000 lx) 100 lx)
Compact SMD
(2.0 × 1.6
× 0.6 mm)
Leadless
7.0
1
–40 to
+85
2.3 to 3.2
3 to 55 000
70
555
30
20
(at Ev = (at Ev =
100 lx) 1 000 lx)
Compact SMD
(2.0 × 1.6
× 0.42 mm)
Leadless
7.0
1
–40 to
+85
2.3 to 3.2
3 to 55 000
70
555
20
30
(at Ev = (at Ev =
100 lx) 1 000 lx)
Compact SMD
(3.3 × 2.0
× 0.6 mm)
Back-mount
available,
leadless
7.0
1
–40 to
+85
2.3 to 3.2
3 to 55 000
70
555
30
20
(at Ev = (at Ev =
100 lx) 1 000 lx)
Compact SMD
(2.0 × 1.6
× 0.6 mm)
Leadless
7.0
10
–40 to
+85
2.7 to 3.6
10 to 5 000
1 460
555
1 420
142
(at Ev = (at Ev =
1 000 lx) 100 lx)
Transparent
epoxy resin
(3 × 4 mm)
Optoelectronics
Model No.
Electro-optical characteristics
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
GA1A2S100SS
GA1A2S100LY
GA1A1S202WP
(GA1A1S100WP)
GA1A1S203WP▲
GA1A1S204WP
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
65
OPTO
OPIC LIGHT DETECTORS
(Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a
■ OPIC Light Detectors ( “OPIC”
light-detecting element and signal-processing circuit integrated onto a single chip. )
Absolute maximum ratings
Model No.
IS485E
IS486E
EVLH EVHL
(Ix)
(Ix)
MAX. MAX.
(Ta = 25°C)
Electro-optical characteristics
tPLH
tPHL
VCC
(µs)
(µs)
VCC
(V)
TYP.
TYP.
(V)
Type
Package
VCC
(V)
Built-in schmidt trigger
circuit, amplifier and
voltage regulator
Transparent
epoxy resin with
condenser (lens)
–0.5 to +17
175
50
–25 to +85
–
35
5
5
3
–0.5 to +17
175
50
–25 to +85
35
–
5
3
5
Topr
(°C)
P
IO
(mW) (mA)
EV
(Ix)
RL
(Ω)
5
50
280
5
50
280
IS485E
(IS486E)
<Low-voltage operation>
(Ta = 25°C)
Absolute maximum ratings
Model No.
IS489E
Type
Package
Built-in Schmidt trigger
circuit and amplifier
Transparent
epoxy resin with
condenser (lens)
Topr
(°C)
Operating
supply
voltage (V)
–25 to +85
1.4 to 7.0
P
IO
(mW) (mA)
80
2
Electro-optical characteristics
EVLH EVHL
tPHL
tPLH
(Ix)
(Ix)
VCC
(µs)
(µs)
MAX. MAX.
(V)
TYP.
TYP.
–
15
3
1.3
8.5
VCC
(V)
EV
(Ix)
RL
(Ω)
3
125
3 000
IS489E
<Model employing a light modulation system>
(Ta = 25°C)
Absolute maximum ratings
Model No.
IS471FE*1, *3
Type
Package
Built-in pulse driver
circuit at the emitter
Visible light
side, synchronous
cut-off epoxy
detector circuit,
resin
amplifier circuit and
demodulator circuit
VCC
(V)
–0.5 to +16
Topr
(°C)
VOL
(V)
MAX.
–25 to +60
0.35
P
IO
(mW) (mA)
250
50
Electro-optical characteristics*2
tPLH
tPHL
VOH
(V)
(µs)
(µs)
VCC
MIN.
TYP.
TYP.
(V)
4.97
400
400
5
RL
(Ω)
External
disturbing light
illuminance
EVDX(Ix) TYP.
280
7 000
*1 IS471FE is less susceptible to disturbing effects thanks to the light modulation system
*2 Vcc = 5 V
*3 Straight lead type (IS471FSE) is also available.
IS471FE
66
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
OPIC LIGHT DETECTORS
<For laser beam printers (laser beam origin detection)>
(Ta = 25°C)
Electro-optical characteristics
Model No.
GA220T2L2IZ▲
Type
2-PD, differential type
Package
Transparent epoxy resin
18-pin
Recommended supply
voltage
VCC
(V)
VOH
(V)
MIN.
VOL
(V)
MAX.
4.5 to 5.5
4.9
0.6
H → L delay time variation
∆tPHL
(ns) MAX.
±8.5
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
Optoelectronics
GA220T2L2IZ▲
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
67
PHOTOTRANSISTOR LINEUP /
PHOTOTRANSISTORS
OPTO
■ Phototransistor Lineup
Package
Epoxy resin with lens
Output type
Single phototransistor
Visible light
cut-off
Standard
General purpose/Narrow acceptance
±13°
PT480E00000F
PT480FE0000F
Compact, thin
±35°
PT4800E0000F
PT4800FE000F /
PT4850FE000F
High sensitivity/Narrow acceptance
±13°
PT481E00000F
PT481FE0000F
High sensitivity/Narrow acceptance/Long lead
±13°
—
PT483F1E000F ▲
High sensitivity/Intermediate acceptance
±40°
—
PT491FE0000F
Single phototransistor
Compact
(side view/top view mounting possible)
±15°
Darlington
phototransistor
Compact
(side view/top view mounting possible)
±15°
Darlington
phototransistor
Surface mounting
leadless type
Model No.
Half
sensitivity
angle
Features
PT100MC0MP
PT100MF0MP
—
PT100MF1MP
Type
■ Phototransistors
Model No.
PT100MC0MP
PT100MF0MP*1
Absolute maximum ratings
PC
Topr
VCEO
(V)
(mW)
(°C)
Package
Surface mounting
leadless type with lens
Single
PT480E00000F
PT480FE0000F* 1
PT4800E0000F
Epoxy resin with lens
Darlington
PT4800FE000F* 1
MIN.
Ic (mA)
VCE
MAX.
(V)
MAX.
VCE
(V)
∆θ
(°)
TYP.
λp
(nm)
TYP.
ICEO(A)
Ee
(mW/cm2)
35
75
–30 to +85
1.7
5.1
5
1
1 × 10–7
20
±15
900
35
75
–30 to +85
1.15
3.45
5
1
1 × 10–7
20
±15
910
35
75
–25 to +85
0.4
TYP. 1.7
5
1
1 × 10–7
20
±13
800
10–7
35
75
–25 to +85
0.25
TYP. 0.8
5
1
1×
20
±13
860
35
75
–25 to +85
0.12
TYP. 0.4
5
1
1 × 10–7
20
±35
800
35
75
–25 to +85
0.08
TYP. 0.25
5
1
1 × 10–7
20
±35
860
1×
10–7
PT4850FE000F* 1
35
75
–25 to +85
0.12
0.56
5
1
20
±35
860
PT481E00000F
35
75
–25 to +85
1.5
25
2
0.1
1 × 10–6
10
±13
800
10–6
PT481FE0000F* 1
PT483F1E000F* 1▲
PT491FE0000F* 1
PT100MF1MP*1
35
75
–25 to +85
0.9
27
2
0.1
1×
10
±13
860
35
75
–25 to +85
1.5
4.0
2
0.1
1 × 10–6
10
±13
860
35
75
–25 to +85
0.2
0.8
2
Ev, 2 Ix
1 × 10–6
10
±40
860
35
75
–30 to +85
0.2
1.2
5
0.01
1 × 10–6
10
±15
860
Epoxy resin with lens
Surface mounting
leadless type with lens
*1 Visible light cut-off type
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
PT100MF0MP
 PT100MF1MP, 
 PT100MC0MP: 
 Transparent resin 
68
PT480E00000F
 PT480FE0000F, 
 PT481E00000F, 
 PT481FE0000F 
PT4800E0000F
 PT4800FE000F, 
 PT4810E0000F, 
 PT4850FE000F 
PT483F1E000F▲
PT491FE0000F
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
PIN PHOTODIODES
■ PIN Photodiodes
PD410PI2E00F
PD411PI2E00F
PD412PI2E00F
PD413PI2E00F
PD100MC0MP
PD100MF0MP
Features
Package
(Material)
Visible light cut-off epoxy
resin with condenser (lens)
Transparent epoxy resin with
PIN type
condenser (lens)
Transparent epoxy resin with
condenser (lens)
PIN type
Visible light cut-off epoxy
IrDA1.0
resin with condenser (lens)
Surface mounting Transparent epoxy resin
leadless type
board with lens
Surface mounting Visible light cut-off epoxy
leadless type
resin board with lens
PD410PI2E00F
Active
area
(mm2)
Topr
(°C)
Isc
(µA)
MIN.
Ev
(Ix)
Id
(A)
MAX.
VR
(V)
tr, tf
(µs)
TYP.
VR
(V)
RL
(kΩ)
λp
(nm)
TYP.
3.31
–25 to +85
2.5
100
1 × 10–8
10
0.2
10
1
1 000
3.31
–25 to +85
5.0
100
1 × 10–8
10
0.2
10
1
960
3.31
–25 to +85
3.5
100
1 × 10–8
10
0.25
10
1
800
3.31
–25 to +85
MIN. 4.5
(TYP. 5.4)
100
1 × 10–8
10
0.2
10
1
960
–
–30 to +85
0.6
100
1 × 10–8
10
0.01
15
0.18
820
–
–30 to +85
0.4
100
1 × 10–8
10
0.01
15
0.18
850
 PD411PI2E00F: transparent; PD412PI2E00F: transparent, 
 PD413PI2E00F

PD100MC0MP
(PD100MF0MP: black)
Optoelectronics
Model No.
(Ta = 25°C)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
69
INFRARED EMITTING DIODE LINEUP /
INFRARED EMITTING DIODES
OPTO
■ Infrared Emitting Diode Lineup
Type
Single-end lead
Package
Half intensity
angle
Features
Epoxy resin with lens
Model No.
General purpose/Narrow beam angle
±13°
GL480E00000F
Compact and thin
±30°
GL4800E0000F
Compact/Narrow beam angle
±10°
GL100MN0MP
±10°
GL100MN1MP
±80°
GL100MD1MP1
(Side view type)
Surface mount type
Epoxy resin with lens/
leadless
(Mountable for Top view/
Side view type)
High output type
Compact/Wide beam angle
■ Infrared Emitting Diodes
Model No.
Package, features
GL480E00000F
(Ta = 25°C)
Absolute maximum ratings
VR
P
Topr
IF
(mA) (V) (mW)
(°C)
Radiant flux Φe (mW)
IF
MIN.
TYP.
(mA)
TYP.
MAX.
IF
(mA)
∆θ
(°)
TYP.
λp
(nm)
TYP.
VF (V)
50
6
75
–25 to +85
0.7
–
20
1.2
1.4
20
±13
950
50
6
75
–25 to +85
0.7
1.6
20
1.2
1.4
20
±30
950
50
6
75
–30 to +85
1.0
3.0
(MAX.)
20
1.2
1.4
20
±10
940
50
6
75
–30 to +85
2.0
6.0
(MAX.)
20
1.2
1.5
20
±10
940
50
6
75
–30 to +85
–
6.0
(MAX.)
20
–
1.5
20
±80
940
Epoxy resin with lens
GL4800E0000F
GL100MN0MP
GL100MN1MP
GL100MD1MP1
Surface mounting leadless type,
epoxy resin board with lens
Surface mounting leadless type,
epoxy resin board with lens,
high output type
Surface mounting leadless type,
epoxy resin board with lens,
wide beam angle
GL480E00000F
70
GL4800E0000F
GL100MN0MP
(GL100MN1MP, GL100MD1MP1)
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
OPTICAL-ELECTRIC SENSOR LINEUP
■ Distance Measuring Sensor Lineup
Detected distance
1.5 cm
Features
Battery drive compatible, compact, 1-bit digital output
Capable of operation at high
temperature (–30 to +105°C)
Battery drive compatible, compact, 1-bit digital output
GP2Y0D805Z0F
10 cm
Battery drive compatible, compact, 1-bit digital output
GP2Y0D810Z0F
GP2Y0D810Z1F
15 cm
Battery drive compatible, compact, 1-bit digital output
GP2Y0D815Z0F
13 cm
1-bit digital output
GP2Y0D413K0F
24 cm
1-bit digital output
GP2Y0D21YK0F
80 cm
1-bit digital output
GP2Y0D02YK0F
Range of distance
measuring
Analog voltage output
according to distance
measuring
(Including I2C output)
GP2Y5D91S00F
5 cm
Wide operating temperature type
(–40 to +85°C)
Output
Model No.
Features
Model No.
1.5 to 15 cm
Analog output
GP2Y0AF15 series
2 to 15 cm
Analog output
GP2Y0A51SK0F
4 to 30 cm
Analog output
GP2Y0A41SK0F / GP2Y0AF30 series
Analog output
GP2Y0E02A
I2C output
GP2Y0E02B
Analog, I2C output
GP2Y0E03
10 to 80 cm
Analog output
GP2Y0A21YK0F
10 to 150 cm
Compact (22 × 8 × 7.2 [T] mm),
Analog output
GP2Y0A60SZ0F / GP2Y0A60SZLF
20 to 150 cm
Analog output
GP2Y0A02YK0F
100 to 550 cm
Analog output
GP2Y0A710K0F
4 to 50 cm
CMOS type
Optoelectronics
Output
1-bit digital output according
to distance measuring
■ High-Precision Displacement Sensor
Range of distance
measuring
Output
Voltage output according to
distance measuring
4.5 to 6.0 mm
Features
Resolution: 50 µm
Model No.
GP2Y0AH01K0F
■ Dust Sensor Unit Lineup
Output
Analog output
Features
Pulse analog output, single-shot detection of house dust,
general purpose
Model No.
GP2Y1010AU0F
71
OPTO
DISTANCE MEASURING SENSORS
■ Distance Measuring Sensors (1)
◆Digital Output
Model No.
GP2Y5D91S00F
1.5
GP2Y0D805Z0F
5
GP2Y0D810Z0F
10
GP2Y0D810Z1F
10
GP2Y0D815Z0F
15
GP2Y0D413K0F
13
GP2Y0D21YK0F
24
GP2Y0D02YK0F
80
*1 Vcc = 5 V
72
Detected
distance
(cm)
(Ta = 25°C)
Absolute maximum ratings
Features
Light detector,
infrared LED and signal processing circuit,
short distance measuring type,
battery drive compatible
(operating power supply: 2.7 to 6.2 V),
capable of operation at high temperature
Light detector,
infrared LED and signal processing circuit,
short distance measuring type,
battery drive compatible
(operating power supply: 2.7 to 6.2 V)
Light detector,
infrared LED and signal processing circuit,
short distance measuring type,
battery drive compatible
(operating power supply: 2.7 to 6.2 V)
Light detector,
infrared LED and signal processing circuit,
short distance measuring type,
battery drive compatible
(operating power supply: 2.7 to 6.2 V),
wide operating temperature type
Light detector,
infrared LED and signal processing circuit,
short distance measuring type,
battery drive compatible
(operating power supply: 2.7 to 6.2 V)
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
digital voltage output according to the measured
distance
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
digital voltage output according to the measured
distance
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
long distance measuring type
(No external control signal required),
digital voltage output according to the measured
distance
Electro-optical characteristics*1
Dissipation current
VOH
VOL
(V)
(V)
Operating Standby
MIN.
MAX.
(mA)
(µA)
Vcc
(V)
Topr
(°C)
–0.3 to +7
–30 to +105
Vcc –0.6
0.6
TYP. 7
–
–0.3 to +7
–10 to +60
Vcc –0.6
0.6
MAX. 6.5
MAX. 8
–0.3 to +7
–10 to +60
Vcc –0.6
0.6
MAX. 6.5
MAX. 8
–0.3 to +7
–40 to +85
Vcc –0.6
0.6
TYP. 5
MAX. 8
–0.3 to +7
–10 to +60
Vcc –0.6
0.6
MAX. 6.5
MAX. 8
–0.3 to +7
–10 to +60
Vcc –0.3
0.6
–
–
–0.3 to +7
–10 to +60
Vcc –0.3
0.6
MAX. 40
–
–0.3 to +7
–10 to +60
Vcc –0.3
0.6
MAX. 50
–
❇ PSD: Position Sensitive Detector
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
DISTANCE MEASURING SENSORS
✩New product
★Under development
■ Distance Measuring Sensors (2)
◆Analog Output (Including I2C output)
Distance
measuring
range
(cm)
★GP2Y0AF15 series
1.5 to 15
GP2Y0A51SK0F
Features
Vcc
(V)
Topr
(°C)
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
short measuring cycle (16.5 ms), compact,
lineup of various connector shapes
–0.3 to +7
–10 to +60
2 to 15
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
short measuring cycle (16.5 ms)
–0.3 to +7
–10 to +60
★GP2Y0AF30 series
4 to 30
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
short measuring cycle (16.5 ms), compact,
lineup of various connector shapes
–0.3 to +7
–10 to +60
GP2Y0A41SK0F
4 to 30
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
short measuring cycle (16.5 ms)
–0.3 to +7
–10 to +60
–0.3 to +3.6
–10 to +60
–0.3 to +3.6
–10 to +60
Infrared LED and CMOS image sensor with built-in
signal processing circuit, compact size
(18.9 × 8 × 5.2 mm), high-precision measurement,
analog output
Infrared LED and CMOS image sensor with built-in
signal processing circuit, compact size
(18.9 × 8 × 5.2 mm), high-precision measurement,
I2C output
✩GP2Y0E02A
4 to 50
✩GP2Y0E02B
4 to 50
✩GP2Y0E03
4 to 50
Infrared LED and CMOS image sensor with built-in
signal processing circuit, compact size
–0.3 to +5.5
(16.7 × 11 × 5.2 mm), high-precision measurement,
analog / I2C output both compatible
–10 to +60
10 to 80
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
linear voltage output
–0.3 to +7
–10 to +60
–0.3 to +5.5
–10 to +60
–0.3 to +7
–10 to +60
–0.3 to +7
–10 to +60
GP2Y0A21YK0F
*2
GP2Y0A60SZ0F/
GP2Y0A60SZLF
10 to 150
GP2Y0A02YK0F
20 to 150
GP2Y0A710K0F
100 to 550
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
compact type (22 x 8 x 7.2 mm),
long distance measuring type
(No external control signal required)
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
long distance measuring type
(No external control signal required)
Distance measuring sensor united with PSD ❇,
infrared LED and signal processing circuit,
long distance measuring type
(No external control signal required)
*1 Vcc = 5 V
*2 GP2Y0A60SZ0F: Surface mount type
GP2Y0A60SZLF: Board insertion type
*3 When Vcc = 3 V: Vo (TYP.) = 0.35 V (at L = 150 cm); ∆Vo (TYP.) = 1.6 V (at L = 150 cm → 20 cm)
Electro-optical characteristics*1
Dissipation
VOH
VOL
current
(V)
(V)
Operating
MIN.
MAX.
(mA)
VO (TYP.) = 0.4 V
(at L = 15 cm),
TYP. 17
∆VO (TYP.) = 2.3 V
(at L = 15 cm → 1.5 cm)
VO (TYP.) = 0.4 V
(at L = 15 cm),
TYP. 12
∆VO (TYP.) = 2.25 V
(at L = 15 cm → 2 cm)
VO (TYP.) = 0.4 V
(at L = 30 cm),
TYP. 17
∆VO (TYP.) = 2.3 V
(at L = 30 cm → 4 cm)
VO (TYP.) = 0.4 V
(at L = 30 cm),
MAX. 22
∆VO (TYP.) = 2.25 V
(at L = 30 cm → 4 cm)
VOUT (A) 1 = 0.3 to 0.8 V
(at L = 50 cm),
MAX. 36
VOUT (A) 3 = 2.1 to 2.3 V
(at L = 4 cm)
D1 = 45 to 50 cm
(at L = 50 cm),
MAX. 36
D3 = 3 to 5 cm
(at L = 4 cm)
VOUT (A) 1 = 0.3 to 0.8 V,
D1 = 45 to 50 cm
(at L = 50 cm),
MAX. 36
VOUT (A) 3 = 2.1 to 2.3 V,
D3 = 3 to 5 cm
(at L = 4 cm)
VO (TYP.) = 0.4 V
(at L = 80 cm),
MAX. 40
∆VO (TYP.) = 1.9 V
(at L: 80 cm → 10 cm)
VO (TYP.) = 0.65 V *3
(at L = 150 cm),
∆VO (TYP.) = 3.0 V
(at L = 150 cm → 20 cm)
VO (TYP.) = 0.4 V
(at L = 150 cm),
∆VO (TYP.) = 2.05 V
(at L = 150 cm → 20 cm)
VO (TYP.) = 2.5 V
(at L = 100 cm),
∆VO (TYP.) = 0.7 V
(at L = 100 cm → 200 cm)
Optoelectronics
Model No.
(Ta = 25°C)
Absolute maximum ratings
MAX. 50
MAX. 50
TYP. 30
❇ PSD: Position Sensitive Detector
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
73
DISTANCE MEASURING SENSORS / HIGH-PRECISION
DISPLACEMENT SENSOR / DUST SENSOR UNIT
OPTO
GP2Y5D91S00F
GP2Y0D805Z0F
 GP2Y0D810Z0F, 
 GP2Y0D815Z0F, 
 GP2Y0D810Z1F 
GP2Y0AF15 series
GP2Y0AF30 series
GP2Y0E02A
(GP2Y0E02B)
GP2Y0E03
GP2Y0A60SZ0F
GP2Y0A60SZLF
GP2Y0A21YK0F
GP2Y0A51SK0F
GP2Y0D02YK0F
(GP2Y0A02YK0F)
GP2Y0A710K0F
 GP2Y0D21YK0F, 
 GP2Y0A41SK0F 
 GP2Y0D413K0F: 
 without mounting 
 hole

■ High-Precision Displacement Sensor
Model No.
GP2Y0AH01K0F
Topr
(°C)
Dissipation
current
(mA)
Distance
measuring
range (mm)
Distance characteristic of output
–10 to +60
4.5 to 5.5
TYP. 20
4.5 to 6.0
TYP. 1.70 V
Variation in output over range
(4.5 to 6.0 mm)
Features
Resolution: 50 µm
(Ta = 25°C)
Operating
supply voltage
(V)
GP2Y0AH01K0F
■ Dust Sensor Unit
(Ta = 25°C)
Model No.
Features
Topr
(°C)
GP2Y1010AU0F
Built-in infrared emitting diode,
photodiode and signal processing circuit,
compact, single-shot detection of house dust
–10 to +65
Electro-optical characteristics
Output voltage
Operating
Dissipation
Detection
at no dust
supply voltage
current
sensitivity
3
Voc (V)
(V)
(mA)
V/(0.1 mg/m )
4.5 to 5.5
TYP. 11
TYP. 0.5
TYP. 0.9
Output voltage
range
VOH (V)
MIN. 3.4
GP2Y1010AU0F
74
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
OPTO
FIBER OPTICS LINEUP FOR AUDIO EQUIPMENT
■ Fiber Optics Lineup for Audio Equipment
Type
Square connector
Fiber optic
transmitter
Outline
Without mounting
hole
Features
With shutter
Horizontal
mounting type
(EIAJ RC-5720B)
High speed signal
transmission
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
With mounting
hole
With shutter
Horizontal
mounting type
Model No.
Supply voltage
3 to 5 V
GP1FMV51TK0F
GP1FMV31TK0F
GP1FAV51TK0F*1
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
GP1FAV31TK0F
MAX. 50 Mb/s
Vertical
mounting type
Horizontal
mounting type
Without mounting
hole
With shutter
Horizontal
mounting type
With shutter
Horizontal
mounting type
Horizontal
mounting type
GP1FMV51RK0F
GP1FMV31RK0F
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
With protection
cap
GP1FAV50TK0F*1
GP1FAV30TK0F
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
With mounting
hole
GP1FSV51TK0F
GP1FSV31TK0F
(mounting height:
15 mm)
GP1FSB31TK0F
(mounting height:
8.5 mm)
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
Fiber optic
receiver
GP1FAV55TK0F
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
With protection
cap
GP1FAV51RK0F
GP1FAV31RK0F
MAX. 13.2 Mb/s
MAX. 15.5 Mb/s
Supply voltage
5V
Optoelectronics
Connector type
GP1FAV50RK0F
GP1FAV30RK0F
*1 TTL drive compatible
GP1FMV31 series
(GP1FMV51 series)
GP1FAV50TK0F
 GP1FAV50RK0F, 
 GP1FAV30TK0F, 
 GP1FAV30RK0F 
GP1FAV51TK0F
 GP1FAV31TK0F, 
 GP1FAV55TK0F, 
 GP1FAV51RK0F, 
 GP1FAV31RK0F 
GP1FSB31TK0F
GP1FSV31TK0F
(GP1FSV51TK0F)
75
FIBER OPTIC TRANSMITTERS (Square Connector) /
FIBER OPTIC RECEIVERS (Square Connector)
OPTO
■ Fiber Optic Transmitters (Square Connector)
Model No.
(Ta = 25°C)
Absolute maximum ratings
Appearance
Features
Mounting
Shutter
hole
Vcc
(V)
Topr
(°C)
Supply
voltage
(V)
Electro-optical characteristics
Propagation Dissipation Pulse Transmisdelay time
width sion speed
current
Icc
distortion
T
tPLH tPHL
(mA)
∆tw
(Mb/s)
(ns) (ns)
(ns)
MAX.
MAX. MAX. MAX.
GP1FMV31TK0F
No
Yes
Compact
–0.5 to +7
–20 to +70
2.7 to 5.25
180
180
12
±15
15.5
GP1FMV51TK0F
No
Yes
Compact
–0.5 to +7
–20 to +70
4.75 to 5.25
180
180
13
±15
13.2
–0.5 to +7
–20 to +70
2.7 to 5.25
180
180
12
±15
15.5
GP1FAV30TK0F▲
Yes
No
Low voltage drive,
with protection cap
GP1FAV50TK0F▲
Yes
No
TTL drive compatible,
with protection cap
–0.5 to +7
4.75 to 5.25
–20 to +70 Input voltage: 180
MIN. 2.0 V
180
13
±15
13.2
GP1FAV51TK0F
Yes
Yes
TTL drive compatible
–0.5 to +7
–20 to +70
4.75 to 5.25
180
180
13
±15
13.2
–0.5 to +7
–20 to +70
4.75 to 5.25
180
180
13
±15
13.2
GP1FSV51TK0F
No
Yes
Vertical mounting
(mounting height: 15 mm)
GP1FAV31TK0F
Yes
Yes
Low voltage drive
–0.5 to +7
–20 to +70
2.7 to 5.25
180
180
12
±15
15.5
–0.5 to +7
–20 to +70
2.7 to 5.25
180
180
13
±15
15.5
GP1FSV31TK0F
No
Yes
Vertical mounting
(mounting height: 15 mm)
GP1FAV55TK0F
Yes
Yes
High response speed
–0.5 to +7
–20 to +70
4.75 to 5.25
180
180
13
±15
50
Yes
Vertical mounting
(mounting height: 8.5 mm)
–0.5 to +7
–20 to +70
2.7 to 5.25
180
180
13
±15
15.5
GP1FSB31TK0F
No
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
■ Fiber Optic Receivers (Square Connector)
Appearance
Model No.
(Ta = 25°C)
Absolute maximum ratings
Features
Mounting
Shutter
hole
Vcc (V)
IOL
(mA)
Topr
(°C)
Supply
voltage
(V)
GP1FMV31RK0F
No
Yes
Compact, low voltage drive
–0.5 to +7 10 –20 to +70
180
180
15
±20
15.5
GP1FMV51RK0F
No
Yes
Compact
–0.5 to +7 10 –20 to +70 4.75 to 5.25 180
180
25
±20
13.2
–0.5 to +7 10 –20 to +70
180
180
15
±20
15.5
–0.5 to +7 10 –20 to +70 4.75 to 5.25 180
180
25
±20
13.2
–0.5 to +7 10 –20 to +70 4.75 to 5.25 180
180
25
±20
13.2
–0.5 to +7 10 –20 to +70
180
15
±20
15.5
GP1FAV30RK0F▲
Yes
No
Low voltage drive,
with protection cap
GP1FAV50RK0F▲
Yes
No
With protection cap
GP1FAV51RK0F
Yes
Yes
GP1FAV31RK0F
Yes
Yes
Low voltage drive
2.7 to 3.6
Electro-optical characteristics
Propagation Dissipation Pulse Transmisdelay time
width sion speed
current
Icc
distortion
T
tPLH tPHL
(mA)
∆tw
(Mb/s)
(ns) (ns)
(ns)
MAX.
MAX. MAX. MAX.
2.7 to 3.6
2.7 to 3.6
180
The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.
76
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
IR DETECTING UNIT FOR REMOTE CONTROL LINEUP
(CLASSIFIED BY FORM)
OPTO
■ IR Detecting Unit for Remote Control Lineup (Classified by Form)
Package
IR detecting unit
for remote control
Form
Detection
position*5
(from PCB)
Features
Operating voltage
Model No.
Compact, thin type
SMD (4.5 × 5.0 × 1.35 t mm)
3 to 5 V General type
GP1USC3xXP series
Compact type
SMD (6.8 × 2.1 × 2.35 t mm)
3 to 5 V
GP1UF31 series
3 to 5 V
GP1UE28XK0VF series
Lead L bend
with shield case
(holder)
16.0 mm*1
Compact size
Compact size, Strengthened
resistance to electromagnetic
induction noise (Mesh type)
12.0 mm*2
Compact size
Compact size, Strengthened
resistance to electromagnetic
induction noise (Mesh type)
6.8 mm*3
Compact size
Compact size, Strengthened
resistance to electromagnetic
induction noise (Mesh type)
Lead straight
with shield case
(holder)
19.0 mm
9.6 mm
Compact size, Strengthened
resistance to electromagnetic
induction noise (Mesh type)
Compact size
Compact size, Strengthened
resistance to electromagnetic
induction noise (Mesh type)
Holderless
Lead straight
6.0 mm
Lead L bend*4
5.3 mm
5V
GP1UM28XK0VF series
3 to 5 V General type
GP1UE28xXKC4 series
3 to 5 V
GP1UE28RK0VF series
5V
GP1UM28RK0VF series
3 to 5 V General type
GP1UE28xRKC4 series
3 to 5 V
GP1UE27XK0VF series
5V
GP1UM27XK0VF series
3 to 5 V General type
GP1UE27xXKC4 series
3 to 5 V
GP1UE27RK0VF series
5V
GP1UM27RK0VF series
3 to 5 V General type
GP1UE27xRKC4 series
3 to 5 V
GP1UE26XK0VF series
5V
GP1UM26XK0VF series
3 to 5 V General type
GP1UE26xXKC4 series
3 to 5 V
GP1UE26RK0VF series
5V
GP1UM26RK0VF series
3 to 5 V General type
GP1UE26xRKC4 series
3 to 5 V
GP1UE29QK0VF series
5V
GP1UM29QK0VF series
3 to 5 V General type
GP1UE29xQKC4 series
3 to 5 V
GP1UE28YK0VF series
5V
GP1UM28YK0VF series
3 to 5 V General type
GP1UE28xYKC4 series
3 to 5 V
GP1UE28QK0VF series
5V
GP1UM28QK0VF series
3 to 5 V General type
GP1UE28xQKC4 series
3 to 5 V
GP1UX31QS series
5V
GP1UX51QS series
3 to 5 V General type
GP1UXC4xQS series
3 to 5 V
GP1UX31RK series
5V
GP1UX51RK series
3 to 5 V General type
GP1UXC4xRK series
IR Devices
Type
*1 Mesh type (strengthened resistance to electromagnetic induction noise): 16.4 mm
*2 Mesh type: 12.4 mm
*3 Mesh type: 7.2 mm
*4 Mesh type: 5.3 mm
*5 Lead straight: Distance from lens center to mounting board upper surface
No mesh lead L bend: Distance from tip of lens to mounting board upper surface
Mesh-type lead L bend: Distance from tip of mesh to mounting board upper surface
77
OPTO
IR DETECTING UNITS FOR REMOTE CONTROL
■ IR Detecting Units for Remote Control
Absolute maximum ratings
Type
Surface-mount type,
Reflow soldering
compatible
With shield case (holder),
3 to 5 V drive (New type)
Series No.
GP1UF31xXP0F/ *5
GP1UF31xYP0F
0 to 6.0
Topr (°C)
Operating
voltage
(V)
–30 to +85 2.7 to 5.5
0.4
Vcc–0.5
Size (mm)
Terminal
layout
0.45
*4
6.8 × 2.1 × 2.35
–
5 × 4.5 × 1.3
–
GP1USC3xXP
0 to 6.0
–30 to +85 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
GP1UE26xXKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 9.6 × 6.8
GP1UE27xXKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 9.6 × 12.0
GP1UE28xXKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 9.6 × 16.0
GP1UE28xYKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 8.6 ×
12.5(9.6)*2
GP1UE26xRKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 9.6 × 7.2
GP1UE27xRKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 9.6 × 12.4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.6 × 9.6 × 16.4
With shield case (holder),
3 to 5 V drive,
GP1UE28xRKC4
Strengthened resistance to
electromagnetic induction
GP1UE28xQKC4
noise (New type)
With shield case (holder),
5 V drive
Vcc (V)
(Ta = 25°C)
Electrical characteristics
VOL
fo
VOH
Icc
(V)
(V) (kHz)
(mA)*1
MIN.
MAX. TYP.
MAX.
5.6 × 9.0 ×
12.5(9.6)*2
5.6 × 16.2 ×
21.9(19)*2
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
GP1UE29xQKC4
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
GP1UM26XK0VF
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
5.6 × 9.6 × 6.8
5.6 × 9.6 × 12.0
GP1UM27XK0VF
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
GP1UM28XK0VF
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
5.6 × 9.6 × 16.0
GP1UM28YK0VF
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
5.6 × 8.6 ×
12.5(9.6)*2
GP1UM26RK0VF
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
5.6 × 9.6 × 7.2
5.6 × 9.6 × 12.4
5.6 × 9.6 × 16.4
GP1UM27RK0VF
With shield case (holder),
5 V drive,
GP1UM28RK0VF
Strengthened resistance to
electromagnetic induction
GP1UM28QK0VF
noise
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
GP1UM29QK0VF
0 to 6.0
–10 to +70 4.5 to 5.5 0.6 (0.65) Vcc–0.5
0.45
*3
GP1UE26XK0VF
0 to 6.0
–10 to +70 2.7 to 5.5
0.45
*3
5.6 × 9.6 × 6.8
5.6 × 9.6 × 12.0
With shield case (holder),
3 to 5 V drive
0.4
Vcc–0.5
5.6 × 9.0 ×
12.5(9.6)*2
5.6 × 16.2 ×
21.9(19)*2
GP1UE27XK0VF
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
GP1UE28XK0VF
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
5.6 × 9.6 × 16.0
GP1UE28YK0VF
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
5.6 × 8.6 ×
12.5(9.6)*2
GP1UE26RK0VF
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
5.6 × 9.6 × 7.2
5.6 × 9.6 × 12.4
5.6 × 9.6 × 16.4
GP1UE27RK0VF
With shield case (holder),
3 to 5 V drive,
GP1UE28RK0VF
Strengthened resistance to
electromagnetic induction
GP1UE28QK0VF
noise
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
GP1UE29QK0VF
0 to 6.0
–10 to +70 2.7 to 5.5
0.4
Vcc–0.5
0.45
*3
GP1UXC4xQS
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.5 × 5.3 × 7.5
GP1UXC4xRK
0 to 6.0
–10 to +70 2.7 to 5.5
0.6
Vcc–0.5
0.45
*3
5.5 × 5.3 × 7.5
GP1UX51QS
0 to 6.0
–10 to +70 4.5 to 5.5
0.6
Vcc–0.5
0.45
*3
5.5 × 5.3 × 7.5
GP1UX51RK
0 to 6.0
–10 to +70 4.5 to 5.5
0.6
Vcc–0.5
0.45
*3
5.5 × 5.3 × 7.5
GP1UX31QS
0 to 6.0
–10 to +70 4.5 to 5.5
0.4
Vcc–0.5
0.45
*3
5.5 × 5.3 × 7.5
GP1UX31RK
0 to 6.0
–10 to +70 4.5 to 5.5
0.4
Vcc–0.5
0.45
*3
5.5 × 5.3 × 7.5
Holderless, 3 to 5 V drive,
Strengthened resistance to
electromagnetic induction
noise (New type)
Holderless, 5 V drive,
Strengthened resistance to
electromagnetic induction
noise
Holderless, 3 to 5 V drive,
Strengthened resistance to
electromagnetic induction
noise
Center
Vcc
5.6 × 9.0 ×
12.5(9.6)*2
5.6 × 16.2 ×
21.9(19)*2
Center
GND
* A voltage regulator circuit is built-in but may be affected by the usage environment. Install with an externally mounted C and R as a power supply filter.
*1 When no signal is input (during input light).
*2 Figures in parentheses indicate the distance to the light detection center.
*3 fo = 32.75/36/36.7/38/40 kHz
Notice
*4 fo = 36/36.7/38/40 kHz
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
*5 GP1UF31xXP0F: Top view taped package,
equipment using any SHARP devices shown in catalogs, data books, etc.
GP1UF31xYP0F: Side view taped package
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
78
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LED
HIGH-LUMINOSITY WHITE SURFACE MOUNT LEDs /
HIGH-LUMINOSITY SURFACE MOUNT LEDs (RGB 3-COLOR)
✩New product
★Under development
■ High-Luminosity White Surface Mount LEDs
Outline
dimensions
(mm)
Model No.
(Tc = 25°C)
Color coordinates
(x, y)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP
Luminous intensity
(mcd)
TYP.
3.05
20
2 300
3.05
40
4 500
2.95
45
5 000
✩GM5BN98310A* 1
3.2 × 3.1 (t = 0.65)
✩GM5BN98320A* 1
(0.29, 0.28)
✩GM5BN98330A* 1
3.2 × 2.8 (t = 1.9)
★GM5BN96312A
(0.31, 0.31)
(3.05)
(20)
(2 500)
★GM5BN96317A
(0.29, 0.28)
(3.05)
(20)
(2 300)
*1 Protection elements are embedded in each chips of GM5BN98310A, GM5BN98320A and GM5BN98330A.
GM5BN98310A
GM5BN98320A
GM5BN98330A
GM5BN96312A
GM5BN96317A
■ High-Luminosity Surface Mount LEDs (RGB 3-Color)
Outline
dimensions
(mm)
3.2 × 3.1 (t = 0.65)
Model No.
GM5WA98330A*1
✩GM5WA98332A*1
(Tc = 25°C)
Radiation color
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP
Blue
3.2
20
Green
3.2
20
Red
2.2
20
Mixed color luminous intensity
(mcd) TYP.
IF (mA)
2 300
20
10
20
*1 Protection elements are embedded in the blue and green chips of GM5WA98330A, and in the blue, green and red chips of GM5WA98332A.
LEDs
GM5WA98330A
GM5WA98332A
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
79
LED
ZENIGATA LEDs FOR LIGHTING
is a registered trademark or a trademark of Sharp Corporation
■ Pico ZENIGATA LEDs ( ZENIGATA
)
in Japan, the United States and/or other countries.
<0.2W class>
Outline
dimensions
(mm)
2.8 × 2.8
(t = 1.9)
(Tc = 25°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GM2BB27QT1C
2 700
16.5
GM2BB30QT1C
3 000
17.5
GM2BB35QT1C
3 500
18.0
GM2BB40QT1C
4 000
GM2BB50QT1C
5 000
GM2BB57QT1C
5 700
20.0
GM2BB65QT1C
6 500
19.0
GM2BB50GT1C
5 000
22.5
70
Total luminous flux
(lm)
TYP.
Average color
rendering index
Ra
TYP.
2.95
50
19.0
2.8 × 2.8
(t = 1.9)
(Tc = 25°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
GM2BB27QB2C
2 700
32.5
GM2BB30QB2C
3 000
34.0
GM2BB35QB2C
3 500
GM2BB40QB2C
4 000
GM2BB50QB2C
5 000
39.0
GM2BB57QB2C
5 700
39.0
GM2BB65QB2C
6 500
37.0
35.5
2.95
100
37.0
<0.5W class>
Outline
dimensions
(mm)
2.8 × 2.8
(t = 1.9)
83
20.0
<0.3W class>
Outline
dimensions
(mm)
Average color
rendering index
Ra
TYP.
83
(Tc = 25°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GM2BB27QS1C
2 700
48.0
GM2BB30QS1C
3 000
50.0
GM2BB35QS1C
3 500
GM2BB40QS1C
4 000
GM2BB50QS1C
5 000
57.0
GM2BB57QS1C
5 700
57.0
GM2BB65QS1C
6 500
54.0
Average color
rendering index
Ra
TYP.
52.0
3.15
150
54.0
83
Pico ZENIGATA LEDs
0.2 to 0.6W class
80
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LED
ZENIGATA LEDs FOR LIGHTING
<0.6W class>
2.8 × 2.8
(t = 1.9)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GM2BB27QT4C
2 700
58.0
GM2BB30QT4C
3 000
61.0
GM2BB35QT4C
3 500
63.5
GM2BB40QT4C
4 000
GM2BB50QT4C
5 000
GM2BB57QT4C
5 700
70.0
GM2BB65QT4C
6 500
66.5
GM2BB50GT4C
5 000
80.0
GM2BB27QT4E
2 700
58.0
GM2BB30QT4E
3 000
61.0
GM2BB35QT4E
3 500
63.5
GM2BB40QT4E
4 000
GM2BB50QT4E
5 000
GM2BB57QT4E
5 700
GM2BB65QT4E
6 500
66.5
GM2BB50GT4E
5 000
80.0
70
Total luminous flux
(lm)
TYP.
Average color
rendering index
Ra
TYP.
5.90
11.80
100
50
66.5
66.5
3.2 × 3.2
(t = 2.1)
70
83
70.0
70.0
<0.9W class>
Outline
dimensions
(mm)
83
70.0
(Tc = 25°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
GM2AA27QV6F
(2 700)
(89.0)
GM2AA30QV6F
(3 000)
(93.0)
GM2AA35QV6F
(3 500)
GM2AA40QV6F
(4 000)
(5.95)
(150)
(97.5)
GM2AA50QV6F
(5 000)
(107.0)
GM2AA50GV6F
(5 000)
(120.0)
Pico ZENIGATA LEDs
0.2 to 0.6W class
83
(102.0)
70
Pico ZENIGATA LEDs
0.9W class
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LEDs
Outline
dimensions
(mm)
(Tc = 25°C)
Average color
rendering index
Ra
TYP.
81
LED
ZENIGATA LEDs FOR LIGHTING
✩New product
is a registered trademark or a trademark of Sharp Corporation
■ Pico ZENIGATA (TAB Type) LEDs ( ZENIGATA
)
in Japan, the United States and/or other countries.
<1W class>
Outline
dimensions
(mm)
2.8 × 2.8
(t = 1.45)
(Tc = 25°C)
Color temperature
(K)
TYP.
Model No.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
✩GM2BT27QU2 ( = 3,4)
2 700
103
✩GM2BT30QU2 ( = 3,4)
3 000
106
✩GM2BT35QU2 ( = 3,4)
3 500
✩GM2BT40QU2 ( = 3,4)
4 000
✩GM2BT50QU2 ( = 3,4)
5 000
119
✩GM2BT57QU2 ( = 3,4)
5 700
119
✩GM2BT65QU2 ( = 3,4)
6 500
114
Average color
rendering index
Ra
TYP.
110
6.4
150
114
83
Pico ZENIGATA (TAB type) LEDs
is a registered trademark or a trademark of Sharp Corporation
■ Petit ZENIGATA LEDs ( ZENIGATA
)
in Japan, the United States and/or other countries.
<3W class>
Outline
dimensions
(mm)
12.0 × 8.0
(t = 1.8)
(Tc = 25°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GW5SMB27P0C
2 700
260
GW5SMB30P0C
3 000
280
GW5SMB40P0C
4 000
GW5SMB50P0C
5 000
10.3
350
300
12.0 × 8.0
(t = 1.8)
82
310
<5W class>
Outline
dimensions
(mm)
Average color
rendering index
Ra
TYP.
(Tc = 25°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GW5SMC27P0C
2 700
350
GW5SMC30P0C
3 000
380
GW5SMC40P0C
4 000
GW5SMC50P0C
5 000
410
GW5SMM27P0C
2 700
375
GW5SMM30P0C
3 000
GW5SMM40P0C
4 000
GW5SMM50P0C
5 000
10.3
30.5
500
170
Average color
rendering index
Ra
TYP.
400
82
405
435
450
Petit ZENIGATA LEDs
82
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LED
ZENIGATA LEDs FOR LIGHTING
✩New product
is a registered trademark or a trademark of Sharp Corporation
■ Mini ZENIGATA LEDs ( ZENIGATA
)
in Japan, the United States and/or other countries.
<6W class>
15.0 × 12.0
(t = 1.8)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
GW6BMG27HED
2 700
495
GW6BMG30HED
3 000
520
GW6BMG40HED
4 000
GW6BMG50HED
5 000
36
Forward current
(mA)
TYP.
160
Total luminous flux
(lm)
TYP.
555
575
<8W class>
Outline
dimensions
(mm)
15.0 × 12.0
(t = 1.8)
(Tj = 90°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
GW6BMW27HED
2 700
740
GW6BMW30HED
3 000
780
GW6BMW40HED
4 000
GW6BMW50HED
5 000
36
Forward current
(mA)
TYP.
240
Total luminous flux
(lm)
TYP.
840
15.0 × 12.0
(t = 1.8)
15.0 × 12.0
(t = 1.8)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GW6BMR27HED
2 700
970
GW6BMR30HED
3 000
1 030
GW6BMR40HED
4 000
GW6BMR50HED
5 000
36
320
1 110
15.0 × 12.0
(t = 1.8)
Average color
rendering index
Ra
TYP.
82
1 130
(Tj = 90°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GW6BMS27HED
2 700
1 180
GW6BMS30HED
3 000
1 250
GW6BMS40HED
4 000
GW6BMS50HED
5 000
36
400
1 340
Average color
rendering index
Ra
TYP.
82
1 370
<17W class>
Outline
dimensions
(mm)
82
(Tj = 90°C)
<15W class>
Outline
dimensions
(mm)
Average color
rendering index
Ra
TYP.
860
<11W class>
Outline
dimensions
(mm)
82
(Tj = 90°C)
Model No.
Color temperature
(K)
TYP.
✩GW6BMR27JEC
2 700
✩GW6BMR30JEC
3 000
✩GW6BMR40JEC
4 000
✩GW6BMR50JEC
5 000
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
LEDs
Outline
dimensions
(mm)
(Tj = 90°C)
Average color
rendering index
Ra
TYP.
Average color
rendering index
Ra
TYP.
1 610
35.5
500
1 700
1 810
82
1 820
Mini ZENIGATA LEDs
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
83
LED
ZENIGATA LEDs FOR LIGHTING
is a registered trademark or a trademark of Sharp Corporation
■ Mega ZENIGATA LEDs ( ZENIGATA
)
in Japan, the United States and/or other countries.
<15W class>
Outline
dimensions
(mm)
24.0 × 20.0
(t = 1.8)
(Tj = 90°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
GW6DMA27NFC
2 700
1 380
GW6DMA30NFC
3 000
1 450
GW6DMA40NFC
4 000
1 580
GW6DMA50NFC
5 000
GW6DGA27NFC
2 700
GW6DGA30NFC
3 000
1 210
GW6DGA40NFC
4 000
1 270
92
GW6DGA50NFC
5 000
1 300
90
Total luminous flux
(lm)
TYP.
Average color
rendering index
Ra
TYP.
37
400
1 600
1 150
<25W class>
Outline
dimensions
(mm)
24.0 × 20.0
(t = 1.8)
24.0 × 20.0
(t = 1.8)
83
82
93
(Tj = 90°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
GW6DMC27NFC
2 700
2 330
GW6DMC30NFC
3 000
2 450
GW6DMC40NFC
4 000
2 650
GW6DMC50NFC
5 000
2 700
37
700
1 920
83
82
GW6DGC27NFC
2 700
GW6DGC30NFC
3 000
2 020
GW6DGC40NFC
4 000
2 120
92
GW6DGC50NFC
5 000
2 160
90
Total luminous flux
(lm)
TYP.
Average color
rendering index
Ra
TYP.
<50W class>
Outline
dimensions
(mm)
Average color
rendering index
Ra
TYP.
93
(Tj = 90°C)
Model No.
Color temperature
(K)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
GW6DME27NFC
2 700
4 130
GW6DME30NFC
3 000
4 350
GW6DME40NFC
4 000
4 650
GW6DME50NFC
5 000
50
950
4 780
3 410
83
82
GW6DGE27NFC
2 700
GW6DGE30NFC
3 000
3 590
GW6DGE40NFC
4 000
3 770
92
GW6DGE50NFC
5 000
3 820
90
93
Mega ZENIGATA LEDs
84
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
ZENIGATA LEDs FOR LIGHTING /
SURFACE LIGHT SOURCE LEDs
LED
✩New product
is a registered trademark or a trademark of Sharp Corporation
■ Giga ZENIGATA LEDs ( ZENIGATA
)
in Japan, the United States and/or other countries.
Outline
dimensions
(mm)
Model No.
Color temperature
(K)
TYP.
75.0 × 65.0
(t = 3.9)
GW7GAP50FGC
5 000
GW7GMP30FGC
3 000
GW7GMP50FGC
5 000
(Tj = 90°C)
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
Average color
rendering index
Ra
TYP.
13 000
70
140
700
10 500
11 800
82
■ TIGER ZENI LEDs
Model No.
24.0 × 20.0
(t = 1.8)
GW6TGCBG40C
Color temperature
(K)
TYP.
2 700
5 700
Giga ZENIGATA LEDs
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
37
700
Total luminous flux
(lm)
TYP.
1 840
96
2 170
90
TIGER ZENI LEDs
■ Surface Light Source LEDs
Outline
dimensions
(mm)
Model No.
(Tc = 25°C)
Color coordinates
(x, y)
TYP.
Forward voltage
(V)
TYP.
Forward current
(mA)
TYP.
Total luminous flux
(lm)
TYP.
2.8 × 2.8 (t = 1.9)
✩GM2BB8CH10E
(0.273, 0.244)
3.44
310
82.0
4.2 × 1.4 (t = 0.8)
✩GM5FS0CP10A
(0.300, 0.280)
3.2
130
38.5
7.0 × 3.0 (t = 0.8)
✩GM5FU2CP20A
(0.261, 0.224)
6.4
130
79.0
GM2BB8CH10E
GM5FS0CP10A
LEDs
Outline
dimensions
(mm)
(Tc = 25°C)
Average color
rendering index
Ra
TYP.
GM5FU2CP20A
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
85
LASER
LASER DIODES
★Under development
■ Laser Diodes
◆Model Configurations
• For applications other than optical discs
Package
Absolute maximum ratings
(mW)*1
Wavelength
(nm)
CW
(Continuous wave)
Pulse
125
–
638 band
642 band
660 band
785 band
2ch*2
830 band
905 band
940 band
Oscillation
transverse
mode*3
ø5.6 mm
Can type
SM
★GH0631CA2C
SM
★GH0631CA2G
SM
★GH0641FA2C
ø3.8 mm
Can type
ø3.3 mm
Can type
–
–
★GH0631CA5G
–
–
–
155
–
SM
GH0641FA2G
250
–
MM
GH0642FA2x
–
–
10
–
SM
GH06510F2B
–
GH06510F4A
120
300
SM
GH06P30C1C
–
–
15
–
SM
GH07815D2K
–
–
25
–
SM
GH07825D2K
–
–
155
280
SM
GH07P28F1C
–
GH07P28F4C
15
–
SM
GH3S215D2B
–
–
25
–
SM
GH3S225D2B
–
–
60
–
SM
GH08360A2A
–
210
–
SM
GH0832BA2C
–
★GH0641FA5G
–
–
★GH0832BA4C
300
1W
MM
★GH0831WA2x
–
–
–
5 W to 20 W
MM
★GH083xWA2x series
–
–
200
–
SM
★GH0902AA2C
–
–
300
1W
MM
★GH0901WA2x
–
–
–
5 W to 20 W
MM
★GH090xWA2x series
–
–
200
–
MM
GH0942IA2C series
–
–
300
1W
MM
★GH0941WA2x
–
–
–
5 W to 20 W
MM
★GH094xWA2x series
–
–
*1 The absolute maximum ratings are the limits that are not to be exceeded under any condition whatsoever, whether in testing or in actual use.
*2 4-pin type package
*2
*3 SM: Single Mode
MM: Multi Mode
• For optical disc use*3
Package
Wavelength
(nm)
Absolute
maximum ratings
(mW)*1
1.8 mm t
Frame type
660/785
Dualband wavelength
320/350*2
GH33235A8C
350/400*2
GH33540D8C
*1 The absolute maximum ratings are the limits that are not to be exceeded under any condition whatsoever, whether in testing or in actual use.
*2 Optical pulse power output MAX. (mW)
*3 New models for optical disc use are introduced frequently, and it is possible the model you wish to order may no longer be in production.
Sample sales may not be available, either. We ask for your understanding in this matter.
86
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
LASER
LASER DIODES
★Under development
◆Specifications
• Laser diodes lineup for applications other than optical discs
★GH0631CA2C
★GH0631CA2G
638 band
125
–
(Tc = 25°C)
Features
ø5.6 mm CAN package,
operating temperature: 60°C MAX.
Applications
Display, etc.
ø3.8 mm CAN package,
operating temperature: 60°C MAX.
★GH0631CA5G
GH0641FA2C
GH0641FA2G
155
–
642 band
★GH0641FA5G
★GH0642FA2x
250
–
10
–
GH06510F2B
660 band
GH06510F4A
GH06P30C1C
120
300
GH07815D2K
15
–
GH07825D2K
25
–
155
280
GH07P28F1C
785 band
GH07P28F4C
15
(×2ch)
25
(×2ch)
GH3S215D2B
GH3S225D2B
GH08360A2A
–
–
60
GH0832BA2C
★GH0832BA4C
–
210
830 band
★GH0831WA2x
★GH083xWA2x series
★GH0902AA2C
300
1W
–
5 W to 20 W
–
300
1W
★GH090xWA2x series
–
GH0942IA2C series
200
300
1W
–
5 W to 20 W
905 band
★GH0941WA2x
940 band
★GH094xWA2x series
ø3.8 mm CAN package,
operating temperature: 60°C MAX.
ø5.6 mm CAN package,
operating temperature: 40°C MAX.
ø5.6 mm CAN package,
operating temperature: 75°C MAX.
ø3.3 mm CAN package,
operating temperature: 70°C MAX.
ø5.6 mm CAN package,
operating temperature: 75°C MAX.
Display, etc.
Bar code reader,
laser displacement gauge, etc.
Various types of sensors, etc.
ø5.6 mm CAN package,
operating temperature: 60°C MAX.
Printer, copier, complex machine
ø5.6 mm CAN package,
operating temperature: 75°C MAX.
ø3.3 mm CAN package,
operating temperature: 75°C MAX.
Various types of sensors, etc.
ø5.6 mm CAN package,
operating temperature: 60°C MAX.
Printer, copier, complex machine
ø5.6 mm CAN package,
operating temperature: 100°C MAX.
ø3.3 mm CAN package,
operating temperature: 80°C MAX.
200
★GH0901WA2x
ø5.6 mm CAN package,
operating temperature: 60°C MAX.
Various types of sensors, etc.
ø5.6 mm CAN package
Built-in Terminal
monitor connecPD
tions
No
3
No
8
No
8
No
3
No
8
No
8
No
T.B.D.
Yes
2
Yes
1
No
3
Yes
4
Yes
4
No
3
No
3
Yes
5
Yes
5
Yes
1
No
3
No
3
No
T.B.D.
No
T.B.D.
No
3
No
T.B.D.
5 W to 20 W
No
T.B.D.
–
No
3
No
T.B.D.
No
T.B.D.
ø5.6 mm CAN package
ø5.6 mm CAN package
Various types of sensors, etc.
Various types of sensors, etc.
Laser Diodes
Wavelength
(nm)
Model No.
Absolute maximum
ratings*1 (mW)
CW (ContinuPulse
ous wave)
*1 The absolute maximum ratings are the limits that are not to be exceeded under any condition whatsoever, whether in testing or in actual use.
• Laser diodes lineup for optical disc use*2
Model No.
GH33235A8C
GH33540D8C
Wavelength
(nm)
Absolute maximum
ratings*1 (mW)
CW (ContinPulse
uous wave)
660 band
90
320
785 band
160
350
660 band
125
350
785 band
200
400
(Tc = 25°C)
Features
Applications
Built-in Terminal
monitor connecPD
tions
Double-layer DVD 8× to 16× recording
1.8 mm frame package,
operating temperature: 85°C MAX. (pulse drive) CD-R/RW (MAX. 48× to 52× recording)
No
7
Double-layer DVD 8× to 16× recording
1.8 mm frame package,
operating temperature: 80°C MAX. (pulse drive) CD-R/RW (MAX. 48× to 52× recording)
No
7
*1 The absolute maximum ratings are the limits that are not to be exceeded under any condition whatsoever, whether in testing or in actual use. For recommended optical
power output, consult the specification sheet or data sheet for each model.
*2 New models for optical disc use are introduced frequently, and it is possible the model you wish to order may no longer be in production.
Sample sales may not be available, either. We ask for your understanding in this matter.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
87
LASER
LASER DIODES
• Terminal Connections
1
2
2 CASE
Photodiode
Laser diode
Photodiode
Laser diode
3
1
3
1
5
6
2 CASE
3
4
1
7
4
2 CASE
Laser diode
Photodiode
Laser diode
1
3
1
8
3 CASE
2 CASE
Laser diode Laser diode
(CD)
(DVD)
Laser diode
1
4
2 CASE
3
3 CASE
Laser diode Photodiode Laser diode
88
3
2 CASE
2
1
4
Laser diode
2
3
1
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in
equipment using any SHARP devices shown in catalogs, data books, etc.
Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP.
*RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants
(PBBs and PBDEs), with certain exceptions.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.
RF
EUROPE: LNBs FOR SATELLITE BROADCAST
■ Europe: LNBs for Satellite Broadcast
◆ Features
(1)
(2)
(3)
(4)
Wide band type receiving all broadcasting channels (analog & digital) in Europe. [Universal LNB]
Originally developed feed-horn waveguide makes the wide-band, low-noise characteristics possible.
One of the industry’s most compact and lightweight package
Low dissipation current design for energy saving [95 mA (TYP.): BS1K2EL100A]
◆ Specifications
Destination
Europe, Astra/Eutelsat Satellite etc.
Receiving polarization
Horizontal/Vertical polarization
Model No.
<Type>
BS1K1EL500A
<4 output>
BS1K1EL400A
<4 output>
Input frequency (GHz)
BS1K1EL200A
<2 output>
BS1K2EL100A
<1 output>
10.7 to 11.7 [Low band], 11.7 to 12.75 [High band]
Output frequency (MHz)
950 to 1 950 [Low band], 1 100 to 2 150 [High band]
Local oscillation frequency (GHz)
9.75 [Low band], 10.6 [High band]
NF (dB)
0.4 (TYP.)
Conversion gain (dB)
Phase noise
56 (TYP.)
58 (TYP.)
–55 dBc/Hz at 1 kHz (TYP.)
–80 dBc/Hz at 1 kHz (TYP.)
Cross-polar discrimination (dB)
25 (TYP.)
Vertical polarization
11.5 to 14.0 (0/22 kHz)
Supply voltage (V DC)
(Polarization switching) Horizontal polarization
Dissipation current (mA)
16.0 to 19.0 (0/22 kHz)
200 (TYP.)/250 (MAX.)
150 (TYP.)/300 (MAX.)
Waveguide
190 (TYP.)/250 (MAX.)
95 (TYP.)/120 (MAX.)
Feed-horn (F/D = 0.6)
Output connector (F-type)
Outline dimensions (W) × (D) × (H) (mm)
4-output
(H/H, H/L, V/H, V/L)
150 × 70 × 60
Weight (g)
Approx. 190
BS1K1EL500A/BS1K1EL400A
75
4-output
2-output
1-output
(H/V, High and low switching) (H/V, High and low switching) (H/V, High and low switching)
150 × 70 × 60
142 × 60 × 60
80 × 55 × 55
Approx. 190
BS1K1EL200A
Approx. 145
Approx. 60
RF Components
Output impedance (Ω)
BS1K2EL100A
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
89
RF
JAPAN: LNBs FOR BS/CS 110° SATELLITE BROADCAST
■ Japan: LNBs for BS/CS 110° Satellite Broadcast
◆ Features
(1) Can receive 2 satellite broadcasts of 110° BS/CS digital
[Employs wide-band (1 GHz) circular’ linear polarization conversion technology (septum waveguide structure)]
(2) Outstanding noise figure (NF) characteristics enabling compact design of antenna diameter. [NF: 0.45 dB (TYP.)]
(3) Low dissipation current design for improved energy saving. [75 mA (TYP.)]
◆ Standard Specifications
Destination
Receiving polarization
Model No.
Input frequency (GHz)
Output frequency (MHz)
Local oscillation frequency (GHz)
NF (dB)
Conversion gain (dB)
Phase noise
Cross-polar discrimination (dB)
Supply voltage (V DC)
Japan BS/CS 110° Satellite
Right circular polarization
BS1G4JU300A
11.71023 to 12.751
1 032.23 to 2 073
10.678
0.45 (TYP.) / 0.6 (MAX.)
48 to 58
–80 dBc/Hz at 1 kHz (TYP.)
25 (TYP.)/20 (MIN.)
9.5 to 18.0
Dissipation current (mA)
75 (TYP.)/100 (MAX.)
Waveguide
Feed-horn (F/D = 0.5)
Output impedance (Ω)
75
Output connector (F-type)
1-output
Outline dimensions (mm)
105 (W) × 46 (D) × 46 (H)
Weight* (g)
Approx. 100
* Not including outer cabinet
90
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
RF
DIGITAL DBS FRONT-END UNITS
■ Digital DBS Front-End Units
◆ Features
(1) Equipped with a high-performance direct conversion IC. Reliability is improved by reducing power consumption and component
counts.
(2) Wide-band reception design also covering CS broadcast band. [Reception frequency: 950 to 2 150 MHz]
(3) User support tools can be provided. [Sample/evaluation boards and software are available.]
◆ Standard Specifications <IQ output type>
Destination
Global (ISDB-S/DVB-S2/ABS-S)
Input type
1-input/1-loop through output
1-input
Model No.
BS2S7VZ7A03
BS2S7VZ6A02
Input frequency (MHz)
950 to 2 150
Input signal level (dBm)
–65 to –25
The 1st intermediate frequency (MHz)
Zero-IF (Direct conversion)
Base band frequency bandwidth (MHz)
5 to 40, 2 MHz step (BB LPF)
RF input local leak (dBm)
–68 and below
Output type
I/Q
Noise figure (dB)
6 (TYP.)
Phase noise (dBc/Hz)
–88 at 10 kHz offset (TYP.)
Supply voltage (V DC)
3.3
LNB power supply
DC 25 V, 400 mA (MAX.)
Input impedance (Ω)
Outline dimensions (mm)
75
30.4 (W) × 29.4 (D) × 12.9 (H)
25.2 (W) × 17.4 (D) × 8.7 (H)
❇ Low-profile type is also available.
BS2S7VZ6A02
RF Components
BS2S7VZ7A03
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
91
RF
FRONT-END UNITS FOR ISDB-T/S
■ Front-End Units for ISDB-T/S
◆ Features
(1) Low phase noise characteristics, high elimination of adjacent channel interference.
(2) Compact, low power consumption.
◆ Standard Specifications
Destination
Japan (ISDB-T/S)
Model No.
Number of tuners
Input frequency (MHz)
Output type
Noise figure (dB)
Phase noise (dBc/Hz)
VA4M5JD2272
VA4M6JC2290
Digital terrestrial
Digital satellite
Digital terrestrial
1
1
2
Digital satellite
2
93 to 767
950 to 2 150
93 to 767
950 to 2 150
DIF
I,Q
DIF
I,Q
4 (TYP.)
6 (TYP.)
4 (TYP.)
6 (TYP.)
–90 (TYP.)
at 10 kHz offset
–85 (TYP.)
at 10 kHz offset
–90 (TYP.)
at 10 kHz offset
–85 (TYP.)
at 10 kHz offset
Supply voltage (V DC)
3.3
3.3
1.8, 3.3
3.3
Power consumption (W)
0.6
0.5
0.9
1.0
Outline dimensions (mm)
40 (W) × 34 (D) × 7.8 (H)
VA4M5JD2272
92
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
RF
FRONT-END UNITS FOR DVB-T2/DTMB
■ Front-End Units for DVB-T2/DTMB
◆ Features
(1) Low phase noise characteristics, high elimination of adjacent channel interference.
(2) Compact, low power consumption.
(3) Other types are available with various chassis forms (vertical or horizontal type) and input connectors (F or DIN type), etc.
◆ Standard Specifications
Destination
Model No.
Europe/Asia (DVB-T2), China (DTMB)
VA4M1DX2331
Input frequency (MHz)
Output type
VA4M1DX2323
VA4M2DX2194
DIF (Off through)
DIF (Dual output)
51 to 868
DIF
47 to 868
Noise figure (dB)
5 (TYP.)
Phase noise (dBc/Hz)
–90
Power consumption (W)
Supply voltage (V DC)
Outline dimensions (mm)
1.13
3.3, 1.8
5, 3.3, 1.8
24.2 (W) × 25.8 (D) × 8 (H)
41.3 (W) × 37.5 (D) × 12.3 (H)
VA4M2DX2194
RF Components
VA4M1DX2331
0.49
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
93
RF
FRONT-END UNITS FOR DIGITAL TERRESTRIAL AND
ANALOG TERRESTRIAL BROADCASTING
■ Front-End Units for Digital Terrestrial and Analog Terrestrial Broadcasting
◆ Features
Contributing to the development of thinner LCD TVs and similar products by combining compatibility with digital and analog terrestrial
broadcasts into a single unit.
◆ Standard Specifications
Destination
Brazil
China*1
Model No.
VA4M1BC1228
VA4M1CA1309
Input frequency (MHz)
47 to 866
Output type
IF
Digital IF bandwidth (MHz)
6
8
Phase noise (dBc/Hz)
–90 (TYP.) at 10 kHz offset
Supply voltage (V DC)
3.3
Noise figure (dB)
4 (TYP.)
PLL (I2C-bus)*2
Channel selection system
Outline dimensions (W) × (D) × (H) (mm)
30 × 28 × 7.5
26.2 × 20 × 10.6
*1 Built-in isolator type
*2 I2C-bus is a trademark of Philips Corporation.
VA4M1BC1228
VA4M1CA1309
◆ Features
Universal specifications compatible with various broadcasting systems all over the world
Digital: DVB-T/T2, DVB-C, ATSC, ISDB-T, DTMB
Analog: NTSC-M/N, PAL-B/G/I/DK, SECAM-L, L’
◆ Standard Specifications
Destination
Global
Model No.
VA4M1DB1261
Input frequency (MHz)
47 to 862
Output type
IF
Noise figure (dB)
4 (TYP.)
Phase noise (dBc/Hz)
–90 (TYP.)
Supply voltage (V)
3.3
Outline dimensions (W) × (D) × (H) (mm)
27 × 14 × 7.5
VA4M1DB1261
❇ Contact SHARP for custom design product.
(For connector shape or facing side, analog output format, etc.)
94
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
FULL-SEG TUNER MODULE FOR DIVERSITY RECEPTION /
MPEG MODULE
RF
■ Full-Seg Tuner Module for Diversity Reception
◆ Features
Compact package, enabling 4-diversity reception (35.0 × 31.0 × 2.95 mm)
◆ Standard Specifications
Destination
Japan
Model No.
VA3D5JZ705
Type
Built-in diversity demodulator for four signal reception
Input frequency (MHz)
470 to 770
IF frequency (MHz)
4
Output type
Input sensitivity
(dBm)
Transport stream
During diversity reception
–88 (TYP.) (64QAM, CR = 3/4)
During single reception
–82 (TYP.) (64QAM, CR = 3/4)
Vcc1: 1.2, Vcc2: 3.3
(IO: 3.3)
Supply voltage (V)
Power consumption (W)
1.24 (TYP.)
Operating temperature (°C)
–40 to 85
Control interface
I2C-bus*1
Outline dimensions (W) × (D) × (H) (mm)
VA3D5JZ705
35.0 × 31.0 × 2.95
Diversity demodulator for two signal reception is also available.
*1 I2C-bus is a trademark of Philips Corporation.
■ MPEG Module
◆ Features
(1) An OFDM demodulator, MPEG decoder and video encoder circuit are combined into a
single package for reception of ISDB-T.
(2) Comes with built-in standard reception software, with a simple EPG included, based on
the ARIB standard.
Compatible with Ministry of Internal Affairs and Communications specifications
for a “simple tuner.”
Compatible also with full HD output.
(3) Optional One-seg broadcasting compatibility is available for diversity-reception and
integrated-RF types.
DU6N4JZ0xxx
Type
Model No.
For digital terrestrial
DU6N4JZxxxx
Circuit configuration
For digital terrestrial/BS/CS
For digital terrestrial
Compatible with
diversity reception
DU6U4JZxxxx
DU6U4JZxxxx
[RF (separate body) +] OFDM + MPEG
For digital terrestrial only
Integrated RF
DU6F4JZxxxx
RF + OFDM + MPEG
CATV (pass-through)
–
Video output
RF Components
◆ Standard Specifications
Component (Full HD)*
Audio output
Analog stereo (L/R)
B-CAS
Built-in control software
EPG
Built-in simple EPG
ES (Engineering service)
Firm ware upgrades
Supply voltage (V)
3.3/1.8/1.0
Power consumption (W)
1.1 (TYP.)
Outline dimensions (mm)
58 (W) × 60 (D) × 7 (H)
Recommended front-end
VA4D1JA2160
1.5 (TYP.)
60 (W) × 70 (D) × 7 (H)
VA1N5JF8627
VA3D5JZ705
78 (W) × 55.5 (D) × 7 (H)
–
* Switchable between S-Video (Y/C) and component (SD or HD).
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
95
RF
MPEG MODULE WITH VIDEO RECORDING FUNCTION /
ONE-SEG TUNER MODULE
■ MPEG Module with Video Recording Function
◆ Features
(1) Comes with built-in USB interface for recording.
Capable of recording a counter program if a double tuner is installed
on the device as well.
(2) Fully compliant with ARIB standard.
Compatible with interactive data broadcasting.
DU6R4JZxxxx
◆ Standard Specifications
For digital terrestrial/BS/CS
Type
Double type
Single type
Model No.
DU6R4JZxxxx
CATV (pass-through)
Video output / Audio output
Component (Full HD)* / Analog stereo (L/R)
B-CAS
Built-in control software
EPG
Built-in EPG
ES (Engineering service)
Firm ware upgrades
Supply voltage (V)
5/3.3/1.8/1.2/1.05
Power consumption (W)
2.9
Outline dimensions (mm)
65 (W) × 80 (D) × 7 (H)
65 (W) × 70 (D) × 7 (H)
Recommended front-end
VA4M6JC2103
VA4M5JC2116
* Switchable between S-Video (Y/C) and component (SD or HD).
■ One-Seg Tuner Module
◆ Features
(1)
(2)
(3)
(4)
High sensitivity:
Compact and thin design:
Low power consumption:
Output interface:
-100 dBm (13 seg, QPSK CR: 2/3)
5.4 × 5.4 × 1.0 mm
41 mW (with software power control)
TS serial output
VA3A5JZ967
◆ Standard Specifications
Destination
Japan
Model No.
VA3A5JZ967
Input frequency (MHz)
470 to 770 (UHF: 13 to 62)
Input signal level (dBm)
–100 (13 seg, QPSK CR: 2/3)
Outline dimensions (mm)
Supply voltage (V DC)
5.4 (W) × 5.4 (D) × 1.0 (H)
1.2 (RF)
1.2 (OFDM Core)
1.62 to 3.6 (I/O)
Power consumption (mW)
41 (TYP.)
Operating temperature (degree C)
–20 to 65
Control I/F
I2C-bus*1
*1 I2C-bus is a trademark of Philips Corporation.
96
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
RF
TUNER MODULE FOR MULTIMEDIA BROADCAST RECEPTION
■ Tuner Module for Multimedia Broadcast Reception
◆ Features
(1) Compact and thin design: 6.7 × 6.7 × 1.0 mm
(2) Capable of receiving digital terrestrial broadcasts such as One-seg or Full-seg.
(3) Output interface: TS or SPI output
VA3D5JZ714
◆ Standard Specifications
Destination
Japan
Model No.
VA3D5JZ714
Input frequency (MHz)
90 to 108
207.5 to 222
470 to 710
Outline dimensions (mm)
Supply voltage (V)
Power consumption (mW)
6.7 × 6.7 × 1.0
1.1, 1.8, I/O: 1.8
80 (When receiving One-seg broadcasting)
135 (When receiving V-High multimedia broadcasting)
145 (When receiving Full-seg broadcasting)
Operating temperature (°C)
–20 to 65
Control I/F
I2C-bus*1
RF Components
*1 I2C-bus is a trademark of Philips Corporation.
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
97
RF
EMERGENCY WARNING BROADCASTING RECEIVER MODULE /
IONIZING RADIATION SENSOR MODULE
■ Emergency Warning Broadcasting Receiver Module
◆ Features
(1) Drastically reduced power consumption with use of One-Seg broadcasting system*
(2) One-Seg tuner and microcontroller in one package, compact size for simple assembly
(3) The built-in acceleration sensor detects falling and turns off the device power
automatically <DU6J9ZP0145>
*Basic television and data broadcasting services are not supported.
DU6J9ZP0146/DU6J9ZP0145
◆ Standard Specifications
Product name
Emergency warning broadcasting receiver module
Destination
Japan
Global
Model No.
DU6J9ZP0146
DU6J9ZP0145
8 × 8 × 1.2
11 × 11 × 1.4
Outline dimensions (mm)
Reception bandwidth (MHz)
6
6/7/8
Reception frequency range (MHz)
UHF (470 to 770)
UHF (470 to 862)
Standby power consumption (mW)
10
88
Acceleration sensor
–
Built in
Communication system
UART
Power supply
2 systems (3.3 V, 1.2 V)
■ Ionizing Radiation Sensor Module
◆ Features
(1) Low-noise amplifier to efficiently amplify weak currents
(2) Built-in circuit to eliminate noise caused by vibration and shock
(3) Compact module size thanks to a newly developed dedicated IC
(25 × 20 × 2.5 mm)
(4) Low power consumption (7.5 mW at normal operation)
QM1H0M0058
◆ Specifications
Model No.
Object to be detected
Measuring range (µSv/h)
0.05 to 20
Output interface
I2C output
Power supply voltage
98
QM1H0M0058
Gamma ray (γ -ray) (Detector: PIN photodiode)
DC 5 V (Photodiode), 2.75 V (Analog), 1.8 V (Digital)
Power consumption (mW)
7.5 (at normal operation)
Outline dimensions (mm)
25 × 20 × 2.5
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
RF
ONE-SEG 8 TUNER MODULE
■ One-Seg 8 Tuner Module
◆ Features
(1) Up to 8 simultaneously receivable TV channels (Industry’s first)
(2) Compact module size (board space): Smaller than 30 × 60 mm
(3) Simultaneous recording and tuning of up to 8 TV channels
◆ Specifications
Reception frequency (MHz)
Number of receiving channels
Distribution method
Receiving sensitivity (dBm)
Dispersion of receiving sensitivity
Module size (mm)
MoM unit (Module ×8 units installed)
470 to 710
8 (MAX.)
8 power dividers for digital terrestrial broadcasting only
-84 (TYP.) (QPSK CR: 2/3 BW: 13 seg)
No
30 × 60
RF Components
Mounting method
Notice
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment
using any SHARP devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets
before using any SHARP device.
99
INDEX
INDEX
GH07P28F1C .............................. 86/87
GM2BB30QT4C ................................81
BS
GH07P28F4C .............................. 86/87
GM2BB30QT4E ................................81
GM5
BS1G4JU300A ................................. 90
GH0831WA2x .............................. 86/87
GM2BB35QB2C................................80
GM5BN96312A ................................ 79
BS1K1EL200A.................................. 89
GH0832BA2C .............................. 86/87
GM2BB35QS1C................................80
GM5BN96317A ................................ 79
BS1K1EL400A.................................. 89
GH0832BA4C .............................. 86/87
GM2BB35QT1C ................................80
GM5BN98310A ................................ 79
BS1K1EL500A.................................. 89
GH08360A2A............................... 86/87
GM2BB35QT4C ................................81
GM5BN98320A ................................ 79
BS1K2EL100A.................................. 89
GH083xWA2x series.................... 86/87
GM2BB35QT4E ................................81
GM5BN98330A ................................ 79
BS2S7VZ6A02 ................................. 91
GH0901WA2x .............................. 86/87
GM2BB40QB2C................................80
GM5FS0CP10A................................ 85
BS2S7VZ7A03 ................................. 91
GH0902AA2C .............................. 86/87
GM2BB40QS1C................................80
GM5FU2CP20A................................ 85
GH090xWA2x series.................... 86/87
GM2BB40QT1C ................................80
GM5WA98330A................................ 79
DU
GH0941WA2x .............................. 86/87
GM2BB40QT4C ................................81
GM5WA98332A................................ 79
DU6F4JZxxxx ................................... 95
GH0942IA2C series..................... 86/87
GM2BB40QT4E ................................81
DU6J9ZP0145 .................................. 98
GH094xWA2x series.................... 86/87
GM2BB50GT1C ................................80
GP1
DU6J9ZP0146 .................................. 98
GH33235A8C............................... 86/87
GM2BB50GT4C ................................81
GP1A054RDKLF .............................. 61
DU6N4JZxxxx................................... 95
GH33540D8C .............................. 86/87
GM2BB50GT4E ................................81
GP1A057RBKLF .............................. 61
DU6R4JZxxxx................................... 96
GH3S215D2B .............................. 86/87
GM2BB50QB2C................................80
GP1A057SGKLF .............................. 61
DU6U4JZxxxx................................... 95
GH3S225D2B .............................. 86/87
GM2BB50QS1C................................80
GP1A058SCK0F .............................. 61
GM2BB50QT1C ................................80
GP1A101C2KSF .............................. 61
GA
GL
GM2BB50QT4C ................................81
GP1A173LCS2F............................... 59
GA1A1S100WP................................ 65
GL100MD1MP1 ................................ 70
GM2BB50QT4E ................................81
GP1A173LCS3F............................... 59
GA1A1S202WP................................ 65
GL100MN0MP .................................. 70
GM2BB57QB2C................................80
GP1A173LCSVF .............................. 59
GA1A1S203WP................................ 65
GL100MN1MP .................................. 70
GM2BB57QS1C................................80
GP1A204HCS0 ................................ 61
GA1A1S204WP................................ 65
GL4800E0000F................................. 70
GM2BB57QT1C ................................80
GP1A273LCS1F............................... 59
GA1A2S100LY.................................. 65
GL480E00000F................................. 70
GM2BB57QT4C ................................81
GP1A50HRJ00F............................... 58
GM2BB57QT4E ................................81
GP1A51HRJ00F............................... 58
GM2
GM2BB65QB2C................................80
GP1A52HRJ00F............................... 58
GM2AA27QV6F ................................ 81
GM2BB65QS1C................................80
GP1A52LRJ00F ............................... 58
GH
GM2AA30QV6F ................................ 81
GM2BB65QT1C ................................80
GP1A53HRJ00F............................... 58
GH0631CA2C.............................. 86/87
GM2AA35QV6F ................................ 81
GM2BB65QT4C ................................81
GP1A57HRJ00F............................... 58
GH0631CA2G ............................. 86/87
GM2AA40QV6F ................................ 81
GM2BB65QT4E ................................81
GP1A58HRJ00F............................... 58
GH0631CA5G ............................. 86/87
GM2AA50GV6F ................................ 81
GM2BB8CH10E ................................85
GP1A75EJ000F................................ 59
GH0641FA2C .............................. 86/87
GM2AA50QV6F ................................ 81
GM2BT27QU2 ( = 3,4) ..............82
GP1A98HCPSF................................ 57
GH0641FA2G .............................. 86/87
GM2BB27QB2C................................ 80
GM2BT30QU2 ( = 3,4) ..............82
GP1A98HCZ0F ................................ 57
GH0641FA5G .............................. 86/87
GM2BB27QS1C................................ 80
GM2BT35QU2 ( = 3,4) ..............82
GP1FAV30RK0F............................... 76
GH0642FA2x ............................... 86/87
GM2BB27QT1C................................ 80
GM2BT40QU2 ( = 3,4) ..............82
GP1FAV30TK0F ............................... 76
GH06510F2B............................... 86/87
GM2BB27QT4C................................ 81
GM2BT50QU2 ( = 3,4) ..............82
GP1FAV31RK0F............................... 76
GH06510F4A............................... 86/87
GM2BB27QT4E ................................ 81
GM2BT57QU2 ( = 3,4) ..............82
GP1FAV31TK0F ............................... 76
GH06P30C1C.............................. 86/87
GM2BB30QB2C................................ 80
GM2BT65QU2 ( = 3,4) ..............82
GP1FAV50RK0F............................... 76
GH07815D2K .............................. 86/87
GM2BB30QS1C................................ 80
GP1FAV50TK0F ............................... 76
GH07825D2K .............................. 86/87
GM2BB30QT1C................................ 80
GP1FAV51RK0F............................... 76
GA1A2S100SS................................. 65
GA220T2L2IZ ................................... 67
100
INDEX
INDEX
GP1FAV51TK0F ............................... 76
GP1UE26xRKC4 .............................. 78
GP2A231LRSAF ...............................60
GW5SMB40P0C............................... 82
GP1FAV55TK0F ............................... 76
GP1UE26xXKC4............................... 78
GP2A240LCS0F................................60
GW5SMB50P0C............................... 82
GP1FMV31RK0F.............................. 76
GP1UE27RK0VF .............................. 78
GP2A250LCS0F................................60
GW5SMC27P0C .............................. 82
GP1FMV31TK0F .............................. 76
GP1UE27XK0VF .............................. 78
GP2A25DJ000F ................................60
GW5SMC30P0C .............................. 82
GP1FMV51RK0F.............................. 76
GP1UE27xRKC4 .............................. 78
GP2A25J0000F.................................60
GW5SMC40P0C .............................. 82
GP1FMV51TK0F .............................. 76
GP1UE27xXKC4............................... 78
GP2A25NJJ00F ................................60
GW5SMC50P0C .............................. 82
GP1FSB31TK0F............................... 76
GP1UE28QK0VF .............................. 78
GP2A28AJ000F ................................60
GW5SMM27P0C .............................. 82
GP1FSV31TK0F............................... 76
GP1UE28RK0VF .............................. 78
GP2AP002A00F................................63
GW5SMM30P0C .............................. 82
GP1FSV51TK0F............................... 76
GP1UE28XK0VF .............................. 78
GP2AP002S00F................................62
GW5SMM40P0C .............................. 82
GP1L50J0000F ................................ 57
GP1UE28xQKC4 .............................. 78
GP2AP030A00F................................63
GW5SMM50P0C .............................. 82
GP1L51J0000F ................................ 57
GP1UE28xRKC4 .............................. 78
GP2AP052A00F................................64
GP1L52VJ000F ................................ 57
GP1UE28xXKC4............................... 78
GP2S29SVJ00F................................61
GW6
GP1L53VJ000F ................................ 57
GP1UE28xYKC4............................... 78
GP2S60.............................................59
GW6BMG27HED.............................. 83
GP1L57J0000F ................................ 57
GP1UE28YK0VF .............................. 78
GP2S700HCP ...................................59
GW6BMG30HED.............................. 83
GP1S092HCPIF ............................... 55
GP1UE29QK0VF .............................. 78
GP2Y0A02YK0F ...............................73
GW6BMG40HED.............................. 83
GP1S093HCZ0F .............................. 55
GP1UE29xQKC4 .............................. 78
GP2Y0A21YK0F ...............................73
GW6BMG50HED.............................. 83
GP1S094HCZ0F .............................. 55
GP1UF31xXP0F ............................... 78
GP2Y0A41SK0F ...............................73
GW6BMR27HED.............................. 83
GP1S096HCZ0F .............................. 55
GP1UF31xYP0F ............................... 78
GP2Y0A51SK0F ...............................73
GW6BMR27JEC............................... 83
GP1S097HCZ0F .............................. 55
GP1UM26RK0VF.............................. 78
GP2Y0A60SZ0F................................73
GW6BMR30HED.............................. 83
GP1S173LCS2F............................... 56
GP1UM26XK0VF.............................. 78
GP2Y0A60SZLF................................73
GW6BMR30JEC............................... 83
GP1S194HCZ0F .............................. 55
GP1UM27RK0VF.............................. 78
GP2Y0A710K0F................................73
GW6BMR40HED.............................. 83
GP1S195HCPSF.............................. 55
GP1UM27XK0VF.............................. 78
GP2Y0AF15 series ...........................73
GW6BMR40JEC............................... 83
GP1S195HCZSF .............................. 55
GP1UM28QK0VF ............................. 78
GP2Y0AF30 series ...........................73
GW6BMR50HED.............................. 83
GP1S196HCPSF.............................. 55
GP1UM28RK0VF.............................. 78
GP2Y0AH01K0F ...............................74
GW6BMR50JEC............................... 83
GP1S196HCZ0F .............................. 55
GP1UM28XK0VF.............................. 78
GP2Y0D02YK0F ...............................72
GW6BMS27HED .............................. 83
GP1S196HCZSF .............................. 55
GP1UM28YK0VF.............................. 78
GP2Y0D21YK0F ...............................72
GW6BMS30HED .............................. 83
GP1S273LCS1F............................... 56
GP1UM29QK0VF ............................. 78
GP2Y0D413K0F................................72
GW6BMS40HED .............................. 83
GP1S296HCPSF.............................. 55
GP1USC3xXP................................... 78
GP2Y0D805Z0F................................72
GW6BMS50HED .............................. 83
GP1S396HCP0F .............................. 55
GP1UX31QS..................................... 78
GP2Y0D810Z0F................................72
GW6BMW27HED ............................. 83
GP1S396HCPSF.............................. 55
GP1UX31RK..................................... 78
GP2Y0D810Z1F................................72
GW6BMW30HED ............................. 83
GP1S50J0000F ................................ 56
GP1UX51QS..................................... 78
GP2Y0D815Z0F................................72
GW6BMW40HED ............................. 83
GP1S51VJ000F................................ 56
GP1UX51RK..................................... 78
GP2Y0E02A......................................73
GW6BMW50HED ............................. 83
GP1S52VJ000F................................ 56
GP1UXC4xQS .................................. 78
GP2Y0E02B......................................73
GW6DGA27NFC .............................. 84
GP1S53VJ000F................................ 56
GP1UXC4xRK .................................. 78
GP2Y0E03 ........................................73
GW6DGA30NFC .............................. 84
GP2Y1010AU0F................................74
GW6DGA40NFC .............................. 84
GP2Y5D91S00F................................72
GW6DGA50NFC .............................. 84
GP1S54J0000F ................................ 56
GP1S56TJ000F................................ 56
GP2
GP1S58VJ000F................................ 56
GP2A200LCS0F ............................... 60
GP1S59J0000F ................................ 56
GP2A222HCKA ................................ 62
GW5
GW6DGC30NFC .............................. 84
GP1UE26RK0VF.............................. 78
GP2A230LRS0F ............................... 60
GW5SMB27P0C ...............................82
GW6DGC40NFC .............................. 84
GP1UE26XK0VF .............................. 78
GP2A230LRSAF............................... 60
GW5SMB30P0C ...............................82
GW6DGC50NFC .............................. 84
GW6DGC27NFC .............................. 84
101
INDEX
INDEX
GW6DGE27NFC .............................. 84
IRM068U7......................................... 29
GW6DGE30NFC .............................. 84
PC3
LQ315D1LG9N....................................4
PC352NJ0000F ................................ 41
GW6DGE40NFC .............................. 84
IS
GW6DGE50NFC .............................. 84
IS471FE ............................................ 66
GW6DMA27NFC .............................. 84
IS485E .............................................. 66
LR0
PC355NJ0000F ................................ 41
GW6DMA30NFC .............................. 84
IS486E .............................................. 66
LR0G934...........................................18
PC357NJ0000F ................................ 41
GW6DMA40NFC .............................. 84
IS489E .............................................. 66
LR0G938...........................................18
PC364NJ0000F ................................ 41
LR0G956...........................................21
PC365NJ0000F ................................ 41
GW6DMA50NFC .............................. 84
PC354NJ0000F ................................ 41
GW6DMC27NFC.............................. 84
LK
LR0G962...........................................21
PC367NJ0000F ................................ 41
GW6DMC30NFC.............................. 84
LK601R3LA19..................................... 4
LR0G963...........................................21
PC3H3J00000F ................................ 42
LR0P759 ...........................................22
PC3H41xNIP0F ................................ 42
GW6DMC40NFC.............................. 84
GW6DMC50NFC.............................. 84
LQ0
LR0P760 ...........................................22
PC3H4J00000F ................................ 42
GW6DME27NFC .............................. 84
LQ035Q3DG03 ................................... 2
LR0P779 ...........................................22
PC3H510NIP0F................................ 42
GW6DME30NFC .............................. 84
LQ043T1DG28.................................... 2
PC3H5J00000F ................................ 42
GW6DME40NFC .............................. 84
LQ043T1DG29.................................... 2
LR3
GW6DME50NFC .............................. 84
LQ057Q3DC03 ................................... 2
LR35501............................................18
PC3H7J00000F ................................ 42
GW6TGCBG40C .............................. 85
LQ064V3DG06 ................................... 2
LR35503............................................18
PC3HU7xYIP0B ............................... 42
LQ084S3LG03 .................................... 2
LR36B15 ......................................13/16
PC3SD11NTZCF.............................. 48
LQ084V1DG43 ................................... 2
LR36B16 ......................................13/17
PC3SD12NTZAF .............................. 48
LR38653.......................................13/15
PC3SD12NTZBF .............................. 48
GW7
GW7GAP50FGC .............................. 85
PC3H71xNIP0F ................................ 42
GW7GMP30FGC.............................. 85
LQ1
LR38654.......................................13/15
PC3SD12NTZCF.............................. 48
GW7GMP50FGC.............................. 85
LQ104S1LG81 .................................... 2
LR388J6............................................21
PC3SD13NTZBF .............................. 48
LQ104V1DG81 ................................... 2
LR388J7............................................21
PC3SD21NTZAF .............................. 49
IR2
LQ104V1LG81 .................................... 2
IR2E56U6 ......................................... 27
LQ121S1LG81 .................................... 2
LS
PC3SD21NTZCF.............................. 49
IR2E58U ........................................... 27
LQ121S1LG84 .................................... 2
LS037V7DW05....................................2
PC3SD21NTZDF.............................. 49
IR2E65U ........................................... 27
LQ121S1LG86 .................................... 2
LS037V7DW06....................................2
PC3SD23YTZCF .............................. 49
IR2E67M........................................... 28
LQ150X1LG11 .................................... 3
IR2E69Y ........................................... 27
LQ150X1LG91 .................................... 3
PC1
PC3SF11YVZBF .............................. 48
IR2E70N ........................................... 28
LQ150X1LW12.................................... 3
PC1231xNSZ0X................................43
PC3SF13YVZBF .............................. 48
LQ150X1LX95 .................................... 3
PC123XNNSZ0F...............................43
PC3SF21YVZAF .............................. 49
IR3
LQ190E1LW52.................................... 3
PC1S3021NTZF................................48
PC3SF21YVZBF .............................. 49
IR3M59U ..................................... 14/26
LQ190E1LX51 .................................... 3
PC1S3052YTZF................................48
PC3SF23YVZSF .............................. 49
IR3M63U ................................ 14/15/26
LQ190E1LX75 .................................... 3
PC1S3063YTZF................................49
PC3SH11YFZAX .............................. 48
IR3M92N4 ........................................ 29
LQ190N1LW01 ................................... 3
IRM
LQ2
IRM053U7 ........................................ 29
LQ201U1LW31 ................................... 3
IRM065U7 ........................................ 29
LQ231U1LW32 ................................... 3
IRM067U6 ........................................ 29
102
LQ3
PC3SD21NTZBF .............................. 49
PC3SF11YVZAF .............................. 48
PC3SH13YFZAX .............................. 48
PC2
PC3SH21YFZBX .............................. 49
PC2SD11NTZAF...............................48
PC3ST11NSZAX .............................. 48
PC3ST21NSZBX .............................. 49
INDEX
INDEX
PC928J00000F ................................. 46
PC4
PC400J00000F................................. 45
PQ1LAxx5MSPQ...............................23
PC929J00000F ................................. 46
PC942J00000F ................................. 46
PC410L0NIP0F ................................ 45
PC410S0NIP0F ................................ 45
PD
PC451J00000F................................. 41
PD100MC0MP .................................. 69
PR33MF51NSLF .............................. 51
PR33MF52NSLF .............................. 51
PQ2
PR36MF12NSZF .............................. 51
PQ200WN3MZPH.............................24
PR36MF21NSZF .............................. 51
PQ200WNA1ZPH..............................24
PR36MF22NSZF .............................. 51
PR36MF51NSLF .............................. 51
PC452J00000F................................. 41
PD100MF0MP .................................. 69
PQ3
PC456L0NIP0F ................................ 45
PD410PI2E00F ................................. 69
PQ30RV11J00H................................23
PR39MF21NSZF .............................. 51
PC457L0NIP0F ................................ 45
PD411PI2E00F ................................. 69
PQ30RV21J00H................................23
PR39MF22NSZF .............................. 51
PC457S0NIP0F ................................ 45
PD412PI2E00F ................................. 69
PQ30RV31J00H................................23
PR39MF51NSLF .............................. 51
PC4D10SNIP0F ............................... 45
PD413PI2E00F ................................. 69
PC4SD11NTZBF .............................. 48
PR39MF12NSZF .............................. 51
PR3BMF21NSZF.............................. 51
PQ6
PR3BMF51NSLF.............................. 51
PR3BMF52NSZF.............................. 51
PC4SD11NTZCF.............................. 48
PQ0
PQ6CB11X1CP.................................27
PC4SD21NTZCF.............................. 49
PQ035ZN01ZPH............................... 24
PQ6CU12X2APQ..............................25
PC4SD21NTZDF.............................. 49
PQ035ZN1HZPH .............................. 24
PC4SF11YVZAF .............................. 48
PQ070VK01FZH ............................... 23
PQ7
PT100MC0MP .................................. 68
PC4SF11YVZBF .............................. 48
PQ070XNA1ZPH .............................. 24
PQ7L2020BP ....................................27
PT100MF0MP .................................. 68
PC4SF21YVZBF .............................. 49
PQ070XNA2ZPH .............................. 24
PT
PT100MF1MP .................................. 68
PC4SF21YVZCF .............................. 49
PQ070XNAHZPH.............................. 24
PQx
PC4SF21YWPSF ............................. 49
PQ070XNB1ZPH .............................. 24
PQxxxDNA1ZPH series ....................24
PT4800FE000F ................................ 68
PQxxxENA1ZPH series ....................24
PT480E00000F ................................ 68
PT4800E0000F ................................ 68
PC7
PQ1
PQxxxENAHZPH series....................24
PT480FE0000F ................................ 68
PC713V0NSZXF .............................. 44
PQ150RWA2SZH ............................. 23
PQxxxENB1ZPH series ....................24
PT481E00000F ................................ 68
PC714V0NSZXF .............................. 44
PQ1CG2032FZH .............................. 26
PQxxxGN01ZPH series ....................24
PT481FE0000F ................................ 68
PC715V0NSZXF .............................. 44
PQ1CG2032RZH .............................. 26
PQxxxGN1HZPH series....................24
PT483F1E000F ................................ 68
PC724V0NSZXF .............................. 44
PQ1CG21H2FZH.............................. 26
PQxxxRDA1SZH series ....................23
PT4850FE000F ................................ 68
PC725V0NSZXF .............................. 44
PQ1CG3032FZH .............................. 26
PQxxxRDA2SZH series ....................23
PT491FE0000F ................................ 68
PQ1CG3032RZH .............................. 26
PC8
PQ1CG38M2FZH ............................. 26
PR
QM
PC81510NSZ0X ............................... 43
PQ1CG41H2FZH.............................. 26
PR22MA11NTZF...............................51
QM1H0M0058 .................................. 98
PC815XNNSZ0F .............................. 43
PQ1CG41H2RZH ............................. 26
PR23MF11NSZF...............................51
QM2A1UA003................................... 29
PC8171xNSZ0X ............................... 43
PQ1CN38M2ZPH ............................. 25
PR26MF11NSZF...............................51
QM2A1UA004................................... 29
PC817XNNSZ0F .............................. 43
PQ1CN41H2ZPH.............................. 25
PR26MF12NSZF...............................51
QM2A1UB011 .................................. 29
PC851XNNSZ0F .............................. 43
PQ1CX41H2ZPQ.............................. 25
PR26MF21NSZF...............................51
QM2A1UB015 .................................. 29
PC852XNNSZ0F .............................. 43
PQ1CX53H2MPQ ............................. 25
PR29MF11NSZF...............................51
QM2A1UB028 .................................. 29
PC853XNNSZ0F .............................. 43
PQ1CX61H1ZPQ.............................. 25
PR29MF12NSZF...............................51
QM2A1UB029 .................................. 29
PQ1CZ21H2ZPH .............................. 25
PR29MF21NSZF...............................51
PC9
PQ1DX095MZPQ ............................. 25
PR31MA11NTZF...............................51
RJ
PC900V0NSZXF .............................. 46
PQ1DX125MZPQ ............................. 25
PR32MA11NTZF...............................51
RJ2315DB0PB .................. 11/15/16/17
PC925LxNSZ0F ............................... 46
PQ1LAX95MSPQ ............................. 23
PR33MA series .................................51
RJ2315EA0PB................... 11/15/16/17
103
INDEX
INDEX
RJ2325DB0PB .................. 11/15/16/17
RJ3331AA0PB .................................. 10
RJ2325EA0PB................... 11/15/16/17
RJ3341AA0PB .................................. 10
S2
RJ2331AA0PB............................. 11/17
RJ33J3BA0DT .................................. 10
S201S06F .........................................53
RJ2331BA0PB............................. 11/17
RJ33J3CA0DT .................................. 10
S202S01F .........................................52
RJ2331CA0PB ............................ 11/17
RJ33J4BA0DT .................................. 10
S202S02F .........................................53
RJ2341AA0PB............................. 11/17
RJ33J4CA0DT .................................. 10
S202S11F .........................................53
RJ2341BA0PB............................. 11/17
RJ33N3AA0LT .................................. 10
S202S12F .........................................53
RJ2341CA0PB ............................ 11/17
RJ33N3AD0LT .................................. 10
S202S15F .........................................53
RJ2351CA0PB .................. 11/15/16/17
RJ53Z1BA0LT..................................... 8
S202T01F..........................................52
RJ2355CA0PB .................. 11/15/16/17
RJ5DY1BA0LT .................................... 8
S202T02F..........................................52
RJ2355DA0PB................... 11/15/16/17
RJ63AC100......................................... 6
S208T01F..........................................52
RJ2355EA0PB................... 11/15/16/17
RJ63AC200......................................... 6
S208T02F..........................................52
RJ2361CA0PB .................. 11/15/16/17
RJ63AC400......................................... 6
S212S01F .........................................52
RJ2365CA0PB .................. 11/15/16/17
RJ63AC500......................................... 6
S216S01F .........................................52
RJ2365DA0PB................... 11/15/16/17
RJ63ACL00......................................... 6
S216S02F .........................................53
RJ2365EA0PB................... 11/15/16/17
RJ63VC200......................................... 6
S2S3000F .........................................48
RJ23E3HA0LT .................................... 8
RJ64VC100......................................... 6
S2S4000F .........................................49
RJ23Z3BA0LT .................................... 8
RJ64VC300......................................... 6
S2S5A00F.........................................48
RJ2411CA0PB ............................ 11/15
RJ67NA100......................................... 6
S2S5FA0F .........................................48
RJ2411EB0PB................... 12/15/16/17
RJ67NA300......................................... 6
RJ2411FA0PB ................... 12/15/16/17
RJ68JA100 ......................................... 6
T.B.D.
RJ2421EB0PB................... 12/15/16/17
RJ6CBA600 ........................................ 6
T.B.D..................................................22
RJ2431AA0PB............................. 12/17
S1
VA
RJ2441AA0PB............................. 12/17
S101S05F ......................................... 52
VA1N5JF8627 ...................................95
RJ2455CA0PB .................. 12/15/16/17
S101S06F ......................................... 52
VA3A5JZ967 .....................................96
RJ2455DA0PB................... 12/15/16/17
S101S16F ......................................... 52
VA3D5JZ705 .....................................95
RJ2455EA0PB................... 12/15/16/17
S102S01F ......................................... 52
VA3D5JZ705 .....................................95
RJ2461CA0PB .................. 12/15/16/17
S102S02F ......................................... 52
VA3D5JZ714 .....................................97
RJ2465CA0PB .................. 12/15/16/17
S102S11F ......................................... 52
VA4D1JA2160 ...................................95
RJ2465DA0PB................... 12/15/16/17
S102S12F ......................................... 52
VA4M1BC1228..................................94
RJ2465EA0PB................... 12/15/16/17
S102T01F ......................................... 52
VA4M1CA1309..................................94
RJ31N3AA0DT ................................. 10
S102T02F ......................................... 52
VA4M1DB1261..................................94
RJ31N3AD0DT................................. 10
S108T01F ......................................... 52
VA4M1DX2323..................................93
RJ31N4AA0DT ................................. 10
S108T02F ......................................... 52
VA4M1DX2331..................................93
RJ31N4AD0DT................................. 10
S112S01F ......................................... 52
VA4M2DX2194..................................93
RJ32S3AA0DT ................................. 10
S116S01F ......................................... 52
VA4M5JC2116 ..................................96
RJ32S3AD0DT ................................. 10
S116S02F ......................................... 52
VA4M5JD2272 ..................................92
RJ2421FA0PB ................... 12/15/16/17
104
RJ32S4AA0DT ................................. 10
VA4M6JC2103 ..................................96
RJ32S4AD0DT ................................. 10
VA4M6JC2290 ..................................92
NOTICE
NOTICE
T
he circuit application examples in this publication are provided to explain representative
applications of SHARP devices and are not intended to guarantee any circuit design or license any
intellectual property right. SHARP takes no responsibility for any problems related to any intellectual
property right of a third party resulting from the use of SHARP devices.
SHARP reserves the right to make changes in the specifications, characteristics, data, materials,
structures and other contents described herein at any time without notice in order to improve design or
reliability.
Contact SHARP in order to obtain the latest device specification sheets before using any SHARP
device. Manufacturing locations are also subject to change without notice.
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any
defects that occur in equipment using any SHARP devices shown in catalogs, data books, etc.
The devices listed in this publication are designed for standard applications for use in general
electronic equipment. SHARP’s devices shall not be used for or in connection with equipment that
requires an extremely high level of reliability, such as military and aerospace applications,
telecommunication equipment (trunk lines), nuclear power control equipment and medical or other life
support equipment (e.g. Scuba). SHARP takes no responsibility for damage caused by improper use of
device, which does not meet the conditions for use specified in the relevant specification sheet.
If the SHARP devices listed in the publication fall within the scope of strategic products described in
the Foreign Exchange and Foreign Trade Law of Japan, it is necessary to obtain approval to export
such SHARP devices.
This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved.
Under the copyright laws, no part of this publication may be reproduced or transmitted in any form or
by any means, electronic or mechanical for any purpose, in whole or in part, without the express
written permission of SHARP. Express written permission is also required before any use of this
publication may be made by a third party.
Contact and consult with a SHARP representative if there are any questions about the contents of this
publication.
Specifications are subject to change without notice.
All screen images are simulated.
22-22, NAGAIKE-CHO, ABENO-KU, OSAKA 545-8522, JAPAN
U.S.A.
EUROPE
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THE AMERICAS
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Beijing Office
5F, Tower F, Phoenix Place, 5A, Shuguang xili,
Chaoyang District, Beijing 100028, P.R. China
PHONE: +86-10-8521-5688 FAX: +86-10-6588-0773
Italy:
Milan Office
Ventro Direzionale Colleoni Palazzo Taurus Ingresso 2
20041 Agrate Brianza, Milano, Italy
PHONE: +39-039-689-9946
Shenzhen Office
Room AB, 21F, China Economic Trade Building, No.18
Zizhu 7th Road, Zhuzilin, Shenzhen 518131, P.R. China
PHONE: +86-755-8826-5236 FAX: +86-21-50304510-8600
SHARP-ROXY (HONG KONG) LTD.
Central Region
Device Business Division, Level 26, Tower 1, Kowloon
Commerce Centre, NO.51 Kwai Cheong Road, Kwai
Chung, N.T., Hong Kong
PHONE: +852-28229311 FAX: +852-28660779
http://www.sharp.com.hk
85 W. Algonquin Road, Suite 280
Arlington Heights, IL 60005
PHONE: +1-847-258-2750 FAX: +1-847-439-2479
One Towne Square, Suite 200
Southfield, MI 48076
PHONE: +1- 248-663-5720 FAX: +1-248-663-5750
Shenzhen Representative Office
Room 602-603, 6/F, International Chamber of
Commerce Tower, 168 Fuhua Rd. 3, CBD, Futian
District, Shenzhen 518048, Guangdong, P.R. China
PHONE: +86-755-88313505 FAX: +86-755-88313515
SHARP ELECTRONIC COMPONENTS (TAIWAN)
CORPORATION
8F-A, No. 16, Sec. 4, Nanking E. Rd., Taipei, Taiwan
PHONE: +886-2-2577-7341
FAX:
+886-2-2577-7326
SHARP ELECTRONICS (SINGAPORE) PTE., LTD.
491B River Valley Road, #09-02/03/04
Valley Point, Singapore 248373
PHONE: +65-63042500 FAX: +65-63042598
http://www.sesl-sharp.com
SHARP ELECTRONIC COMPONENTS (KOREA)
CORPORATION
SHARP CORPORATION
20002660 UM ISO14001:2004
Seung-Jee B/D, 15-3, Jamwon-Dong, Secho-Gu,
Seoul 137-902, Korea
PHONE: +82-2-711-5813 FAX: +82-2-711-5819
The following facilities of Sharp Corporation have been certified under the ISO 14001:2004 international standard
for environmental management systems. In our products and manufacturing processes, we are actively engaged in
environmental preservation efforts.
Certificate No.
EC99J2016
Date of Registration
September 24, 1996
Advanced Development and Planning Center
EC99J2038
December 3, 1996
Mie Plant
Kameyama Plant
EC99J2051
EC04J0284
January 28, 1997
October 12, 2004
20002660 UM
November 17, 2003
Facility
Electronic Components and Devices Group (Fukuyama)
Electronic Components and Devices Group (Mihara)
Scope of Registered Activities
Design, development and manufacture of electronic devices
Research and development, production technology development, and manufacture of LCD panels
The manufacture of compact LCD panels
Development, design and manufacture of LCDs
Development and production of LCD
Design, development and manufacture of laser diodes, hologram laser and LED devices
Design and development of printed wiring boards
The following groups of Sharp Corporation have been
certified under the ISO 9001:2008 international
standard for quality management systems.
Certifying organization: Japan Quality Assurance Organization (JQA) [JAB certified]
Certificate No.
Group
Electronic Components and Devices Division
JQA-QM8688
General Manager, Display Device Business
JQA-QM3776
Scope of Registered Activities
The design / development and manufacture of integrated circuits
The design / development and manufacture of RF devices
The design / development and manufacture of Opto-electronic devices
The design / development and manufacture of module
The design / development and manufacture (outsourcing) of power control equipment
The design / development and manufacture of LEDs
The design / development and manufacture of LED units
The design / development and manufacture of laser diodes, hologram laser
The design / development and manufacture of optical pick-ups
Design, development, and manufacture of LCD panels and modules
Distributed by
The contents of this catalog are current as of February 2014.
This brochure uses vegetable oil ink.
Ref. No. HT9A21E
SHARP CORP. H1.8 Printed in Japan