SHARP GP2W2001YK

ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
GP2W2001YK
IrDA Control Infrared Transceiver
for Peripheral Type 1
Revision 1.1.1
November 26, 1998
SHARP CORPORATION
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
1
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
Record of Modification and Revision
Version
0.9
0.92
0.95
Issue Date
October 17th, 1997
February 23rd, 1998
March 31st, 1998
0.96
1.0
1.1
1.1.1
April 1st, 1998
August 25th, 1998
November 6th, 1998
November 26th, 1998
Comments
First Edition
Outline Dimensions Modified
Name of compliant standard changed to “IrDA Control”
Compliant Specification is limited to “IrDA Control Peripheral Type 1”.
Outline Dimension Modified (Eliminate Shield of Front).
Outline Dimension and Absolute Maximum Rating Modified
Outline Dimension and Recommended Circuit Modified
Recommended Operating Conditions Modified
(Preliminary Information Disclaimer)
This document includes a “Preliminary Information” of Sharp IrDA Control Infrared Transceiver (for IrDA Control
Peripheral Type 1). Any of information under this document, such as Specifications and outline dimensions, are
applicable only for reference purpose, and Sharp hold all rights to change or alter prices at any time without notice.
In absence of confirmation by device Specification Sheets, SHARP takes no responsibility for any defects that occur in
equipment using any of SHARP’s device, shown in catalogues, data books, Preliminary Information, etc. Contact
SHARP, or SHARP local representatives in order to obtain the latest version of the device Specification Sheets before
using any SHARP’s devices.
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
2
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
Table Of Contents
1. DESCRIPTION ..................................................................................................................................................... 4
2. IRDA CONTROL INFRARED TRANSCEIVER INTERNAL BLOCK DIAGRAM ........................................................ 4
3. PACKAGE OUTLINE DIMENSIONS (TENTATIVE) ........................................................................................... 5
4. ABSOLUTE MAXIMUM RATINGS ....................................................................................................................... 5
5. RECOMMENDED OPERATING CONDITIONS ...................................................................................................... 6
6. ELECTRICAL AND OPTICAL SPECIFICATIONS ................................................................................................... 7
7. PINOUT .............................................................................................................................................................. 8
8. APPLICATION CIRCUIT AND RECOMMENDED COMPONENTS........................................................................... 9
9. WAVEFORM EXAMPLES .................................................................................................................................... 9
10. RESET FUNCTION ........................................................................................................................................ 10
11. THE DERATING CURVE OF PEAK FORWARD LED CURRENT ....................................................................... 10
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
3
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
IrDA Control Infrared Transceiver (for Peripheral Type 1)
GP2W2001YK
Technical Data
MEMBER IrDA
1. Description
The Sharp IrDA Control Infrared Transceiver provides
the wireless interface between logic and IR signals for
through-air, serial, half-duplex IrDA Control data links
and is designed to satisfy the IrDA Control Physical
Layer Specifications for Peripheral Type 1.
The GP2W2001YK is a low power operatable
integrated infrared transceiver that contains an IRLED,
<Features>
Â
Â
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Meets IrDA Control (for Peripheral Type 1)
Long Range (approx. 8m [Min. 5m]) Wireless
Communication at 75kbps data rate (Radiant Intensity
= 100mW/sr)
Low Power Operation - at 3.3V
Built-in Envelope Detector
a LED driver circuit, a PIN photodiode, an excellent
sensitivity receiver, and an envelope detector. The
transceiver also contains some additional functions,
such as shut down and sensitivity recovery for low
current consumption and longer communication
distance.
Â
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By using assistance LED(GL710) , able to use for
Host Type.
RESET Function to Recover the Receiver
Sensitivity
Optimized Interface to Sharp Peripheral Engine, an
embedded communication controller for IrDA
Control.
2. IrDA Control Infrared Transceiver Internal Block Diagram
LEDA
11
TXD
AVcc
DVcc
10
1
6
AMP.
B.P.F.
Detect
8
PIN
PD
AGND
DGND
VO
5
7
9
fO
4
CX
3
RESET
2
SD
Figure 2.1 GP2W2001YK Internal Block Diagram
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
4
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
3. Package Outline Dimensions (TENTATIVE)
17.5
(6.3)
14.0
3.1
SHIELD CASE
4.5
(8.2)
(3.7)
(7.6)
1.3
(0.89)
0.25
(2.1)
0.45
1.27
(1.25)
0.9
2.0
(0.84)
3.35
UNIT: mm
2.5
1.
2.
3.
4.
5.
6.
Unspecified tolerance shall be ± 0.3(mm).
Resin burr shall not be included in outline dimensions.
Package Material : Visible Light Cut-off Resin (Color: Black)
Pin Assignment : See “Pinout” for details.
Lead pitch distance represents that of the lead root.
The appearance of the shieled case is TENTATIVE, and is subject to change without notice.
4. Absolute Maximum Ratings
Parameter
Symbol
Min.
Max.
Units
Conditions
Supply Voltage
VCC
0
6.0
V
o
Operating Temperature
TOP
-10
70
C
o
Storage Temperature
TST
-20
85
C
Average Forward LED Current
ILED (DC)
60
mA
Peak Forward LED Current
ILED (PF)
600
mA *1
Transmitter Data Input Current
ITXD
5.0
mA
Receiver Data Output Voltage
VO
VCC
V
o
Soldering Temperature
TSOL
260
C *2 , For 5s
(NOTES)
1. The derating curve of peak forward current vs. ambient temperature is shown in section 11, figure 11.1.
2. The soldering should be done at the distance from 1.3mm from the resin edge of the transceiver module.
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
5
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
5. Recommended Operating Conditions
Parameter
Operating Temperature
Supply Voltage
Supply Voltage
Transmitter Input Subcarrier
Frequency
Logic High Transmitter
Input Voltage (TXD)
Logic Low Transmitter
Input Voltage (TXD)
Symbol
TOP
VCC1
VCC2
fsc
Min.
-10
2.7
4.25
1.484
Max.
70
5.5
5.25
1.517
Units
o
C
V
V
MHz
VIH (TXD)
2.7
-
V
VIL (TXD)
0.0
0.3
V
0.4
1250
µW/cm2
Logic High Receiver Input
Irradiance
EIIL
LED (Logic High) Current
Pulse Amplitude
Receiver Signal Rate
Receiver RESET Input Voltage
SD Recovery Time
Conditions
Supply voltage for receiver side
Supply voltage for emitter side
*3
Frequency accuracy within the
range of + 1.1%
Θr < +30o, Φr < +15o
For in-band signals < 75.83kb/s
*4
Θr < +50o, Φr < +15o
*5
For in-band signals < 75.83kb/s
IE=100mW/sr,
*4
Θt < +15o, Φt < +15o
*4
*5
1.111
1250
µW/cm2
ILEDA
400
-
mA
DRATE
Vrs_th
TSD
74.175
0.7
-
75.825
2.0
1
kb/s
V
msec
Refer to ´RESET Functionµ
[NOTES]:
3.
4.
5.
(
IrDA Control system uses 16PSM coding scheme over 1.5MHz sub-carrier. See IrDA Control Physical Layer
Link Specification for the details of coding scheme and pulse characteristics.
See Figure 5.1 (below) for the viewing angle definition.
An in-band optical signal is a pulse/sequence where the peak wavelength λp, is defined as 850nm < λp < 900nm,
and the pulse characteristics are compliant with the IrDA Control Physical Layer Link Specification.
): TENTATIVE Value
Receiver
Φ
Θr, Φr
Θ
Θt, Φt
Transmitter
Θ: Horizontal (X-Axis)
Φ: Vertical Angle (Y-Axis)
Figure 5.1 IrDA Control Transceiver Viewing Angle Criteria
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
6
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
6. Electrical and Optical Specifications
Specifications hold over the Recommended Operating Conditions unless otherwise notified herein. Test Conditions
represent worse case values for the parameters under test. Unspecified test conditions can be anywhere in their
operating range. All typicals are at Ta=25oC, and VCC=3.3V unless otherwise notified herein.
Parameter
RECEIVER SIDE
Current Dissipation
S/D Current Dissipation
Receiver Data
Output Voltage
Pulse Width
Logic High
Logic Low
Single Pulse
Double Pulse
Multi Pulse
Jitter
Receiver Data Output Rise Time
Receiver Data Output Fall Time
Receiver Detecting Distance
TRANSMITTER SIDE
Transmitter Radiant Intensity
Symbol
Min.
Typ.
Max.
Units
Conditions
ICC
Iccsd
-
5.0
7.0
7.0
10.0
mA
µA
VOH
VOL
t ws
t wd
t wm
tj
tr
tf
L1
VCC-0.5
3.66
10.33
50.36
-1.8
5.0
6.67
13.33
53.36
-
0.5
9.67
16.34
56.36
+1.8
6.0
6.0
-
V
V
µsec
µsec
µsec
µsec
µsec
µsec
m
No input IR signal, VCC=3.3V
at low current consumption
mode
No input IR signal, High level
IOL=400µA
*8,9 Input pulse width 6.33µs
*8,9 Input pulse width 13.0µs
*8,9 Input pulse width 53.00µs
*7,8
*8
*8
*4
Θr = 30o, Φr = 15o
L2
3.0
-
-
m
IE
100
-
-
mW/sr
*6
*4
Θr = 50o, Φr = 15o
Θt < +15o, Φt < +15o
ILED=400mA
ILED=400mA
*9,10
*9,10
*4
850
900
nm
Peak Wavelength
λp
Rise Time
tr (IE)
80
nsec
Fall Time
tf (IE)
80
nsec
(NOTES)
6. “L”: Low current consumption mode, “H” or OPEN: Normal operating mode.
7. The time difference or time gap from the pulse judgement criteria point of the output waveform at the 50% point
between VOH and VOL.
8: Receiver output wavelength definition:
tj
tws, twd, twm
VOH
90%
90%
50%
50%
10%
10%
tf
VOL
tr
Criterion for
Pulse Position
Figure 6.1 GP2W2001YK Receiver Output Waveform
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
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ELECTRONIC COMPONENTS
9:
SHARP IrDA Control Infrared Transceiver
Emitter output wavelength definition:
Pulse Width
6.67µs
90%
50%
IE
100mW/sr
10%
tr
tf
T
Figure 6.2 GP2W2001YK Emitter Output Waveform
10:
Recommended Circuit for Emitter Side:
4.7Ω
Vcc2=5V
LEDA
560pF
TX
VIH=3.0V
The output signal shown above (Figure 6.2) should be obtained by
applying the “recommended circuit for emitter side” shown right.
GP2W2001YK
820Ω
7. Pinout
Pin
1
2
3
4
5
6
7
8
9
10
11
Description
Analog Supply Voltage
Shut Down for Low Current Consumption
RESET Terminal for Receiver Sensitivity Recovery
Analog Ground
Digital Supply Voltage
Digital Ground
Receiver Data Output
Bandpass Filter
Transmitter Data Input
IRLED Anode
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
Symbol
AVCC
SD
RESET
CX
AGND
DVCC
DGND
VO
f0
TXD
LEDA
PIN 1
PIN 11
PIN 11
PIN 1
8
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
8. Application Circuit and Recommended Components
Parts
CX1
CX2
CX3
CX4
CX5
R1
R2
R3
R4
Recommended Value
470pF, + 10%, Ceramic
0.1µF, + 10%, Ceramic
4.7µF, + 20%, Aluminum
0.1µF, + 10%, Ceramic
560pF, + 10%, Ceramic
10Ω, + 5%, 0.125 Watt
8.2kΩ, + 1%, 0.125 Watt
820 Ω, + 5%, 0.125 Watt
4.7Ω, + 5%, 0.5 Watt
Receiver
1
2
3
4
5
Transmitter
6
CX1
7
9
8
10
11
R2
CX4
FERESET
R4
R3
CX2
RxCNT
CX5
Ç
CX3
ILED=400mA
R1
3.3V
IRRX
IRTX
5V
Figure 8.1 GP2W2001YK Application Circuit Example
9. Waveform Examples
The following diagram shows and example of IrDA Control implementation using Sharp IrDA Control Infrared
Transceiver. The waveform of the implemented system with Sharp IrDA Control Infrared Transceiver will be as shown
below:
Vcc2
Section
Waveform
LEDA
I
TXD
Vo
II
RESET
IRTx1
I
16PSM code x 1.5MHz
IRRx1
FRESET
II
SD
RxCNT
Receiver Original Output
Figure 9.1 IrDA Control Transceiver Implementation
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
9
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
10. RESET Function
The “RESET” terminal is used to recover the receiver sensitivity to its maximum level. Since Sharp IrDA Control
Infrared Transceiver has a built-in capability to adjust the receiving sensitivity, as a result, a very weak IR signals may
not be correctly received just after receiving a very strong IR signals.
Following figure shows an example of “RESET” signal in order to recover the Sharp IrDA Control Infrared
Transceiver’s receiving sensitivity to its receiving sensitivity to its maximum level:
AGCN
Optical
Signal
Gap Time
Vo
RESET
input
> 13µsec
tret: The time period until AGCN
tret
(NOTES)
This pinout is an Active Low terminal, and stays HIGH level when it is OPEN. The Low Level Pulse for the period of
> 13µsec enables this function to work. This > 13µsec input must be pulsed within the period of Gap time in order for
the transceiver to have receiver sensitivity recovery. The timing for this “RESET” pulse should be adjusted at
controller side.
11. The Derating Curve of Peak Forward LED Current
(Pulse width < 3.3µsec, Duty Ratio < 25%)
Peak Forward Current : IFM (mA)
600
500
400
300
200
100
0
-25
-10
0
70 75
25
50
Ambient Temperature : Ta (oC)
100
Figure 11.1 Derating Curve of Peak LED Current
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
10
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
LIFE SUPPORT POLICY
SHARP components should not be used in medical devices with life support functions or in safety equipment (or
similar applications where component failure result in loss of life or physical harm) without the written approval of an
officer of the SHARP Corporation.
SHARP reserves the right to make changes in specifications at any time and without notice. SHARP does not assume
any responsibility for the use of any circuitry described; no circuit patent licenses are implied.
SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
11
ELECTRONIC COMPONENTS
SHARP IrDA Control Infrared Transceiver
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-IC/ELECTRONIC COMPONENTS
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SHARP Electronic Components
Rev. 1.1.1 November 26, ‘98
12