RPM960-H14
Photo Link Module
IrDA Infrared Communication Module
RPM960-H14
RPM960-H14 is an infrared communication module for IrDA Ver. 1.3 (Low Power). The infrared LED, PIN photo diode,
and LSI are all integrated into one single package. This module is designed for low power consumption. The very small
package makes it a perfect fit for mobile devices.
Features
1) Infrared LED, PIN photo diode, LED driver and receiver frequency formation circuit built in.
Improvement of EMI noise protection because of Shield Case.
2) Applied to SIR (2.4k to 115.2kbps) and MIR (0.576,1.152Mbps).
3) Surface mounting type.
4) Power down function built in.
5) Adjustable transmission distance by LED load resistance value.
Applications
Cellular phone, PDA, DVC, Digital still camera, Printer, Handy terminal and etc.
Absolute maximum ratings
(Ta=25°C)
Parameter
Supply Voltage
Input Voltage
Operation Temperature
Storage Temperature
LED Peak Current
Power Dissipation
Symbol
Vcc/LEDV
CC
/V
IO
Vin(3,4,5pin)
Topr
Tstg
Ifp
Pd
Limits
6.5
∗
1
−0.3
to V
IO
+0.3
−25
to 85
−30
to 100
400
∗
2
300
∗
3
Units
V
V
°C
°C
mA
mW
∗
1) This applies to all pins on the basis of ground pin (8pin).
∗
2) LED Peak Current :
<
90
µs,
On duty
<
25%
∗
3) When glass-epoxy board (70x70x1.6mm) mounted. In case of operating environment is over 25°C, 4mW
would be reduced per each 1˚C stepping up.
Recommended operating conditions
Parameter
Symbol
V
CC
Supply voltage
LEDV
CC
V
IO
Min.
2.4
2.7
1.8
Typ.
3.0
3.0
3.0
Max.
3.6
5.5
V
CC
Units
V
V
V
Rev.C
1/5
RPM960-H14
Photo Link Module
Block diagram and application circuit
R1
LEDA
1
LEDV
CC
2
LEDC
TXD
TXD
3
RXD
4
RXD
AMP
POWER
DOWN
PWDOWN
PWDOWN
5
AMP
6
V
CC
C1
V
CC
7
V
IO
V
IO
AMP
GND
8
GND
V
CC
(6pin) and LEDV
CC
(1pin) can be used on either common
power source or different one.
Recommended values
Part symbol
C1
R1
Recommended value
6.8µF, Ceramic or tantalum
Ex.) TCFGA1A685M8R
(ROHM)
5.6Ω
±5%,1/4
W(LEDV
CC
=3.0V)
Notice
Bigger capacitance is recommended with much noise from power supply.
More than 50cm distance, more than 10µW/cm at detecting side.(vs ver1.1)
2
In case of using R1 with different condition from the above, formula is as follows :
LED resistance value : R1[Ω], LED's average consumption current : ILED[mA], Supply voltage : LEDV
CC
[V]
necessary d[cm]
(Including
LED's distribution within
±15
deg)
R1=T
(LEDV
CC
−1.45) /
d
−5[Ω]
ILED=Duty
(LEDV
CC
−1.36) / (R1+4)
[A]
2
+
∗
At ILED
/
Duty
<
180 mA
+
Duty : LED duty at emitting, T=17000
Rev.C
2/5
RPM960-H14
Photo Link Module
Terminal description
Pin No
Terminal
Circuit
Function
LED Anode Terminal
Other power source can be used difference between
LEDV
CC
and V
CC
.
LED current depends on LED load resistance value.
Include internal current limiter (max.400mA).
LED Cathode Terminal
1
1
LEDA
LED
2
2
LEDC
V
IO
This terminal must be left open.
Transmitting Data Input Terminal
H:LED radiant (PWDOWN='L')
CMOS Logic Level Input.
Holding TXD="H"status, LED will be turned off at
approximately 48
µs.
Receiving Data Output Terminal
3
TXD
600k
V
IO
PWDOWN
V
IO
300k
When PWDOWN(5pin)='H', the RXD output will be pulled
up to V
IO
at approximately 300 kΩ.
4
RXD
V
IO
Power-down Control Terminal
H: POWERDOWN
L : OPERATION
5
PWDOWN
CMOS Logic Level Input.
When input is "H", it will stop the receiving circuit, Pin−PD
current and transmitting LED operation.
V
CC
Supply voltage for Transceiver circuits.
For preventing from infection, connect a capacitor between
GND(8pin).
V
IO
Supply voltage for I / 0 pins
(PWDOWN,RXD,TXD).
6
V
CC
7
8
V
IO
GND
GROUND
−
Shield Case
Connect to Ground.
Rev.C
3/5
RPM960-H14
Photo Link Module
Electrical characteristics
(Unless otherwise noted, V
CC
=3V, LEDV
CC
=3V, V
IO
=3V, Ta=25°C)
Parameter
Consumption current 1
Consumption current 2
Transmission rate
PWDOWN input high voltage
PWDOWN input low voltage
PWDOWN input high current
PWDOWN input low current
< Transmitter >
Symbol
I
CC
1
I
CC
2
Min.
270
−
2.4
Typ.
440
0.01
−
−
−
0
0
−
−
5
0
170
260
Max.
610
0.2
1152
V
IO
Unit
µA
µA
kbps
V
V
µA
µA
Conditions
PWDOWN=OV, At no input light
PWDOWN=V
IO
, At no input light
VPDH
VPDL
IPDH
IPDL
2/3∗V
IO
0
−1.0
−1.0
1/3∗V
IO
1.0
1.0
V
IO
=
1.8 to 3.6 V
(V
IO
<
V
CC
)
−
PWDOWN=V
IO
PWDOWN=0V
TXD input high voltage
TXD input low voltage
TXD input high current
TXD input low current
LED anode current 1
LED anode current 2
VTXH
VTXL
ITXH
ITXL
ILED1
ILED2
2/3∗V
IO
0
2.5
−1.0
−
180
V
IO
V
V
µA
µA
mA
1/3∗V
IO
10
1.0
−
400
V
IO
=
1.8 to 3.6 V
(V
IO
<
V
CC
)
−
TXD=V
IO
TXD=0 V
R1=5.6Ω
R1=5.6Ω
LEDV
CC
=5.5V
mA
< Receiver >
RXD output high voltage
RXD output low voltage
RXD output rise time
RXD output fall time
RXD output pulse width
RXD output pulse edge jitter
VRXH
VRXL
tRR
tFR
twRXD
Tjrxd
V
IO
−0.4
0
−
−
228
−
−
−
20
20
380
−
V
IO
0.4
−
−
532
160
V
V
ns
ns
ns
ns
IRXH=
−200µA
IRXL= 200µA
C
L
=15pF
C
L
=15pF
C
L
=15pF,
2.4k to 1.152 Mbps
1.152 Mbps
Receiver latency time
tRT
−
100
200
µs
Optical characteristics
(Unless otherwise noted, V
CC
=3V, LEDV
CC
=3V, V
IO
=3V, Ta=25°C)
Parameter
Peak wave length
Intensity1
Half−angle
Rise time / Fall time
Optical over shoot
Edge jitter
Optical pulse width
Minimum irradiance in angular
Maximum irradiance in augular
Input half−angle
Maximum emitting time
Tj
Twe
Eemin
Eemax
θD
/ 2
TLEDmax
Symbol
λP
IE1
θL
/ 2
Tr / Tf
Min.
850
25
−
−
−
−25
172
−
500
±15
16
Typ.
870
63
±18
−
−
−
217
9
−
−
48
Max.
900
200
−
40
25
25
256
14
−
−
120
Unit
nm
mW / Sr
deg
ns
%
ns
ns
tTXD=217 ns
10% to 90%
−15
deg
<
θ
L
<
15 deg
−
−
R1=5.6Ω
Conditions
µW
/ cm
2
−15
deg
< θ
L
<
15 deg
−
−
mW / cm
2
−15
deg
< θ
L
<
15 deg
−
−
deg
µs
TXD=V
IO
1. This product is not designed for protection against radioactive rays.
2. This product dose not include laser transmitter.
3. This product includes one PIN photo diode.
4. This product dose not include optical load.
Rev.C
4/5
RPM960-H14
Photo Link Module
Notes
1) LEDV
CC
(1pin), V
CC
(6pin) and V
IO
(7pin)
•
Other power source can be used difference between LEDV
CC
and V
CC
and V
IO
. (V
IO
< V
CC
+0.3V)
2) Caution in designing board lay-out
To get maximum potential from RPM960-H14, please keep in mind following instruction.
•
The line of RXD (4pin) should be connected at backside via through hole close to RPM960-H14 pin lead. Better not
to be close to photo diode side (8pin side).
⇒This
is to minimize feedback supplied to photo diode from RXD.
•
Better to be placed at more than 1.0cm radius from photo diode (8pin side) and also away from the parts which
generate noise, such as DC / DC converter.
•
As for C1 between 6 and 8 pins, it should be placed close to RPM960-H14.
3) Notes
•
Please be sure to set up the TXD (3pin) input to be “L” (under 0.6V) except transmitting data.
(For
<
90µ sec. ON duty
<
25%).
•
Powerdown current might increase if exposed by strong light (ex. direct sunlight) at powerdown mode.
•
Please use by the signal format which is specified by IrDA Ver1.3 (Low Power) except 4 Mbps.
There might be on error if used by different signal format.
4) Eye safe
•
EN60825-1 (IEC60825-1 amendment2), Class1 Eye safe.
External dimensions
(Unit : mm)
R1.0
8.0
R1.1
2.2
2.2
LED
1.1
1.4
2.8
4.0
A
PinPD
1.0
0.78
0.15±0.1
0.76
2.59
0.15±0.1
2.9
2.67
A Part Size (Shield Case underside size)
0.37±0.1
0.95
P0.95×7=6.65
0.6
0.48
0.6±0.1
(0.13)
0.68±0.1
NOTE
1.TOLERANCE : ±0.2mm
2.COPLANARITY : 0.1mmMAX
UNIT : mm
ETH396
0.75
1
8
2.2
Rev.C
5/5
RF/Wirelessly
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