Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 1 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
Technical Data Sheet
Photolink- Fiber Optic Receiver
PLR135/T5
Features
1. High PD sensitivity optimized for red light
2. Data : NRZ signal
3. Low power consumption for extended battery
life
4. Built-in threshold control for improved noise
Margin
5. Good ESD protection: up to 8KV
6. Pb Free
7. Receiver sensitivity: up to –27dBm (Min. for 16Mbps)
up to –21dBm (Min. for 25Mbps)
Descriptions
The optical receiver is packaged with custom
optic data link interface, integrated on a proprietary
CMOS PDIC process.
The unit functions by converting optical signals
into electric ones.
The unit is operated at 2.4 ~ 5.5 V and the signal
output interface is TTL compatible with high
performance at low power consumption.
Applications
1. Digital Optical Data-Link
2. Dolby AC-3 Digital Audio Interface
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 2 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
PLR135/T5
Package Dimensions
Notes: 1. All dimensions are in millimeters. Pin Function: 1.Vout
2. General Tolerance :±0.3mm 2.GND
3.Vcc
PCB Layout for Electrical Circuit
Notice:
1. Unit:mm
2. PCB tolerance:1.6m
m
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 3 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
PLR135/T5
Absolute Maximum Ratings( Ta = 25 ºC)
Parameter Symbol Rating Unit
Supply Voltage Vcc -0.5 ~ +5.5 V
Output Voltage Vout Vcc +0.3 V
Storage Temperature Tstg -40 to 85 ºC
Operating Temperature Topr -20 to 70 ºC
Soldering Temperature Tsol 260* ºC
* Soldering time ≤ 10 s.
Electro-Optical Characteristics(Ta=-20~70℃,Vcc=3V)
Parameter Symbol Conditions MIN. TYP. MAX. Unit
Power supply voltage Vcc - 2.40 3.00 5.5 V
Peak sensitivity wavelength λp - - 650 - nm
Maximum receiver power Pc,max Refer to Fig.1 - - -14
dBm
Minimum receiver power Pc,min Refer to Fig.1 -27 - -
dBm
Dissipation current Icc Refer to Fig.2 - 4 12
mA
High level output voltage VOH Refer to Fig.3 2.1 2.5 - V
Low level output voltage VOL Refer to Fig.3 - 0.2 0.4
V
Rise time tr Refer to Fig.3 10 20
ns
Fall time tf Refer to Fig.3 10 20
ns
Propagation delay Low to High tPLH Refer to Fig.3 - - 120 ns
Propagation delay High to Low tPHL Refer to Fig.3 - - 120 ns
Pulse Width Distortion ∆tw Refer to Fig.3 -25 - +25 ns
Refer to Fig.3, Pc=-14dBm - 1 15 ns
Jitter ∆tj Refer to Fig.3, Pc=-27dBm - 5 20 ns
Transfer rate T NRZ signal
0.1 - 16
Mb/s
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 4 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
PLR135/T5
Measuring Method
*Fig.1 Measuring Method of Maximum and Minimum Input Power that Receiver Unit Need
Transmitter
Standard plastic optic fiber cable
PLR135 Receiver Unit
Control Circuit
Optical Power Meter
*Fig.2 Measuring Method of Dissipation Current
Vin
Standard Transmitter Unit
Signal
Input
47uH
16 Mbps NRZ "0101" su ccessive signal input
Vcc GND
Standard plastic optic fiber cable
PLR135 Receiver Unit
3V
A
GND
0.1uF
Vcc Vout
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 5 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
L2:47uH
C1:0.1uF
Vout
5V
L2
Vcc GND
C1
Receiver Unit
C2
C2:30pF (Suggestion)
PLR135/T5
*Fig.3 Measuring Method of Output Voltage, Pulse and Jitter
Output
Vin
16 Mbps NRZ "0101" successive signal input
Standard Transmitter Unit
Input
Signal
Input
tw = TPHL-TPLH
tj2tj1
50%
50% CH2
47uH
T
TPLH PHL
Vcc GND
CH1
Standard pl astic optic fiber cable
PLR135 Receiver Unit
3V
A
GND
0.1uF
Vcc Vout
Application Circuit
(1) General application circuit for Vcc=3V (2) General application circuit for Vcc=5V
L2:47uH
C1:0.1uF
Vout
3V
L2
Vcc GND
C1
Receiver Unit
Note: For having good coupling, the C1,C2 capacitor must be placed within 7mm
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 6 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
PLR135/T5
Typical Electro-Optical Characteristics Curves
*Fig.4 Power supply voltage vs. Minimum
receiver power *Fig.5 Transfer rate vs. Minimum receiver
power
2.02.53.03.54.04.55.05.56.0
-20
-22
-24
-26
-28
-30
Operating Transfer Rate
16Mbps
25Mbps
Optical Input Sensitivity (dBm)
Operating Voltage (V)
0 5 10 15 20 25
-18
-20
-22
-24
-26
-28
-30
-32 Operating Voltage Vcc=3.3V
Optical Input Sensitivity (dBm)
Transfer Rate (Mbps)
Note: Before using the PLR135 device, please confirm the minimum sensitivity at different
operating voltage and transmission rate.
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 7 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
PLR135/T5
RELIABILITY TEST ITEMS
Test Sample Size Number (n)
No. Item Test Condition
Hour/Cycle (Piece) Failure (c)
1 Soldering Heat 260ºC±5ºC 10 seconds 22 n=22, c=0
2 High Temp. Storage Ta=100ºC 1000hrs 22 n=22, c=0
3 Low Temp. Storage Ta=-55ºC 1000hrs 22 n=22, c=0
High Temp. &
4 Humid. Test Ta=85ºC, RH=85% 1000hrs 22 n=22, c=0
-55ºC ~~~~ 85ºC
5 Temperature Cycle (30min) (5min) (30min) 300cycle 22 n=22, c=0
-10ºC ~~~~ 100ºC
6 Thermal Shock (5min) (10sec) (5min) 300cycle 22 n=22, c=0
7 DC Operating Life Vcc=3V, Ta=25ºC 1000hrs 22 n=22, c=0
Everlight Electronics Co., Ltd. http://www.everlight.com Rev 1.3 Page: 8 of 8
Device NO.: DPL-135-009 Prepared date: 04-09-2004 Prepared By: Chin-Chia Hsu
PLR135/T5
Application Notes: PLR135 Series PCB layout for motherboard integration
To achieve better jitter and low input optical power performances, several PCB layout
guidelines must be followed. These guidelines ensure the most reliable PLR135 POF performance
for the motherboard integration. Failed to implement these PCB guidelines may affect the PLR135
jitter and low input power performances.
1. Careful decoupling of the power supplies is very important. Place a 0.1uf surface mount (size
805 or smaller) capacitor as close as (less than 2cm) to the POF Vdd and Gnd leads. The 0.1uf
act as a low impedance path to ground for any stray high frequency transient noises.
2. To reduce the digital noises form the digital IC on the motherboard, the planar capacitance
formed by an isolated Vcc and Gnd planes is critical. The POF device must be mounted directly
on these two planes to reduce the lead parasitic inductance.
3. The isolated Vdd and Gnd planes must be connected to the main Vcc and Gnd (digital) planes
at a single point using ferrite beads. The beads are used to block the high frequency noises from
the digital planes while still allowing the DC connections between the planes
E
VERLIGHT ELECTRONICS CO., LTD. Tel: 886-2-2267-2000, 2267-9936
Office: No 25, Lane 76, Sec 3, Chung Yang Rd, Fax: 886-2267-6244, 2267-6189, 2267-6306
Tucheng, Taipei 236, Taiwan, R.O.C http://www.everlight.com
