Fast Ethernet SFP
Multimode Transceivers
TRPNFEMM
Product Description
The TRPNFEMM series of fiber optic transceivers provide a quick and reli-
able interface for 100BASE-FX Fast Ethernet multimode applications.
The transceivers connect to standard 20-pad SFP connectors for hot plug
capability. This allows the system designer to make configuration chang-
es or maintenance by simply plugging in different types of transceivers
without removing the power supply from the host system.
The transceivers have bail-type latches, which offer an easy and conve-
nient way to release the modules. The latch is compliant with the SFP
MSA.
The transmitter design incorporates a highly reliable 1310nm LED and a
driver circuit. The receiver features a low noise transimpedance amplifier
IC for high sensitivity and wide dynamic range. The transmitter and re-
ceiver DATA interfaces are AC-coupled internally. LV-TTL Transmitter Dis-
able control input and Loss of Signal output interfaces are also provided.
The transceivers operate from a single +3.3V power supply over three
operating case temperature ranges of -5°C to +70°C (“B” option), -5°C to
+85°C (“E” option) or -40°C to +85°C (“A” option). The housing is made of
plastic and metal for EMI immunity.
Features
Compliant with SFP MSA
Designed for Fast Ethernet 100BASE-FX
Applications
1310nm LED Transmitter
Hot-pluggable
Excellent EMI & ESD Protection
Loss of Signal Output
Distances up to 2km
TX Disable Input
Duplex LC Optical Interface
Single +3.3V Power Supply
Absolute Maximum Ratings
Parameter
Storage Temperature
Operating Case
Temperature
1
Supply Voltage
Input Voltage
1
Symbol
T
st
“B” option
“E” option
“A” option
V
cc
V
in
T
op
Minimum
- 40
-5
-5
- 40
0
0
Maximum
+ 85
+ 70
+ 85
+ 85
+ 5.0
V
cc
Units
°C
°C
V
V
Measured on top side of SFP module at the front center vent hole of the cage.
An Oplink Company
RevB-P.2009.06.23
TRPNFEMM
Transmitter Performance Characteristics
(Over Operating Case Temperature,
V
CC
= 3.13 to 3.47V)
All parameters guaranteed only at typical data rate
Parameter
Operating Data Rate
1
Optical Output Power
2
Center Wavelength
3
Spectral Width (FWHM)
3
Optical Rise/Fall Time (10% to 90%)
3
Extinction Ratio
Optical Output Power of OFF Transmitter
Duty Cycle Distortion Jitter (peak-to-peak)
Data Dependent Jitter (peak-to-peak)
Random Jitter (peak-to-peak)
4
Transmitter Output Eye
5
1
2
Symbol
B
P
O
λ
C
Δλ
RMS
t
r,
t
f
P
hi
/P
lo
P
OFF
DCD
DDJ
RJ
Minimum
-
- 19.0
1270
-
0.6
10
-
-
-
-
Typical
125
- 16.0
-
140
-
-
-
-
-
-
Maximum
-
- 14.0
1380
-
3.0
-
- 45.0
1.0
0.6
0.76
Units
Mb/s
dBm
nm
nm
ns
dB
dBm
ns
ns
ns
Typically compliant with OC-3/STM-1 eye mask (GR-253-CORE
and G. 957) without filter, but not guaranteed and not tested for.
Data rate ranges from 50Mb/s to 266Mb/s. However, some degradation may be incurred in overall performance.
Measured average power coupled into 62.5/125μm, 0.275 NA graded-index multimode fiber. The minimum power specified is at Beginning-of-Life.
3
The Center Wavelength, Spectral Width and Optical Rise/Fall Time satisfy the trade-off curves in FDDI PMD document as shown in Figure 1.
4
Defined as 12.6 times the rms value per FDDI PMD.
5
Compliance with the Optical Pulse Envelope in FDDI PMD is not specified and is not claimed.
Receiver Performance Characteristics
(Over Operating Case Temperature,
V
CC
= 3.13 to 3.47V)
All parameters guaranteed only at typical data rate
Parameter
Operating Data Rate
1
Minimum Input Optical Power (2.5x10
-10
BER)
2
Maximum Input Optical Power (2.5x10
-10
BER)
2
LOS Thresholds
LOS Hysteresis
LOS Timing Delay
Increasing Light Input
Decreasing Light Input
Increasing Light Input
Decreasing Light Input
Symbol
B
P
min
P
max
P
los+
P
los-
-
t_loss_off
t_loss_on
DCD
DDJ
RJ
λ
Minimum
-
- 32.5
- 14.0
P
los-
+ 1.5dB
- 45.0
1.5
-
-
-
-
-
1100
Typical
125
- 34.5
0
-
-
-
-
-
-
-
-
-
Maximum
-
-
-
- 32.5
-
-
100
350
0.4
1.0
2.14
1600
Units
Mb/s
dBm
dBm
dBm
dB
µs
ns
ns
ns
nm
Contributed Duty Cycle Distortion Jitter (peak-to-peak)
Contributed Data Dependent Jitter (peak-to-peak)
Contributed Random Jitter (peak-to-peak)
3
Wavelength of Operation
1
2
Data rate ranges from 50Mb/s to 266Mb/s. However, some degradation may be incurred in overall performance.
Specified in average optical input power and measured with 2
23
-1 PRBS at 125Mb/s and 1310nm wavelength with optical input rise/fall time of 2.5ns
and optimum sampling.
3
Defined as 12.6 times the rms value per FDDI PMD.
Laser Safety:
All transceivers are Class I Laser prod-
ucts per FDA/CDRH and IEC-60825 standards. They
must be operated under specified operating condi-
tions.
Oplink Communications, Inc.
DATE OF MANUFACTURE:
This product complies with
21 CFR 1040.10 and 1040.11
Meets Class I Laser Safety Requirements
Oplink Communications, Inc.
2
RevB-P.2009.06.23
TRPNFEMM
Transmitter Electrical Interface
(Over Operating Case Temperature,
V
CC
= 3.13 to 3.47V)
Parameter
Input Voltage Swing (TD+ & TD-)
1
Input HIGH Voltage (TX Disable)
2
Input LOW Voltage (TX Disable)
2
1
2
Symbol
V
PP-DIF
V
IH
V
IL
Minimum
0.50
2.0
0
Typical
-
-
-
Maximum
2.4
V
CC
0.8
Units
V
V
V
Differential peak-to-peak voltage.
There is an internal 4.7 to 10kΩ pull-up resistor to
VccT.
Receiver Electrical Interface
(Over Operating Case Temperature,
V
CC
= 3.13 to 3.47V)
Parameter
Output Voltage Swing (RD+ & RD-)
1
Output HIGH Voltage (LOS)
2
Output LOW Voltage (LOS)
2
1
2
Symbol
V
PP-DIF
V
OH
V
OL
Minimum
0.6
2.0
0
Typical
-
-
-
Maximum
2.0
V
CC
+ 0.3
0.5
Units
Vp-p
V
V
Differential peak-to-peak voltage across external 100Ω load.
Open collector compatible, 4.7 to 10kΩ pull-up resistor to
Vcc
(Host Supply Voltage).
Electrical Power Supply Characteristics
(Over Operating Case Temperature,
V
CC
= 3.13 to 3.47V)
Parameter
Supply Voltage
Supply Current
Symbol
V
CC
I
CC
Minimum
3.13
-
Typical
3.3
222
Maximum
3.47
245
Units
V
mA
Module Definition
MOD_DEF(0)
pin 6
TTL LOW
MOD_DEF(1)
pin 5
SCL
MOD_DEF(2)
pin 4
SDA
Interpretation by Host
Serial module definition protocol
Electrical Pad Layout
20
19
18
17
16
15
14
13
12
11
TX GND
TD- (TX DATA IN-)
TD+ (TX DATA IN+)
TX GND
VccTX
VccRX
RX GND
RD+ (RX DATA OUT+)
RD- (RX DATA OUT-)
RX GND
Host Board Connector Pad Layout
1
2
3
4
5
6
7
8
9
10
TX GND
TX Fault
TX Disable
MOD_DEF(2)
MOD_DEF(1)
MOD_DEF(0)
NO CONNECTION
LOS
RX GND
RX GND
1
2
3
Toward
Bezel
20
19
18
17
16
15
14
13
12
11
Toward
ASIC
4
5
6
7
8
9
10
Top of Board
Bottom of Board
(as viewed thru top of board)
Pin 2 Internally Grounded.
Oplink Communications, Inc.
3
RevB-P.2009.06.23
TRPNFEMM
Example of SFP host board schematic
1µH coil or ferrite bead
(<0.2Ω series resistance)
Vcc
3.3V
Vcc
3.3V
+
10
0.1
0.1
16
15
8
4
5
6
R
R
R
LOS
MOD_DEF(2)
MOD_DEF(1)
MOD_DEF(0)
(Internally Grounded)
RX DATA OUT+
to 50Ω load
RX DATA OUT-
to 50Ω load
+
10
0.1
TX Disable
50Ω line
3
TRPNFEMM
TX DATA IN+
TX DATA IN-
50Ω line
18
19
50Ω line
13
50Ω line
12
1, 9, 10, 11, 14, 17, 20
R: 4.7 to 10kΩ
200
3.0
SOURCE FWHM SPECTRAL WIDTH (nm)
180
1.5
160
3.5
2.0
140
2.5
Source rise & fall time (ns)
3.0
120
3.5
100
1280
1300
1320
1340
1360
1380
Figure 1 - Trade-off
curves in FDDI PMD
document
SOURCE CENTER WAVELENGTH (nm)
Application Notes
Electrical Interface:
All signal interfaces are compliant with the SFP
MSA specification. The high speed DATA interface is differential AC-
coupled internally with 0.1μF and can be directly connected to a 3.3V
SERDES IC. All low speed control and sense output signals are open
collector TTL compatible and should be pulled up with a 4.7 - 10kΩ
resistor on the host board.
Loss of Signal (LOS):
The Loss of Signal circuit monitors the level
of the incoming optical signal and generates a logic HIGH when an
insufficient photocurrent is produced.
TX Fault:
Per SFP MSA, pin 2 is TX Fault. This transceiver is LED based
and does not support TX Fault. Pin 2 is internally connected to
transmitter circuit ground (TX GND) to indicate normal operation.
TX Disable:
When the TX Disable pin is at logic HIGH, the transmitter
optical output is disabled (less than -45dBm).
Serial Identification and Monitoring:
The module definition of
SFP is indicated by the three module definition pins, MOD_DEF(0),
MOD_DEF(1) and MOD_DEF(2). Upon power up, MOD_DEF(1:2)
appear as NC (no connection), and MOD_DEF(0) is TTL LOW. When
the host system detects this condition, it activates the serial protocol
(standard two-wire I
2
C serial interface) and generates the serial clock
signal (SCL). The negative edge clocks data from the SFP EEPROM.
The serial data signal (SDA) is for serial data transfer. The host uses
SDA in conjunction with SCL to mark the start and end of serial
protocol activation.
The data transfer protocol and the details of the mandatory and
vendor specific data structures are defined in the SFP MSA.
Power Supply and Grounding:
The power supply line should be
well-filtered. All 0.1μF power supply bypass capacitors should be as
close to the transceiver module as possible.
Oplink Communications, Inc.
4
RevB-P.2009.06.23
TRPNFEMM
Package Outline
0
1.27 -0.13
.050 +.000
-.005
56.7
2.23 REF
0
0.98 -0.13
+.000
.038 -.005
1
.04
13.67
13.54
.54
.53
6.25±0.05
.246±.002
FRONT EDGE OF
TRANSCEIVER CAGE
47.3
1.861
8.51
.335
8.9
.350
46335 Landing Pkwy Fremont, CA 94538 Tel: (510) 933-7200 Fax: (510) 933-7300 Email: Sales@Oplink.com • www.oplink.com
13.9±0.2
.546±.008
1.8
.07
41.8±0.15
1.646±.006
45±0.20
1.771±.008
Dimensions in inches [mm]
Default tolerances:
.xxx = ± .005”, .xx = ± .01”
Ordering Information
Model Name
Oplink Order Number
For Reference
(OCP order number)
Operation Temperature
Nominal
Wavelength
Latch Color
TRP3FE0L1C00000
TRP3FE0L1E00000
TRP3FE0L1I00000
TRPNFEMM3BSS
TRPNFEMM3ESS
TRPNFEMM3ASS
- 5 °C to + 70°C
- 5 °C to + 85°C
- 40 °C to + 85°C
1310nm
1310nm
1310nm
Silver
Silver
Silver
Oplink Communications, Inc. reserves the right to make changes in equipment design or specifications without notice. Information supplied by Oplink Commu-
nications, Inc. is believed to be accurate and reliable. However, no responsibility is assumed by Oplink Communications, Inc. for its use nor for any infringements
of third parties, which may result from its use. No license is granted by implication or otherwise under any patent right of Oplink Communications, Inc.
RevB-P.2009.06.23
© 2008, Oplink Communications, Inc.
5
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