10Gb/s SFP+ Optical Transceiver Module SPP5300LR

TS-S11D042A
August, 2011
Preliminary
10Gb/s SFP+ Optical Transceiver Module
SPP5300LR-GL
SPP5300LR-GL-M
SPP5300LR-GL-W
(10GBASE-LR/LW and 1200-SM-LL-L, 1310nm DFB-LD, PIN-PD)
Features
‹
10Gb/s Serial Optical Interface
¾
High quality and reliability optical device and
sub-assemblies
‹
¾
1310nm DFB laser for up to 10km over single mode fiber
¾
High sensitivity PIN photodiode and TIA
SFP+ MSA Compliant
¾
Compliant with SFF 8431 for electrical interface
ƒ SFI
High Speed electrical interface
ƒ Tx_Disable
¾
and Rx_LOS function supported
Compliant with SFF 8432 for mechanical interface
ƒ SFP
Mechanical Interface for easy removal
ƒ Duplex
LC Receptacle
¾ Compliant
with SFF 8742 for 2-wire interface for
management and diagnostic monitor
‹
Support Dual Protocol (9.95Gbps to 10.52Gbps)
ƒ IEEE802.3ae
ƒ ANSI
‹
10GBASE-LR/LW
Applications
10GFC 1200-SM-LL-L
‹
10G Ethernet switches and routers
‹
10GE Storage
-5 to 70 deg.C (SPP5300LR-GL), in extended
‹
10GFC Storage
Temperature range of -5 to 85deg.C (SPP5300LR-GL-M),
‹
Inter Rack Connection
-40 to 85degC(SPP5300LR-GL-W)
‹
Other high speed data connections
Low Power Consumption for Single 3.3V Power Supply
Not over 1.2W in commercial temperature range of
‹
RoHS6 compliant
Ethernet MAC
SE
RD
ES
SPP5300
(SFP+)
10Gb/s SFI
electrical signal
SPP5300
(SFP+)
10Gb/s optical signal
SE
RD
ES
Ethernet MAC
10Gb/s SFI
electrical signal
Application Block Diagram
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 1
TS-S11D042A
August, 2011
Preliminary
1.
General Description
SPP5300LR-GL is a very compact 10Gb/s optical transceiver module for serial optical
communication applications at 10Gb/s. SPP5300LR-GL converts a 10Gb/s serial electrical
data stream to 10Gb/s optical output signal and a 10Gb/s optical input signal to 10Gb/s
serial electrical data streams. The high speed 10Gb/s electrical interface is fully compliant
with SFI specification of SFF 8431.
SPP5300LR-GL is designed for Ethernet LAN (10.3Gb/s)/WAN(9.95Gb/s) and 10G FC
(10.5Gb/s) applications. The high performance 1310nm DFB-LD transmitter and high
sensitivity PIN receiver provide superior performance for Ethernet and Fiber Channel
applications at up to 10km links.
The fully SFP compliant form factor provides hot pluggability, easy optical port upgrades and
low EMI emission.
Table 1. Fiber compliance
SFP+ type
Wavelength
Cable Type
Core Size
[nm]
distance
10GBASE-LR/LW
Compliant with
1310
1200-SM-LL-L
2.
Cable
SMF
10km
G.652
Functional Description
SPP5300LR-GL contains a duplex LC connector for the optical interface and a 20-pin
connector for the electrical interface. Figure 2 shows the functional block diagram of
SPP5300LR-GL SFP+ Transceiver.
Transmitter Operation
The transceiver module receives 10Gb/s electrical data and transmits the data as an optical
signal. The transmitter output can be turned off by Tx disable signal via TX_DIS pin. When
TX_DIS is asserted High, Transmitter is turned off.
Receiver Operation
The received optical signal is converted to serial electrical data signal. The RX_LOS signal
indicates insufficient optical power for reliable signal reception at the receiver.
Management Interface
A 2-wire interface (SCL, SDA) is used for serial ID, digital diagnostics and other control
/monitor functions.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 2
TS-S11D042A
August, 2011
Preliminary
SFP Module
HOST Board
TD+
TOSA
DFB-LD
Laser
Driver
TDRD+
ROSA
PIN PD
Post
Amplifier
RD-
10k
Diagnostic Monitor
4.7k-10k
Tx Disable
TX Fault
RX_LOS
SCL
SDA
RS0
RS1
uPC
30k
Figure 2. Functional Block Diagram
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 3
TS-S11D042A
August, 2011
Preliminary
3.
Package Dimensions
Figure 3. shows the package dimensions of SPP5300LR-GL. SPP5300LR-GL is designed
to be complaint with SFP MSA specification. Package dimensions are specified in
SFF-8432.
Figure 3. Package dimensions
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 4
TS-S11D042A
August, 2011
Preliminary
4.
4.1.
Pin Assignment and Pin Description
SFP Transceiver Electrical Pad Layout
Figure 4.1.
4.2.
SFP Transceiver Electrical Pad Layout
Host PCB SFP Pinout
Figure 4.2.
SPP5300 Series
Host PCB SFP Pinout
Sumitomo Electric Industries, Ltd.
Page 5
TS-S11D042A
August, 2011
Preliminary
4.3.
Pin Descriptions
Table 4.3.
Pin Description
Power
Pin#
Name
Logic
Description
Sequence Note
Order
1
2
VeeT
Tx_Fault
Module Transmitter Ground
LVTTL-O Module Transmitter Fault
LVTTL-I Transmitter Disable,Turns off transmitter laser output
1st
1
rd
2
rd
3
3
3
Tx_Disable
4
SDA
LVTTL-I/O 2 Wire Serial Interface Data Line
3rd
5
SCL
LVTTL-I/O 2 Wire Serial Interface Clock Line
3
6
MOD_ABS
Module Absent, connected to VeeT or VeeR in the
3
rd
3rd
2
module
7
RS0
8
RX_LOS
LVTTL-I Rate Select 0 (not functional for this product)
3rd
LVTTL-O Receiver Loss of Signal Indication
3rd
LVTTL-I Rate Select 1 (not functional for this product)
2
rd
9
RS1
3
10
VeeR
Module Receiver Ground
1
1
11
VeeR
Module Receiver Ground
1st
1
12
RD-
CML-O
Receiver Inverted Data Output
3rd
13
RD+
CML-O
Receiver Non-Inverted Data Output
3rd
14
VeeR
Module Receiver Ground
1st
15
VccR
Module Receiver 3.3V Supply
2nd
16
VccT
Module Transmitter 3.3V Supply
2nd
17
VeeT
Module Transmitter Ground
1
st
1
st
1
rd
18
TD+
CML-I
Transmitter Non-Inverted Data Input
3
19
TD-
CML-I
Transmitter Inverted Data Input
3rd
20
VeeT
Module Transmitter Ground
1st
1
Note
1: Module ground pins are isolated from the module case and chassis ground within the module.
2: Shall be pulled up with 4.7k to 10k ohm to a voltage between 3.15V and 3.45V on the host board.
3: Pulled up with 4.7k to 10k ohm to VccT inside the module.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 6
TS-S11D042A
August, 2011
Preliminary
5.
Absolute Maximum Ratings and Recommended Operating Conditions
Table 5.1.
Absolute Maximum Ratings
Parameter
Symbol
Min
Max
Unit
Storage Temperature
Tst
-40
85
degC
Relative Humidity (non-condensation)
RH
-
85
%
VccR/VccT
-0.5
4
V
Voltage on LVTTL Input
Vilvttl
-0.5
VCC3+0.5
V
LVTTL Output Current
Iolvttl
-
15
mA
Voltage on Open Collector Output
Voco
0
6
V
Mip
-
1.5
dBm
Supply Voltage
Note
Receiver Input Optical
Power(Average)
Table 5.2.
Recommended Operating Conditions and Supply Requirements
Parameter
Symbol
Operating Case Temperature
Relative Humidity(non-condensing)
Power Supply Voltage
Total Power Consumption
Min
Max
-5
70
-5
85
2
-40
85
3
Rhop
-
85
%
VccR/VccT
3.135
3.465
V
Pc
-
1.2
W
Topc
Unit
degC
Note
1
Note: 1. SPP5300LR-GL
2. SPP5300LR-GL-M
3. SPP5300LR-GL-W
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 7
TS-S11D042A
August, 2011
Preliminary
6. Electrical Interface
6.1. High Speed Electrical Interface
SFI Application Reference model
Figure 6.1.1. shows the high speed electrical interface (SFI) compliance points.
SFI electrical interface is specified for each compliance point in the SFP MSA specification.
C'
C
SFP Module
D
ASIC/
SERDES
Receiver
O/E
Transmitter
E/O
A
Capacitors
B'
B
SFP enhanced connector
Figure 6.1.1.
SFI Application Reference Model
SFI Module Transmitter Input Electrical Interface Specification at B’ and Calibrated B”
Table 6.1.1.
SFI Transmitter Input Electrical Specifications at B’
Parameter-B’
Symbol
Condition
Min
Single Ended Input Voltage Tolerance
Referenced to VeeT
-0.3
AC Common Mode Voltage Tolerance
Note 1
15
Differential Input S-parameter
Typ
Max.
Unit
4.0
V
mV
0.01 to 4.1GHz
Note 2
dB
4.1 to 11.1GHz
Note 3
dB
0.01 to 11.1GHz
-10
dB
SDD11
Reflected Differential to Common
SCD11
Mode Conversion
Note
1. Measured at B’’ with Host Compliance Board and Module Compliance Board pair specified in
SFF-8431
2. Reflection Coefficient given by equation SDD11(dB)< -12+2*SQRT(f), with f in GHz
3. Reflection Coefficient given by equation SDD11(dB)< -6.3+13*log10(f/5.5), with f in GHz
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 8
TS-S11D042A
August, 2011
Preliminary
Table 6.1.2.
Transmitter Input Tolerance Signal Calibrated at B”
Parameter- B”
Symbol
Condition
Min
Target.
Max.
Unit
Tr, Tf
Note 1, 2
34
ps
Note 1, 2
1000
mV
Crosstalk Source Rise/Fall time (20%
to 80%)
Crosstalk Source Amplitude
(p-p differential)
AC Common Mode Voltage
Note 3
15
mV (RMS)
0.28
UI (p-p)
Total Jitter
TJ
Data Dependent Jitter
DDJ
0.10
UI (p-p)
Pulse Width Shrinkage Jitter
DDPWS
0.055
UI (p-p)
Uncorrelated Jitter
UJ
0.023
UI (RMS)
Note 4
X1
Eye Mask
Figure 6.1.2
UI
X2
Mask hit ratio
0.33
UI
Y1
-5
95
mV
350
mV
of 5x10
Y2
Note
0.12
1. Measured at C’’ with Host Compliance Board and Module Compliance Board pair specified in
SFF-8431.
2. Since the minimum module output transition time is faster than the crosstalk transition time the
amplitude of crosstalk source is increased to achieve the same slew rate.
3. The tester is not expected to generate this common mode voltage however its output must not
exceed this value.
4. It is not possible to have the maximum UJ and meet the TJ specifications if the UJ is all
Gaussian.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 9
TS-S11D042A
August, 2011
Preliminary
SFI Module Receiver Output Electrical Interface Specifications at C’
Table 6.1.3.
SFI Receiver Output Electrical Specifications at C’
Parameter -C’
Crosstalk
source
Symbol
Condition
Min
Target
Max
Unit
Tr, Tf
Note 1
34
ps
Note 1
700
mV
Rise/Fall
Time (20% to 80%)
Crosstalk Source Amplitude
(p-p differential)
Termination Mismatch at 1 MHz
dZM
5
%
4.0
V
Single Ended Output Voltage
-0.3
Tolerance
Output AC Common Mode
mV
7.5
Voltage
(RMS)
Differential Output S-parameter
Common
Mode
0.01 to 4.1GHz
Note 2
dB
4.1 to 11.1GHz
Note 3
dB
0.01 to 2.5GHz
Note 4
dB
2.5 to 11.1GHz
-3
dB
SDD22
Output
SCC22
Reflection Coefficient
Note
1. Measured at B’’ with Host Compliance Board and Module Compliance Board pair specified in SFF-8431.
2. Reflection Coefficient given by equation SDD11(dB)< -12+2*SQRT(f), with f in GHz
3. Reflection Coefficient given by equation SDD11(dB)< -6.3+13*log10(f/5.5), with f in GHz
4. Reflection Coefficient given by equation SCC22(dB)< -7+1.6*f, with f in GHz
Table 6.1.4.
SFP+ Limiting Output Jitter and Eye Mask Specifications at C’
Parameter- C’
Symbol
Condition
Min
Target
Max
Output Rise/Fall time (20% to 80%)
Tr, Tf
Total Jitter
TJ
0.70
UI (p-p)
99% Jitter
J2
0.42
UI (p-p)
28
Unit
ps
X1
Mask hit
0.35
UI
Y1
ratio of
150
mV
Y2
1x10-12
425
mV
Eye Mask
Figure 6.1.3
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 10
TS-S11D042A
August, 2011
Preliminary
Y2
Y2
Y1
Y1
0
0
-Y1
-Y1
-Y2
-Y2
0
X1
X2
1-X2 1-X1
1.0
0
Figure 6.1.2.
Transmitter Input Eye Mask
SPP5300 Series
Sumitomo Electric Industries, Ltd.
X1
1-X1
Figure 6.1.3.
Receiver Output Eye Mask
Page 11
1.0
TS-S11D042A
August, 2011
Preliminary
6.2.
2-Wire Interface
SPP5300LR-GL management interface is based on 2-wire interface. Management memory
map is based on SFF-8472.
Table 6.2.1.
2-wire Electrical Specifications
Parameter
Symbol
Min
Max
Unit
Condition
Host 2-wire Vcc
Vcc_Host_2w
3.14
3.46
V
Note1
VOL
0.0
0.40
V
Vcc_Host
Vcc_Host
_2w-0.5
_2w+0.3
VIL
-0.3
VccT*0.3
V
VIH
VccT*0.7
VccT+0.5
V
Il
-10
10
uA
14
pF
100
pF
Rp2w(Note2) pulled to
SCL and SDA
VOH
V
SCL and SDA
Vcc_Host_2w,
Note 3
Note3
Input current on
the SCL and SDA
contacts
Capacitance on
SCL and SDA I/O
Ci (Note4)
contact
At 400kHz, 3.0kOhm Rp2w, max
Total bus
At 100kHz, 8.0kOhm Rp2w, max
capacitance for
Cb (Note5)
At 400kHz, 1.1kOhm Rp2w, max
SCL and for SDA
290
pF
At 100kHz, 2.75kOhm Rp2w, max
Note
1. The Host 2-wire Vcc is the voltage used for resistive pull ups for the 2 wire interface.
2. Rp2w is the pull up resistor. Active bus termination may be used by the host in place of a pullup resistor.
Pull ups can be connected to any one of several power supplies, however the host board design shall ensure
that no module contact has voltage exceeding module VccT/R +0.5V nor requires the module to sink more
htan 3.0mA current.
3. These voltages are measured on the other side of the connector to the device under test.
4. Ci is the capacitance looking into the module SCL and SDA contacts.
5. Cb is the total bus capacitance on the SCL or SDA bus.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 12
TS-S11D042A
August, 2011
Preliminary
Table 6.2.2
2-wire Timing Specifications
Parameter
Symbol
Min
Max
Unit
Condition
Clock Frequency
fSCL
0
400
kHz
Note1
Clock Pulse Width Low
tLOW
1.3
us
Clock Pulse Width High
tHIGH
0.6
us
tBUF
20
us
START Hold Time
tHD, STA
0.6
us
START Set-up Time
tSU, STA
0.6
us
Data In Hold Time
tHD, DAT
0
us
Data In Set-up Time
tSU, DAT
0.1
us
Input Rise Time (100kHz)
tR, 100
1000
ns
Note3
Input Rise Time (400kHz)
tR, 400
300
ns
Note3
Input Fall Time (100kHz)
tF, 100
300
ns
Note4
Input Fall Time (400kHz)
tF, 400
300
ns
Note4
STOP Set-up Time
tSU, STO
Time bus free before new transmission
Note2
can start
0.6
us
Note: 1. Module shall operate with fSCL up to 100kHz without requiring clock stretching. The module may clock stretch
with fSCL greater than 100kHz and up to 400kHz.
2. Between STOP and START and between ACK and ReSTART.
3. From (VIL,MAX-0.15) to (VIH,MIN+0.15)
4. From (VIH,MIN+0.15) to (VIL,MAX-0.15)
Table 6.2.3. Memory Specifications
Parameter
Symbol
Min
Max
Unit
T_clock_hold
500
us
tWR
40
ms
tWR
80
ms
Serial Interface Clock Holdoff
Conditions
Note1
“Clock Stretching”
Complete Single or Sequential Write
up to 4 Byte
Complete Sequential Write of 5-8 Byte
Endurance (Write Cycles)
10k
cycles
Note: 1. Maximum time the SFP+ module may hold the SCL line low before continuing with a read or write operation.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 13
TS-S11D042A
August, 2011
Preliminary
6.3. Recommended Filter for Voltage Supply
Figure 6.3.
SPP5300 Series
Recommended Voltage Supply Fileter
Sumitomo Electric Industries, Ltd.
Page 14
TS-S11D042A
August, 2011
Preliminary
7. Optical Interface
Optical Interfaces of SPP5300LR-GL are defined in the IEEE802.3ae (10GBASE-LR).
7.1. Optical Transmitter
Table 7.1. Transmitter Optical Interface
Parameter
Symbol
Signaling Speed
Min
10GBASE-LR
-
1200-SM-LL-L
speed
variation
Max
Unit
10.3125
10GBASE-LW
Signaling
Typ
9.95328
Gb/s
10.51875
from
-100 (LR)
+100 (LR)
nominal (max)
-20 (LW)
+20 (LW)
Center wavelength
1260
1355
ppm
nm
Side Mode Suppression Ratio
SMSR
30
Average launch power
Pave
-8.2
OMA
Poma
-5.2
dBm
-6.2
dBm
OMA-TDP
dB
+0.5
dBm
Transmitter and dispersion penalty
DP
3.2
dB
Average launch power of Tx OFF
Pave_off
-30
dBm
Extinction ratio
ER
RIN OMA
RIN
-128
dB/Hz
Optical Return Loss Tolerance
ORLT
12
dB
-12
dB
3.5
Transmitter Reflectance
Eye mask(X1,X2,X3,Y1,Y2,Y3)
dB
(0.25, 0.40, 0.45, 0.25, 0.28, 0.40) Note 1
Normalized Amplitude
Note 1 Refer to Figure 7.1.
1+Y3
1
1-Y1
1-Y2
0.5
Y2
Y1
0
-Y3
0
Figure.7.1.
SPP5300 Series
1
X1 X2 X3 1-X3 1-X2 1-X1
Normalized Time (Unit Interval)
Transmission eye mask definition
Sumitomo Electric Industries, Ltd.
Page 15
TS-S11D042A
August, 2011
Preliminary
7.2. Optical Receiver
Table 7.2. Receiver Optical Interface
Parameter
Symbol
Center Wavelength
speed
Typ
1260
Signaling Speed
Signaling
Min
10GBASE-LR
10.3125
10GBASE-LW
9.95328
1200-SM-LL-L
10.51875
variation
Max
Unit
1355
nm
Gb/s
from
-100
+100
ppm
-14.4
+0.5
dBm
Receiver sensitivity in OMA
-12.6
dBm
Receiver Reflectance
-12
dB
-10.3
dBm
nomimal (max)
Average receive power
Stressed receiver sensitivity in OMA
(Note 1, 2)
Vertical eye closure penalty (Note3)
2.2
dB
Stressed eye jitter (Note3)
0.3
UIpp
Receive electrical 3dB upper cutoff
12.3
GHz
frequency
Note: 1. Receiver sensitivity is informative. Stressed receiver sensitivity shall be measured with
conformance test signal for BER=10^-12.
2. The stressed sensitivity values in the table are for system level BER measurements which
include the effects of CDR circuit.
3. Test condition for measuring stressed receiver sensitivity.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 16
TS-S11D042A
August, 2011
Preliminary
8.
Electrical and Optical I/O Signal Relationship
Table.8. TX_DIS vs. Optical Output Power
TX_DIS
Optical Output Power
Low (VIL=-0.3 to 0.8V)
Enabled
High (VIH =2.0 to VCC3+0.3V)
Disabled (<-30dBm)
RX_LOS [V]
Voh
Vol
RXLOSa RXLOSd
Optical Input Power
[dBm]
Figure.8. Optical Input Power vs. RX_LOS
9.
User Interface
9.1. SFP Mechanical Interface
SFP Mechanical Interface is specified in the SFF-8432. Also, bail latch system is adequate
for the particular specification.
9.2. Management Interface
SFP 2-Wire Serial Interface Protocol
SFP 2-wire serial interface is specified in the SFF-8472.
The SFP 2-wire serial interface is used for serial ID, digital diagnostics, and certain control
functions. The 2-wire serial interface is mandatory for all SFP modules.
The 2-wire serial interface address of the SFP module is A0h and A2h. In order to access to
a specific module on the 2-wire serial bus, the SFP has a MOD_ABS (module absent pin).
This pin, which is pulled down in the module, must be held low to notify a module installation
and to allow communication over 2-wire serial interface.
SFP Management Interface
SFP Managed interface is specified in the SFF-8472.
The Figure 9.2. shows the structure of the memory map. The normal 256 Byte address
space is divided into lower and upper blocks of 128 Bytes. The lower block of 128 Byte is
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 17
TS-S11D042A
August, 2011
Preliminary
always directly available and is used for the diagnostics and control functions that must be
accessed repeatedly. Multiple blocks of memories are available in the upper 128 Bytes of
the address space. These are individually addressed through a table select Byte which the
user enters into a location in the lower address space.
The upper address space tables are
used for less frequently accessed functions and control space for future standards definition.
Figure 9.2.
SPP5300 Series
2-wire Serial Interface Memory Map
Sumitomo Electric Industries, Ltd.
Page 18
TS-S11D042A
August, 2011
Preliminary
9.3.
Address
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
Serial ID Memory Map (Data Field - Address A0h)
Size
(Bytes)
1
1
1
Name
Hex
Identifier
Ext.Identifier
Connector
03
04
07
20
00
00
00
00
00
00
00
06
67
00
0A
64
00
00
00
00
53
75
6D
69
74
6F
6D
6F
45
6C
65
63
74
72
69
63
00
00
00
5F
53
50
50
35
33
30
30
4C
52
2D
47
4C
2D
4D/57
20
20
41
20
20
20
05
1E
00
xx
8
Transceiver
1
1
1
1
1
1
1
1
1
Encoding
BR, Nominal
Rate Identifer
Length(SMF, km)
Length(SMF)
Length(50um)
Length(62.5um)
Length(Copper)
Length(OM3)
16
Vendor name
1
Transceiver
3
Vendor OUI
16
Vendor PN
4
Vendor rev
2
Wavelength
1
1
CC_BASE
SPP5300 Series
ASC
Description
SFP Plus
Serial ID module
LC Connector
10GBASE-LR
64B66B
10.3Gbps
unspecified
10km
10km
not support MMF
not support MMF
not support copper
not support MMF
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S
P
P
5
3
0
0
L
R
G
L
M/W
*1
*1
A
*2
Address
Size
(Bytes)
Name
00
64
2
Options
1
1
BR,max
BR,min
16
Verdor SN
1A
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
Hex
1
Diagnostis Monitoring Type
00
00
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
68
93
1
Enhanced Options
F0
94
95
96-127
128-255
1
1
32
128
SFF-8472 Compliance
CC_EXT
Vender Specific
Reserved
04
xx
00
00
8
Date Code
ASC
Description
Uncoold LD, Power Level 1,
Limiting Receiver Output
TxDisable, TxFault ,
LOS implemented
Year code
Month code
Day code
LOT code
Internal cal , Average Power
Alarm/Warning flags, Soft
TxDisable, Soft TxFault,
Soft RxLOS implemented
Rev.10.4
Check Code *4
*1: "20"(space) for SPP5300LR-GL
"4D"(M) for SPP5300LR-GL-M. "57"(W) for SPP5300LR-GL-W
*2: Revision level for part number provided by vendor (ASCII). Variable
*3: Checksum of Add.0 to 62
*4: Checksum of Add.64 to 94
1310nm Laser
Check Code *3
Sumitomo Electric Industries, Ltd.
Page 19
TS-S11D042A
August, 2011
Preliminary
9.4.
Alarm/Warming threshold
A2h address
Meaning
Unit
SPP5300LR-GL
SPP5300LR-GL-M
SPP5300LR-GL-W
0-1
Temperature High Alarm
deg
75
90
90
2-3
Temperature Low Alarm
deg
-10
-10
-45
4-5
Temperature High Warning
deg
70
85
85
6-7
Temperature Low Warning
deg
-5
-5
-40
8-9
Voltage High Alarm
V
3.63
3.63
3.63
10-11
Voltage Low Alarm
V
2.97
2.97
2.97
12-13
Voltage High Warning
V
3.465
3.465
3.465
14-15
Voltage Low Warning
V
3.135
3.135
3.135
16-17
Tx Bias High Alarm
mA
TBD
TBD
TBD
18-19
Tx Bias Low Alarm
mA
TBD
TBD
TBD
20-21
Tx Bias High Warning
mA
TBD
TBD
TBD
22-23
Tx Bias Low Warning
mA
TBD
TBD
TBD
24-25
Tx Power High Alarm
dBm
3.5
3.5
3.5
26-27
Tx Power Low Alarm
dBm
-12.2
-12.2
-12.2
28-29
Tx Power High Warning
dBm
0.5
0.5
0.5
30-31
Tx Power Low Warning
dBm
-8.2
-8.2
-8.2
32-33
Rx Power High Alarm
dBm
3.5
3.5
3.5
34-35
Rx Power Low Alarm
dBm
-18.4
-18.4
-18.4
36-37
Rx Power High Warning
dBm
0.5
0.5
0.5
38-39
Rx Power Low Warning
dBm
-14.4
-14.4
-14.4
Note.
9.5.
Alarm /Warming flag is linked to TxFault by default setting.
Digital Diagnostic Monitor Accuracy
The following characteristics are defined over recommended operating conditions.
Parameter
Accuracy
Internally measured transceiver temperature
+/- 3
Internally measured transceiver supply voltage
+/- 3
Measured Tx bias current
+/- 10
Measured Tx output power
+/- 3
Measured Rx received average optical power
+/- 3
SPP5300 Series
Unit
deg.C
%
%
dB
dB
Sumitomo Electric Industries, Ltd.
Page 20
TS-S11D042A
August, 2011
Preliminary
10. RoHS COMPLIANCY
Compliancy versus requirements contained inside the following reference document is
guaranteed:”Directive 2002/95/EC of 27 January 2003 on the restriction of the use of
certain hazardous substances in electrical and electronic equipment" from official
journal of European Union (European Parliament and of the Council). This product is
Compliant at RoHS-6/6 level and contains no leaded solders.
11. Qualification Testing
SPP5300LR-GL 10Gb/s transceiver is qualified to Sumitomo Electric Industries internal
design and manufacturing standards. Telecordia GR-468-CORE reliability test standards,
using methods per MIL-STD-883 for mechanical integrity, endurance, moisture, flammability
and ESD thresholds, are followed.
12. Laser Safety Information
SPP5300LR-GL transceiver uses a semiconductor laser system that is classified as Class 1
laser products per the Laser Safety requirements of FDA/CDRH, 21 CFR1040.10 and
1040.11. These products have also been tested and certified as Class 1 laser products per
IEC60825-1:2007 and IEC60825-1:2001 and International standards.
Caution
_______________________________________________________________________________
If this product is used under conditions not recommended in the specification or is used
with unauthorized revision, the classification for laser product safety is invalid.
Reclassify the product at your responsibility and take appropriate safety measures.
_______________________________________________________________________________
13. Electromagnetic Compatibility
EMI (Emission)
SPP5300LR-GL is designed to meet FCC Class B limits for emissions and noise immunity
per CENELEC EN50 081 and 082 specifications.
RF Immunity
SPP5300LR-GL has an immunity to operate when tested in accordance with IEC 61000-4-3
(80- 1000MHz, Test Level 3) and GR-1089.
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 21
TS-S11D042A
August, 2011
Preliminary
Electrostatic Discharge (ESD) Immunity
SPP5300LR-GL has an immunity against direct and indirect ESD when tested accordance
with IEC 61000-4-2.
14. Firmware version
This product contains the firmware inside. Sumitomo Electric may upgrade the firmware
version without advance notice as far as such would be upper compatible. When customer
should prefer to have the current firmware version, Sumitomo Electric will accommodate
such request and will assign customized part number for this purpose.
15. Ordering Information
15.1. Part Numbering System
SPP 5300 LR -GL (-M,W)
PREFIX
Model Number
5300
15.2.
Application Code
LR : 10GBASE-LR
Temperature Range
-M: -5 to 85deg.C
-W: -40 to 85deg.C
Blank: -5 to 70deg.C
Custom Code
-GL: Standard
Ordering Number Code
Table 15.2.
SPP5300LR
Application Code
Temperature
Part Number
Distance
Fiber
E/O
Range
SPP5300LR-GL
-5 to 70deg.C
SPP5300LR-GL-M
-5 to 85deg.C
SPP5300LR-GL-W
-40 to 85deg.C
DFB
SPP5300 Series
10km
SMF
IEEE
ANSI
802.3ae
10GFC
10GBASE
1200-SM
-LR
-LL-L
O/E
PIN
1310nm
Sumitomo Electric Industries, Ltd.
Page 22
TS-S11D042A
August, 2011
Preliminary
16. Label information
SPP5300LR-GL-M
SPP5300LR-GL
CN
CN
SPP5300LR-GL-W
JAPAN
CN
17. Contact Information
U.S.A.
Sumitomo Electric Device Innovations, U.S.A., Inc.
<West Coast (USA Headquarters)>
2355 Zanker Rd. San Jose, CA 95131-1138, USA
Tel: +1-408-232-9500
Fax: +1-408-428-9111
<East Coast>
4021 Stirrup Creek Drive, Suite 200, Durham, NC 27703, USA
Tel: +1-919-361-1600
Fax: +1-919-361-1619
Email: information@sei-device.com
http://www.sei-device.com/
Europe
Sumitomo Electric Europe Ltd.
220 Centennial Park, Elstree, Herts, WD6 3SL UK
Tel: +44-208-953-8681
Fax: +44-208-207-5950
E-mail: photonics@sumielectric.com
http://www.sumielectric.com
Asia
Sumitomo Electrics Asia Ltd.
Photonics Department
Room 2624 - 2637, 26F., Sun Hung Kai Center, 30 Harbour Road, Wanchai, Hongkong.
Tel: +852-2576-0080
Fax: +852-2576-6412
Japan
Sumitomo Electric Industries, Ltd.
Device Sales Department
<Tokyo>
3-9-1, Shibaura, Minato-ku, Tokyo 108-8539, Japan
TEL +81-3-6722-3286
FAX +81-3-6722-3284
<Osaka>
4-5-33, Kitahama, Chuo-ku, Osaka 541-0041, Japan
Tel: +81-6-6220-4245
Fax: +81-6-6222-6231
E-mail: optoele-sales-pro-sml@list.sei.jp
http://www.sei.co.jp/products/index.html
SPP5300 Series
Sumitomo Electric Industries, Ltd.
Page 23
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