datasheet for SPP5100ZR-GL by Sumitomo Electric Device Innovations U.S.A.

datasheet for SPP5100ZR-GL by Sumitomo Electric Device Innovations U.S.A.
TS-S11D003B
June, 2011
Preliminary
10Gb/s SFP Optical Transceiver Module
SPP5100ZR-GL
(Multi protocol, 80km 1550nm Cooled EA-DFB-LD, APD)
Æ
10Gb/s Serial Optical Interface
Ü
High quality and reliability optical device and
sub-assemblies
Ü
Cooled EA-DFB laser for up to 80km over Single
Mode Fiber
Ü
Æ
High sensitivity APD and linear TIA
SFP+ MSA Compliant
Ü
Easy supply management for hot pluggability
Ü
Duplex LC Receptacle
Ü
SFP Mechanical Interface for easy removal
Ü
SFI High Speed Electrical Interface
Ü
2-wire interface for management and diagnostic
monitor
Ü
Æ
Tx_Disable and Rx_LOS functions
Protocol
Ü
IEEE802.3ae 10Gigabit Ethernet LAN
Æ
10GE Ethernet switches and routers
Æ
10GE Storage
Æ
Other high speed data connections
PHY/WAN PHY
Ü
Æ
Æ
OTU2 and OTU2e
Power Supply
Ü
Single 3.3V power supply
Ü
Max 1.6W power consumption
RoHS6 compliant
Ethernet MAC
SER
DES
EDC
SPP5100
(SFP+)
10Gb/s SFI
electrical signal
SPP5100
(SFP+)
10Gb/s optical signal
SER
DES
Ethernet MAC
EDC
10Gb/s SFI
electrical signal
Application Block Diagram
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 1
TS-S11D003B
June, 2011
Preliminary
1.
General Description
The SPP5100ZR-GL is a very compact 10Gb/s optical transceiver module for serial optical
communication applications at 10Gb/s. The SPP5100ZR-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.
The SPP5100ZR-GL is designed for Ethernet LAN (10.3Gb/s) and WAN(9.95Gb/s) applications
The high performance cooled EA-DFB-LD transmitter and high sensitivity and low noise APD
receiver provide superior performance for multi-rate applications at up to 80km links.
The fully SFP compliant form factor provides hot pluggability, easy optical port upgrades and
low EMI emission.
SFP+ type
Wavelength
Cable Type
Core Size
Cable
(micron)
distance
G.652
80km
[nm]
10GB-ZR
2.
1550
SMF
Functional Description
The SPP5100ZR-GL contains a duplex LC connector for the optical interface and a 20-pin
connector for the electrical interface. Figure 2.1 shows the functional block diagram of
SPP5100ZR-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, 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.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 2
TS-S11D003B
June, 2011
Preliminary
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 3
TS-S11D003B
June, 2011
Preliminary
3.
Package Dimensions
Figure 3.1. shows the package dimensions of SPP5100ZR-GL. SPP5100ZR-GL is designed to be
complaint with SFP MSA specification. Package dimensions are specified in SFF-8432. (Note :
Drawing below will be revised in the future./Bail color :
SPP5100 Series
Sumitomo Electric Industries, Ltd.
)
Page 4
TS-S11D003B
June, 2011
Preliminary
4.
Pin Assignment and Pin Description
4.1.
SFP Transceiver Electrical Pad Layout
4.2.
Host PCB SFP Pinout
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 5
TS-S11D003B
June, 2011
Preliminary
4.3.
Pin Descriptions
1
VeeT
2
Tx_Fault
3
Tx_Disable
Module Transmitter Ground
LVTTL-O Module Transmitter Fault
Transmitter Disable,Turns off transmitter laser
1st
1
3rd
2
3rd
LVTTL-I
3
output
4
SDA
LVTTL-I/O 2 Wire Serial Interface Data Line
5
SCL
LVTTL-I/O 2 Wire Serial Interface Data Line
6
MOD_ABS
Module Absent, connected to VeeT or VeeR in the
3rd
3rd
3rd
2
module
7
RS0
8
RX_LOS
9
RS1
10
LVTTL-I
Rate Select 0 (not functional for 10GE type)
LVTTL-O Receiver Loss of Signal Indication
3rd
3rd
2
Rate Select 1 (not functional for 10GE type)
3rd
VeeR
Module Receiver Ground
1st
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
1st
18
TD+
CML-I
Transmitter Non-Inverted Data Input
3rd
19
TD-
CML-I
Transmitter Inverted Data Input
3rd
20
VeeT
Module Transmitter Ground
1st
LVTTL-I
1
1
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:
Shall be pulled up with 4.7k to 10k ohm to VccT in the module.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 6
TS-S11D003B
June, 2011
Preliminary
5.
Absolute Maximum Ratings and Recommended Operating Conditions
Parameter
Symbol
Strage Temperature
Tst
RH
Relative Humidity (non-condensation
Supply Voltage
VccR/VccT
Voltage on LVTTL Input
Vilvttl
LVTTL Output Current
Iolvttl
Voltage on Open Collector Output
Voco
Receiver Input Optical Power(Average)
Mip
Parameter
Min
-40
-0.5
-0.5
Max
Unit Note
85
degC
85
%
3.6
V
VCC3+0.5 V
15
mA
6
V
5
dBm
0
-
Symbol
Min
Max
Unit
Operating Case Temperature
Topc
0
70
degC
Relative Humidity(non-condensing)
Rhop
-
85
%
VccR/VccT
3.135
3.465
V
Pd
-
1.6
W
Power Supply Voltage
Total Power Consumption
Note
1
Note:
1: The inrush current meets SFF-8431 level-II operation.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 7
TS-S11D003B
June, 2011
Preliminary
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
SFI Module Transmitter Input Electrical Interface Specification at B’ and Calibrated B”
Parameter B’
Symbol
Single Ended Output Voltage Tolerance
Condition
Referenced
Min
to
-0.3
Typ.
Max.
Unit
4.0
V
VeeT
AC common Input S-parameter
Differential Input S-parameter (note 1)
Reflected Differential to Common Mode
Note 1
SDD11
SCD11
15
mV
0.01-4.1GHz
Note 2
dB
4.1-11.1GHz
Note 3
dB
0.01-11.1GHz
-10
dB
Conversion
Note 1. Measured at B” with Host Compliance Board and Module Compliance Board pair.
2. Maximum Reflection Coefficient given by equation SDD11(dB)= -12 + 2*SQRT(f ), with f in GHz.
3. Maximum Reflection Coefficient given by equation SDD11(dB)= -6.3+13Log10(f/5.5), with f in GHz
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 8
TS-S11D003B
June, 2011
Preliminary
Parameter B”
Crosstalk Source Rise/Fall time (20% to
Symbol
Condition
Min
Typ.
Max.
Unit
Tr, Tf
Note 1, 2
34
ps
Note 1, 2
1000
mV
80%)
Crosstalk
Source
Amplitude
(p-p
differential)
AC Common Mode Voltage
Note 3
Total Jitter
TJ
Data Depandent Jitter
Pulse Width Shrinkage Jitter
15
mV(RMS)
0.28
UIpp
DDJ
0.10
UIpp
DDPWS
0.055
UIpp
0.023
UIrms
Uncorrelated Jitter
UJ
Note 4
Eye Mask
X1
0.12
UI
Figure 6.1.2
X2
0.33
UI
Y1
95
mV
Y2
350
mV
Note 1. Measured at C" with Host Compliance Board and Module Compliance Board pair.
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 worst UJ and DDJ simultaneously and meet the TJ specifications if the
UJ is all Gaussian.
Y2
Y1
0
-Y1
-Y2
0
SPP5100 Series
X1
X2
1-X2 1-X1
Sumitomo Electric Industries, Ltd.
1.0
Page 9
TS-S11D003B
June, 2011
Preliminary
SFI Module Receiver Output Electrical Interface Specification at C’
Parameter – C’
Symbol
Conditions
Min
Typ
Max
Units
Crosstalk source rise/fall time
Tr, Tf
Note 1
34
ps
Note 2
700
mV
(20% to 80%)
Crosstalk
Source
Amplitude
Differential (p-p)
Termination Mismatch at 1 MHz
Single
Ended
Output
ΔZM
Voltage
-0.3
5
%
4.0
V
7.5
mV
Tolerance
Output AC Common Mode Voltage
(RMS)
Differential Output S-parameter
SDD22
(Note 3)
Common Mode Output Reflection
Coefficient (Note 5)
SCC22
0.01-4.1GHz
Note 2
dB
4.1-11.1GHz
Note 3
dB
0.01-2.5GHz
Note 4
dB
2.5-11.1GHz
-3
dB
Note 1 : Measured at B" with the Host Compliance Board and Module Compliance Board pair.
2 : Reflection Coefficient given by equation SDD22(dB)< -12 + 2 × SQRT(f ), with f in GHz.
3 : Reflection Coefficient given by equation SDD22(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.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 10
TS-S11D003B
June, 2011
Preliminary
Parameter – C’
Symbol
Condition
RN
m1
Relative
Noise
with
b1
m2
b2
RNmax
-0.0153
0.0475
-0.0092
0.0457
0.0475
-0.017
0.0475
-0.01
0.0455
0.0475
-0.0153
0.0475
-0.0092
0.0457
0.0475
Max
Units
pre-cursor stressor
Relative
Noise
with
split-symmetrical stressor
Relative
Noise
RN
with
post-cursor stressor
Parameter – C’
Difference
Waveform
Symbol
Condition
dWDP
Note 1
Min
1.5
dB
600
mV
600
mA
Distortion Penalty
Differential
Voltage
VMA
180
Modulation Amplitude
Differential peak to peak
Vpk-pk
voltage
Note 1 : Defined with reference receiver with 14 T/2 spaced FFE taps and 5 T spaced DFE taps.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 11
TS-S11D003B
June, 2011
Preliminary
6.2. Low speed Electrical Interface
SPP5100ZR-GL low speed interface is based on 2-wire interface. Management memory map is
based on SFF-8472.
2-wire Electrical Specifications
Parameter
Symbol
Min
Max
Unit
Host 2-wire Vcc
Vcc_host
3.14
3.46
V
SCL and SDA
VOL
0.0
0.40
V
VOH
Vcc_host-0.5
Vcc_host+0.3
V
VIL
-0.3
VccT*0.3
V
VIH
VccT*0.7
VccT+0.5
V
-10
10
uA
14
pF
SCL and SDA
Input current on the SCL and SDA contacts
Capacitance on SCL and SDA I/O contact
2-wire Timing Specifications
Parameter
Symbol
Min
Max
Unit
Clock Frequency
fSCL
0
400
kHz
Clock Pulse Width Low
tLOW
1.3
us
Clock Pulse Width High
tHIGH
0.6
us
Time bus free before new transmission can
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
Input Rise Time (400kHz)
tR, 400
300
ns
Input Fall Time (100kHz)
tF, 100
300
ns
Input Fall Time (400kHz)
tF, 400
300
ns
STOP Set-up Time
tSU, STO
Serial Interface Clock Holdoff
t_clock_hold
start
0.6
us
500
us
“Clock Stretching”
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 12
TS-S11D003B
June, 2011
Preliminary
tHIGH
tF
tR
tLOW
SCL
tHD,STA
tSU,STA
tHD,DAT
tSU,DAT
tBUF
tSU,STO
SDA
tR
tF
t_clock_hold
SCL
tSU,DAT
SDA
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 13
TS-S11D003B
June, 2011
Preliminary
7. Optical Interface
Optical Interfaces of SPP5100ZR-GL are defined as follows.
7.1.
Optical Transmitter
Parameter
Signaling Speed
Symbol
(WAN PHY)
Min
Typ
-
9.95328
(LAN PHY)
Max
Unit
Gb/s
10.3125
Signaling spped variation from
-100
+100
ppm
-20
+20
ppm
1530
1565
nm
1
nm
nominal (max) for 10GE-LAN
Signaling spped variation from
nominal (max) for 10GE-WAN
Center wavelength (Note 1)
Spectral Width
Δλ
-
Side Mode Suppression Ratio
SMSR
30
Average launched power
Pave
0
Average launch power of
Tx OFF
Pave_off
Extinction ratio (Note 2)
ER
Eye mask (X1,X2,X3,Y1,Y2,Y3)
8.2
dB
+4.0
dBm
-30
dBm
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
SPP5100 Series
1
X1 X2 X3 1-X3 1-X2 1-X1
Normalized Time (Unit Interval)
Sumitomo Electric Industries, Ltd.
Page 14
TS-S11D003B
June, 2011
Preliminary
7.2.
Optical Receiver
Parameter
Symbol
Max
Unit
1565
nm
Receiver Reflectance
-27
dB
Receiver Damage Threshold
+5
dBm
Receiver Sensitivity @BER=1E-12
-24
dBm
3.0
dB
Wavelength (Note 1)
Min
Typ
1260
with PRBS31 and 10GE frame
Chromatic Dispersion (CD) Penalty
@1600ps/nm (Note 2)
Receiver Overload
-7
Note 1 : Receiver Sensitivity specified over 1528-1565 nm only,
dBm
with 3dB degradation permitted from
1260-1528nm.
Note 2 : A max 3 dB of power penalty on every TX-RX optical SFP+ pair shall be guaranteed.
7.3.
Jitter Specification
10GE LAN
10GE LAN shall comply with the appropriate 10Gb/s Ethernet jitter requirements. In
Ethernet the jitter requirements are rolled into the eye mask so that in practice all that is
required is compliance with the appropriate 10Gb/s Ethernet eye mask
10GE WAN
10GE WAN shall comply with the SONET/SDH jitter requirement according to ITU G.8251
and ITU G.783, Telcordia GR-253 issue 4, and ANSI T1.105.03. Jitter generation methodology
is defined in chapter 5.4; jitter transfer and tolerance are for further study.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 15
TS-S11D003B
June, 2011
Preliminary
8. Electrical and Optical I/O Signal Relationship
TX_DIS
Low (VIL=-0.3 to 0.8V)
Optical Output Power
Enabled
High (VIH =2.0 to VCC3+0.3V)
Disabled (<-30dBm)
RX_LOS [V]
Voh
Vol
RXLOSa RXLOSd
9.
Optical Input Power
[dBm]
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 always directly
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 16
TS-S11D003B
June, 2011
Preliminary
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.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 17
TS-S11D003B
June, 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
Identifier
Ext.Identifier
Connector
8
Transceiver
1
1
1
1
1
1
1
1
1
Encoding
BR, Nominal
Rate Identifer
Length(9um, km)
Length(9um)
Length(50um)
Length(62.5um)
Length(Copper)
Length(OM3)
16
Vendor name
1
Channel Spacing
3
Vendor OUI
16
Vendor PN
4
Vendor rev
2
Wavelength
1
1
CC_BASE
SPP5100 Series
Hex
ASC
Description
03
SFP module
04
Serial ID module
07
LC Connector
00
Unallocated
00
00
00
00
00
00
00
06
64B66B
67
10.3Gbps
00
unspecified
50
80km
FF
> 25.5km
00
not support MMF
00
not support MMF
00
not support copper
00
not support MMF
53
S
75
u
6D
m
69
i
74
t
6F
o
6D
m
6F
o
45
E
6C
l
65
e
63
c
74
t
72
r
69
i
63
c
00
00
00
5F
53
S
50
P
50
P
35
5
31
1
30
0
30
0
5A
Z
52
R
2D
47
G
4C
L
20
20
20
20
41 to 5A A to Z
*1
20
20
20
06
1550nm
0E
00
xx
Check Code *2
Address
Size
(Bytes)
Name
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
05
64
8
1
Diagnostis Monitoring Type
00
00
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
xx
20
20
20
20
20
xx
xx
xx
xx
xx
xx
xx
xx
68
Date Code
93
1
Enhanced Options
F0
94
95
96-127
128-255
1
1
32
125
SFF-8472 Compliance
CC_EXT
Vender Specific
Reserved
04
xx
xx
00
ASC
Description
Cooled Transceiver
Linear 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 *3
*1 : Revision level for part number provided by vendor (ASCII). Variable
*2 : Checksum of Add.0 to 62
*3 : Checksum of Add.64 to 94
Sumitomo Electric Industries, Ltd.
Page 18
TS-S11D003B
June, 2011
Preliminary
9.4.
Alarm/Warming threshold
A2h address
Meaning
0-1
Temperature High Alarm
2-3
Temperature Low Alarm
4-5
Temperature High Warning
6-7
Temperature Low Warning
8-9
Voltage High Alarm
10-11
Voltage Low Alarm
12-13
Voltage High Warning
14-15
Voltage Low Warning
16-17
Tx Bias High Alarm
18-19
Tx Bias Low Alarm
20-21
Tx Bias High Warning
22-23
Tx Bias Low Warning
24-25
Tx Power High Alarm
26-27
Tx Power Low Alarm
28-29
Tx Power High Warning
30-31
Tx Power Low Warning
32-33
Rx Power High Alarm
34-35
Rx Power Low Alarm
36-37
Rx Power High Warning
38-39
Rx Power Low Warning
Note.
Unit SPP5100ZR-GL
deg
75
deg
-5
deg
70
deg
0
V
3.63
V
2.97
V
3.465
V
3.135
mA
mA
TBD
mA
mA
dBm
7.0
dBm
-4.0
dBm
4.0
dBm
0.0
dBm
-3.0
dBm
-31.0
dBm
-7.0
dBm
-27.0
Alarm /Warming flag is linked to TxFault by default setting.
9.5. 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
+/- 2
Measured Rx received average optical power
+/- 3
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Unit
deg.C
%
%
dB
dB
Page 19
TS-S11D003B
June, 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
SPP5100ZR-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
SPP5100ZR-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 IEC
60825-1:2007 and IEC60825-1:2001 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)
SPP5100ZR-GL is designed to meet FCC Class B limits for emissions and noise immunity per
CENELEC EN50 081 and 082 specifications.
RF Immunity
SPP5100ZR-GL has an immunity to operate when tested in accordance with IEC 61000-4-3
(80- 1000MHz, Test Level 3) and GR-1089.
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 20
TS-S11D003B
June, 2011
Preliminary
Electrostatic Discharge (ESD) Immunity
SPP5100ZR-GL has an immunity against direct and indirect ESD when tested accordance
with IEC 61000-4-2.
14. Firmware version
15. Ordering Information
15.1. Part Numbering System
SPP 5100 ZR-GL
PREFIX
Model Number
5100
Application Code
ZR : 10G, 80km
15.2. Ordering Number Code
Part Number
Temperature
Distance Fiber
Range
SPP5100ZR-GL 0 to 70 deg.C
80km
E/O
O/E
Cooled
SMF EA-DFB APD
1550nm
IEEE
802.3ae
16. Label information
(Top label)
SPP5100 Series
(Case Label)
Sumitomo Electric Industries, Ltd.
Page 21
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June, 2011
Preliminary
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: lw-info@sei-device.com, mw-info@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
SPP5100 Series
Sumitomo Electric Industries, Ltd.
Page 22
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