SFP Optical Transceivers for 2.7Gb/s 180km DWDM Applications

Data Sheet
SFP Optical Transceivers for 2.7Gb/s 180km
DWDM Applications
IGP-28111J
The Bookham IGP-28111J optical transceiver is a high
performance, cost effective module for serial optical data
communication applications up to 4.25Gb/s. The IGP-28111J
is designed to accept DWDM SONET/SDH (with or without
FEC) and Ethernet protocol traffic for 180km links.
The product is designed for single mode fibre and
operate at ITU wavelengths across the C- and L-band.
The modules aid system hardware engineers in implementing
low-cost DWDM solutions, which are protocol transparent. The
“hot pluggable” feature built into every module reduces
manufacturing and inventory costs allowing optical port
upgrades at the customer premises. Built-in remote monitoring
via digital diagnostics allows user access to static and dynamic
data as well as module condition.
The IGP-28111J uses the established Bookham Buried
Heterostructure Directly Modulated Laser (BH DML) packaged
in a compact cooled TOSA. The transmitter has full IEC608251:2001 and CDRH Class I laser safety certification.
The Bookham IGP-28111J module has been extensively tested
utilizing industry standard single mode fibres in order to
ensure compatibility with SONET-grade enterprise, access and
metro systems. Additionally, all Bookham products are UL,
CAN/CSA, FCC, IEC, and CDRH compliant.
Features:
• 180km (3600ps/nm) transmission compliant to V-16.2
• DWDM SFP MSA compatible
• +4dBm optical power output
• 100GHz channel spacing
• C- and L-Band coverage
• Up to 4.25Gb/s data rate
• High accuracy thermal wavelength management
• Extended APD-based receiver sensitivity
• Typically 880mW power consumption
• Single +3.3V power supply
• 0°C to +70°C operating case temperature range
• Hot Pluggable
• Duplex LC connector
• Enhanced digital diagnostics
• Low EMI
Compliance:
• CDRH & IEC Laser Safety
• FCC Class B EMI
• MIL-STD-883 ESD
• IEC/EN60950 Product Safety
• RoHS compliant
Applications:
• OC-48/STM-16/OTN-1
DWDM Metro/Access Networks
• Ethernet IEEE 802.3ae
• Fibre channel
• Network Edge devices, µMSPP
• Subscriber Loop label
1
Data Sheet
Absolute Maximum Ratings
Parameter
Symbol
Min
Max
Unit
Storage Temperature
TSTG
-40
85
ºC
Supply Voltage
VCC
-0.3
4.0
V
2.4
VPP
Data AC Voltage
Tx+, Tx-
Data DC Voltage
Tx+, Tx-
Optical Input Received Power
-0.5
PIN
3.47
V
+5
dBm
Max
Unit
70
°C
Operating Conditions
Parameter
Case temperature
Symbol
Min
Typical
TCASE
0
3.13
Supply Voltage
VCC
3.30
3.47
V
Supply Current [1]
ICC
265
418
mA
Module Power Dissipation
P
0.88
1.45
W
100
mA
IIN-RUSH
In-rush Current [2]
Notes:
[1] Supply current is shared between VCCTX and VCCRX.
[2] In-rush is defined as current level above steady state current requirements.
Transmitter Operating Specifications – Optical
All specifications relate to End of Life (EOL) values over temperature and supply voltage, unless otherwise stated.
Parameter
Data Rate
Symbol
BR
Value
Typical
Max
Units
0.125
2.667
4.25
Gb/s
1606
nm
Refer to Table 6 &
Table 7 for details
Where λC is a defined
ITU-T wavelength
ITU-T Center Wavelength
λC
Center Wavelength (SOL)
λSOL
λC – 0.05
λC – 0.02
λC
nm
Wavelength Stability
∆λC
λC – 0.1
λC
λC +0.1
nm
Optical Transmit Power
PO
+2
+4
dBm
Optical Transmit Power
(disabled)
PTX_DISABLE
-40
dBm
0.3
nm
Spectral Width
1530
∆λ20
SMSR
0.1
40
dB
dB
Extinction Ratio
ER
8.2
Dispersion Tolerance
DT
-1200
-1200
-1200
Dispersion Penalty
Notes
Modulated at
2.488Gb/s
20dB down from peak
using 10pm RBW
Filtered eye
3600
1600
10000
ps/nm
ps/nm
ps/nm
DP
2
dB
Jitter Generation (SOL)
TJRMS
10
mUI
RMS
Jitter Generation (SOL)
TJP-P
70
mUI
Peak-to-Peak
Output Optical Eye
2
Min
Modulated at 2.667Gb/s
Modulated at 4.25Gb/s
Modulated at 1.25Gb/s
Compliant with Bellcore GR-253-CORE & ITU G.957 for SONET/SDH and with IEEE 802.3ae
for Ethernet and Fibre Channel
Data Sheet
APD Receiver Operating Specifications – Optical
All specifications relate to End of Life (EOL) values over temperature and supply voltage, unless otherwise stated.
Parameter
Symbol
Min
Value
Typical
Units
Notes
Max
Receiver Sensitivity
(OSNR = 30dB)
Rx
SENS_1
-28
-24
-34
dBm
dBm
dBm
Note 1, 8
Note 2, 8
Note 3, 8
Receiver Sensitivity
(OSNR = 21dB)
Rx
SENS_2
-24
dBm
Note 4, 8
Receiver Sensitivity
(OSNR = 25dB)
Rx
SENS_3
-22
dBm
Note 5, 8
dBm
dBm
dBm
Note 1
Note 5
Note 6
1610
nm
Note 7
-27
dB
-33
dBm
-31
dBm
4
dB
Maximum
Input Power
Rx
OVERLOAD
Input Operating Wavelength
λRX
Reflectance
R
1260
RX
Loss of Signal - Asserted
PA
Loss of Signal - Deasserted
PD
PA - PD
Hysteresis
-7
-9
-16
-40
0.5
Notes:
[1]
[2]
[3]
[4]
[5]
Average
Average
Average
Average
Average
power
power
power
power
power
at
at
at
at
at
1
1
1
1
1
x
x
x
x
x
10-12 BER and data rates of 125Mb/s to 2.667Gb/s.
10-12 BER and a data rate of 4.25Gb/s.
10-4 BER and a data rate of 2.667Gb/s.
10-12 BER and a data rate of 2.667Gb/s over 180km fibre.
10-12 BER and a data rate of 4.25Gb/s over 80km fibre.
[6] Average power at 1 x 10-10 BER and a data rate of 155.55Mb/s
[7] Between 1260nm and 1520nm minimum receiver sensitivity is reduced by 2dB (-26dBm minimum).
[8] ONSR measurements are made using an optical spectrum analyser with a resolution bandwidth of 0.1nm and an optical passband filter with a 3dB bandwidth of 1nm.
Transmitter Operating Specifications – Electrical
Notes
Value
Typical
Max
BR
0.125
2.667
4.25
Gb/s
Supply Voltage
VCCTX
3.13
3.3
3.47
V
PECL/CML Input
VTXDIFF
500
1600
mV
Differential pk-pk Note 1
Input Rise/Fall
TR / TF
160
ps
20% - 80% Note 1
Data Rate
Symbol
TX_DISABLE (asserted)
VDH
2
3.47
V
Input voltage high
TX_DISABLE (negated)
VDL
-0.3
0.8
V
Input voltage low
TX_FAULT (asserted)
VFH
2
3.47
V
Output voltage high
TX_FAULT ( negated)
VFL
-0.3
0.8
V
Output voltage low
Notes:
[1] Test conditions: 100Ω differential (from 100MHz to 2.5GHz); VTXDIFF = | (VTD+) – (VTD-) |.
3
Units
Min
Parameter
Data Sheet
APD Receiver Operating Specifications – Electrical
Min
Value
Typical
Max
BR
0.125
2.667
4.25
Gb/s
Supply Voltage
VCC_TX
3.13
3.3
3.47
V
Differential Output Swing
VRXDIFF
370
2000
mV
Differential pk-pk. Note 1
Rise/Fall Time
TR / TF
140
ps
20% - 80% Note 1
Parameter
Data Rate
Symbol
Units
Notes
Loss of Signal (Asserted)
VOH
2
3.47
V
Output Voltage High
Loss of Signal (Negated)
VOL
-0.3
0.8
V
Output Voltage Low
Notes:
[1] Test conditions: 100Ω differential (from 100MHz to 2.5GHz); VRXDIFF = | (VRD+) – (VRD-) |
Low Speed Electrical Signal Timings
The DWDM SFP MSA document specifies the full details of the low speed electrical interface in Section 3, including timings
and both AC and DC requirements.
Table 1: I/O Timing for Hardware Control and Status Functions.
Parameter
Min
Max
Unit
Notes
TX_DISABLE Assert Time
t_off
20
ms
Time from rising edge of
TX_DISABLE to when the optical
output falls below 10% of nominal
TX_DISABLE Negate Time
t_on
20
ms
Time from falling edge of TX_DISABLE
to when the modulated optical output
rises above 90% of nominal
Time to initialize, including
reset of TX_FAULT
t_init
300
ms
From negation of TX_FAULT/INT using
TX_DISABLE Optical power going to 90%
of final value
t_startup
90
s
TX_FAULT/INT Assert Time
t_fault
50
ms
Time from fault to TX_FAULT/INT on.
TX_DISABLE to Reset
t_reset
ms
Time TX_DISABLE must be held high to
reset TX_FAULT/INT
Startup time
10
From power on to negation of TX
FAULT/INT, indicating laser temperature
has stabilised to within operating range.
LOS Assert Time
t_los_on
100
us
Time from LOS state to RX LOS assert
LOS NegateTime
t_los_off
100
us
Time from non-LOS state to RX LOS
deassert
f_serial_clock
100
kHz
Serial ID Clock Rate
4
Symbol
Data Sheet
Systems Performance Capabilities
The following section demonstrates the typical systems level performance capabilities of the IGF-28111J DWDM SFP
Transceiver. The enhanced performance and flexibility of the module is highlighted through operation at various data rates
and optical signal to noise ratio (OSNR) levels.
Figure 1: Receiver Sensitivity for OC-48 Transmission over 0km to 300km (30dB OSNR).
5
Data Sheet
Optical Signal to Noise Ratio (OSNR) Performance
Figure 2: Receiver Sensitivity for OC-48 Transmission under OSNR levels of 30dB to 16dB.
Figure 3: Receiver Power Penalty for OC-48 Transmission under OSNR levels of 30dB to 16dB.
6
Data Sheet
Multi-rate Performance ( OC-3 & 1xFC )
Figure 4: Receiver Sensitivity for OC-3 Transmission over 0km to 300km (30dB OSNR).
Figure 5: Receiver Sensitivity for 1.063Gb/s Transmission over 0km to 225km (30dB OSNR).
7
Data Sheet
Multi-rate Performance, cont. ( 3.125Gb/s & 4.25Gb/s )
Figure 6: Receiver Sensitivity for 3.125Gb/s Transmission over 0km to 225km (30dB OSNR).
Figure 7: Receiver Sensitivity for 4.25Gb/s FC Transmission over 0km to 150km (30dB OSNR).
8
Data Sheet
Optical Transmitter Eye Diagrams
Figure 8: Transmitter Eye Mask for 1G FC at 1.0625Gb/s.
Figure 9: Transmitter Eye Mask for OC-48 at 2.488Gb/s
Figure 10: Transmitter Eye Mask for 10GbE XAUI at 3.125Gb/s
9
Data Sheet
Electrical Pin-out Details
Figure 11: Diagram of Host Board Connector Block Pin Numbers and Names.
Table 2: Pin Definitions and Connection Sequence during Hot Plugging.
10
Pin Number
Name
Function
Plug Sequence
1
VEET
Transmitter Ground
1
2
TX_FAULT/INT
Transmitter Fault Indicator
3
3
TX_DISABLE
Transmitter Disable
3
4
MOD-DEF(2)
Module Definition 2
3
5
MOD-DEF(1)
Module Definition 1
3
6
MOD-DEF(0)
Module Definition 0
3
7
Tone in
Not Implemented. See note.
3
8
LOS
Loss of Signal
3
9
Tone out
Not Implemented. See note.
1
10
VEER
Receiver Ground
1
11
VEER
Receiver Ground
1
12
RD-
Inverted Received Data Out
3
13
RD+
Received Data Out
3
14
VEER
Receiver Ground
1
15
VCCR
Receiver Power
2
16
VCCT
Transmitter Power
2
17
VEET
Transmitter Ground
1
18
TD+
Transmit Data In
3
19
TD-
Inverted Transmit Data In
3
20
VEET
Transmitter Ground
1
Note: The DWDM MSA provisions for a supervisory tone via pin 7 and pin 9. However, the Bookham DWDM SFP does not currently support this option.
Data Sheet
Mechanical Outline
Figure 12: Mechanical outline drawing of DWDM SFP Transceiver.
11
Data Sheet
Diagnostics specifications
A digital diagnostics interface is available on Bookham SFP
transceivers as a 2-wire serial interface and provides user
access to module identification data, customer specific data,
link type, static and dynamic monitors and a check code
mechanism for verifying accuracy in the data registers. These
static and dynamic diagnostics allow users to remotely and
accurately identify modules and their vendors, enquire about
its compatibility with the system and also verify which
enhanced diagnostics are supported. The user can also
monitor module parameters to determine the module and link
condition and provide hardware alerts upon an alarm or
warning event.
The Enhanced Digital Diagnostics provide real-time monitoring
of
receiver
input
power,
transmitter
power,
internal module temperature, laser bias current and supply
voltage parameters.
The 2-wire serial interface is defined by the GBIC (GigaBit
Interface Converter) specification and the SFP MSA
(Multi-Source Agreement) document dated September 14th,
2000. It is also compliant with the proposed DWDM SFP MSA
Document. This interface allows read-only access to two
separate memory locations starting at 1010000X (A0h)
and 101000X (A2h). Table 3 and Table 4 contain address
descriptions and register mapping information for both
memory locations.
12
The memory location starting at A0h (data address 0 ~ 128)
contains the Serial ID fields. This is a static data memory
location for details such as vendor information, module
identification, user specific data and a check code for verifying
accuracy in the data registers.
The memory location starting at A2h (data address 0 ~ 255)
contains Enhanced Diagnostics fields. The Enhanced
Diagnostics are based on the SFF-8472 specification
developed in the SFF (Small Form Factor) standards
organization with an added TX_FAULT interrupt feature that
provides a hardware alert upon reaching an alarm or warning
condition on any, or all, of the diagnostics monitors. Enhanced
Diagnostics provide a real-time indication of system and
module condition, alerting the user to apparent or pending link
or module problems. This is implemented through the use of
alarm and warning registers that are updated approximately
every 60 milliseconds. Data from these registers are internally
calibrated over the specified operating ranges as described in
this data sheet. Alarm and warning thresholds are factory
preset values and are interpreted as real 16 bit data. The
optional TX_FAULT interrupt feature, if activated, pulls the
TX_FAULT pin (pin 2) high upon reaching an alarm or warning
condition on the diagnostics monitors mentioned above. The
masking feature allows any of the warning and alarm flags to
be dynamically masked by the user.
Data Sheet
Table 3: DWDM SFP MSA Serial Identification Data Fields (Location A0h).
Data Address Field Size
(dec)
(Bytes)
13
Bookham Module
Data (hex)
Name of Field
Description of Field
0
1
0Bh
Identifier
Type of serial transceiver
1
1
27h
Ext. Identifier
Extended identifier of type of serial transceiver
2
1
07h
Connector
Code for connector type
3-10
8
00h,0Ch,44h,00h,
80h,10h,01h,00h
Transceiver
Code for electronic compatibility
or optical compatibility
11
1
03h
Encoding
Code for serial encoding algorithm
12
1
19h
BR, Nominal
Nominal bit rate, units of 100 MBits/sec
13-14
2
B4h
Length (9µm) – km
Link length supported for 9/125µm fiber, units in km
15
1
46h
Max Temp
Maximum operating case temperature in °C
16
1
00h
Min Temp
Minimum operating case temperature in °C
17
1
5Fh
Max Supply
Current
Maximum supply current in units of 4mA
18
1
-
Reserved
-
19
1
41h
Channel spacing
and tuning
Channel spacing compatibility and number
of ITU channels supported
20-35
16
42h,4Fh,4Fh,
4Bh,48h,41h,4Dh
Vendor Name
SFP transceiver vendor name (ASCII)
36
1
Module dependent
Optional
Features
Optional DWDM features (not currently
supported by Bookham)
37-39
3
00h 09h A6h
Vendor OUI
SFP transceiver vendor IEEE company ID
40-55
16
Module dependent
Vendor PN
Part number provided by SFP transceiver
vendor (ASCII)
56-59
4
03h
Vendor Rev
Revision level for part number provided by
vendor (ASCII)
60-61
2
Module dependent
Wavelength
Laser wavelength (in nm)
62
1
Module dependent
Wavelength
Laser wavelength (fractional part in units of 10pm)
63
1
Module dependent
CC_BASE
Check code for Base ID Fields (addresses 0 – 62)
64-65
2
1Ah
Options
Indicates which optional transceiver signals
are implemented
66
1
46h
BR, max
Upper bit rate margin, units in %
67
1
5Eh
BR, min
Lower bit rate margin, units in %
68-83
16
Module dependent
Vendor SN
Serial number provided by vendor (ASCII)
84-91
8
Module dependent
Date Code
Vendor’s manufacturing date code
92
1
68h
Diagnostics
Monitoring Type
Indicates the type of diagnostics implemented in
the transceiver
93
1
F0h
Enhanced
Options
Indicates which optional enhanced features
are implemented
94
1
01h
SFF-8472
Compliance
Indicates which revision of SFF-8472 the
transceiver complies with
95
1
Module dependent
CC_EXT
Check code for the Extended ID Fields
(addresses 64-94)
96-127
32
-
Vendor
Specific
Vendor Specific EEPROM (Vendor specific data;
read only)
128-255
128
-
Reserved
Reserved for future use
Data Sheet
Table 4: Enhanced Digital Diagnostics Data Fields (Location A2h).
Data Address
(dec)
Field Size
(Bytes)
Name of Field
Description of Field
A/D Table for Alarm and Warning Thresholds
00-55
56
High/Low Alarm and
Warning Levels
Specifies factory preset alarm and warning thresholds
defined in Table 5.
Calibration Constants for External Calibration Option
56-94
39
95
1
Unused in DWDM devices. All Bytes Set to 0.
Checksum
Low order 8 bits of the sum of bytes 0-94
A/D Values
Real-time A/D binary values of the following enhanced diagnostics:
module temperature, supply voltage, laser bias current, transmit
optical power, receive optical power, laser temperature and TEC
current. These values are Internally calibrated absolute
measurements. All diagnostic parameters implemented in these
address locations have a corresponding high and low, alarm
and warning thresholds assigned in address locations 00-55.
A/D Values and Status Bits
96-109
8
Optional Status/Control Bits
110
1
Soft Control Signals
111
1
Reserved
“Soft” control signals monitored over the 2-wire access port.
Continuously updated real-time status of the following control
signals: TX_FAULT, TX_DISABLE, Rate Select, and LOS.
Last bit (LSB) indicates transceiver readiness to transmit data.
Reserved
Reserved Optional Alarm and Warning Flag Bits
112-117
5
Alarm & Warning Flags
118-119
2
Warning Mask
Real time, single point bits indicating module parameters that are
approaching or outside normal operating limits. Parameters
monitored are: module temperature, supply voltage, laser bias
current, transmit optical power, receive optical power, laser
temperature and TEC current.
The flags are internally calibrated thresholds with limits
corresponding to levels detailed in addresses 00-39 above.
Masking bits corresponding to Warning bits of bytes 116 and
117 respectively
Vendor Specific Memory Addresses
120-126
8
Vendor Specific
Vendor specific data
Table Select Byte (2-wire Address A2h)
127
1
Table Select
The byte value defines the Table location for subsequent reads
and writes to bytes locations 128-255
User EEPROM
128-247
120
User EEPROM
User writable EEPROM
248-255
8
Vendor Specific
Vendor specific control functions
Table 5: Alarm and Warning Thresholds.
14
Address
Value
Description
Address
Value
Description
00-01
02-03
04-05
06-07
08-09
10-11
12-13
14-15
16-17
18-19
20-21
22-23
24-25
26-27
85 ºC
-10 ºC
80 ºC
-5 ºC
3.63 V
2.97 V
3.47 V
3.14 V
70 mA
10 mA
55 mA
15 mA
3162µW
1259µW
Temp High Alarm
Temp Low Alarm
Temp High Warning
Temp Low Warning
VCC High Alarm
VCC Low Alarm
VCC High Warning
VCC Low Warning
Bias High Alarm
Bias Low Alarm
Bias High Warning
Bias Low Warning
Tx Power High Alarm
Tx Power Low Alarm
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
2512µW
1585µW
200µW
0.794µW
126µW
1.585µW
60 ºC
30 ºC
55 ºC
35 ºC
600 mA
-600 mA
400 mA
-400 mA
Tx Power High Warning
Tx Power Low Warning
Rx Power High Alarm
Rx Power Low Alarm
Rx Power High Warning
Rx Power Low Warning
Laser Temp High Alarm
Laser Temp Low Alarm
Laser Temp High Warning
Laser Temp Low Warning
TEC Current High Alarm
TEC Current Low Alarm
TEC Current High Warning
TEC Current Low Warning
Data Sheet
Regulatory Compliance
Bookham IGP-28111J SFP transceiver is designed to be Class I Laser safety compliant and is certified per the following standards:
Agency
Standard
Certificate / Comments
FDA/CDRH
CDRH 21J CFR1040.10
Pass. Accession no. 0522631-00
IEC/EN60825-1:2001
US-TUVR-3209
CAN/CSA-60825-1-03
CU7206220601
UL60950-1:2001
CU7206220601
CAN/CSA-C22.2 No.60950-1-03
CU7206220601
IEC/EN60950-1:2001
US-TUVR-3209
Title 47, Part 15, 1-12.5 GHz, Class B
Pass
Feature
Laser Safety
Product Safety
EMC
TUV
TUV
FCC
RoHS Compliance
Bookham is fully committed to environment protection and sustainable development and has set in place a comprehensive
program for removing polluting and hazardous substances from all of its products. The relevant evidence of RoHS compliance is
held as part of our controlled documentation for each of our compliant products. RoHS compliance parts are available to order,
please refer to the ordering information section for further details.
Package and Handling Instructions
Process Plug
It is important to note that single mode optics, as with all optical devices are susceptible to contamination from air borne particles,
human body oils, and mating connector particles. Care should be taken to protect all exposed optical interfaces with process
plugs and dust covers. All Bookham IGP-2000 SFP products are supplied with a process plug. This plug protects the transceiver’s
optics during standard handling and manufacturing processes. It is recommended that the process plug remain in the transceiver
whenever an optical fibre connector is not inserted.
ESD Discharge (ESD)
Normal ESD precautions are required during the handling of this module. This transceiver is shipped in ESD protective packaging
and it should not be removed from its packaging or otherwise handled unless in an ESD protected environment utilizing standard
grounded benches, floor mats, and wrist straps.
Eye Safety
The Bookham IGP-2000 Series SFP products are Class I laser products per IEC/EN60950-1:2001 and 60825-1:2001, and are
certified per CDRH, 21 CFR 1040, Laser Safety Requirements. It is an eye safe device when operated within the limits of this
specification. Operating this product in a manner inconsistent with intended usage and specification may result in hazardous
radiation exposure. Tampering with this laser based product may warrant, under law, re-certification of the modified product as
required by the U.S. Food and Drug Administration (21 CFR 1040).
Related Documents
1.
2.
3.
4.
5.
6.
15
DWDM SFP MSA (MultiSource Agreement), Revision 1.0, 19th September 2005.
SFP MSA (MultiSource Agreement), 14th September 2000.
Digital Diagnostics Monitoring Interface for Optical Transceivers. SFF Document Number SFF-8472, Rev 9.5.
Telcordia GR-253-CORE.
ITU G.957.
IEEE 802.3ae, 2000 Edition.
Data Sheet
Ordering information
The specific product order codes for each ITU-T 100GHz channel available are defined below in Table 6 for C-Band and Table 7 for
L-Band.
Table 6: IGP-28111J Product Order Codes for C-Band Wavelengths.
16
Product
Code
Frequency
(THz)
Wavelength
(nm)
Product
Code
Frequency
(THz)
Wavelength
(nm)
IGP-28111J-60
IGP-28111J-59
IGP-28111J-58
IGP-28111J-57
IGP-28111J-56
IGP-28111J-55
IGP-28111J-54
IGP-28111J-53
IGP-28111J-52
IGP-28111J-51
IGP-28111J-50
IGP-28111J-49
IGP-28111J-48
IGP-28111J-47
IGP-28111J-46
IGP-28111J-45
IGP-28111J-44
IGP-28111J-43
IGP-28111J-42
IGP-28111J-41
IGP-28111J-40
IGP-28111J-39
IGP-28111J-38
196.00
195.90
195.80
195.70
195.60
195.50
195.40
195.30
195.20
195.10
195.00
194.90
194.80
194.70
194.60
194.50
194.40
194.30
194.20
194.10
194.00
193.90
193.80
1529.55
1530.33
1531.12
1531.90
1532.68
1533.47
1534.25
1535.04
1535.82
1536.61
1537.40
1538.19
1538.98
1539.77
1540.56
1541.35
1542.14
1542.94
1543.73
1544.53
1545.32
1546.12
1546.92
IGP-28111J-37
IGP-28111J-36
IGP-28111J-35
IGP-28111J-34
IGP-28111J-33
IGP-28111J-32
IGP-28111J-31
IGP-28111J-30
IGP-28111J-29
IGP-28111J-28
IGP-28111J-27
IGP-28111J-26
IGP-28111J-25
IGP-28111J-24
IGP-28111J-23
IGP-28111J-22
IGP-28111J-21
IGP-28111J-20
IGP-28111J-19
IGP-28111J-18
IGP-28111J-17
IGP-28111J-16
193.70
193.60
193.50
193.40
193.30
193.20
193.10
193.00
192.90
192.80
192.70
192.60
192.50
192.40
192.30
192.20
192.10
192.00
191.90
191.80
191.70
191.60
1547.72
1548.51
1549.32
1550.12
1550.92
1551.72
1552.52
1553.33
1554.13
1554.94
1555.75
1556.55
1557.36
1558.17
1558.98
1559.79
1560.61
1561.42
1562.23
1563.05
1563.86
1564.68
Data Sheet
Table 7: IGP-28111J Product Order Codes for L-Band Wavelengths.
Product
Code
Frequency
(THz)
Wavelength
(nm)
Product
Code
Frequency
(THz)
Wavelength
(nm)
IGP-28111J-09
IGP-28111J-08
IGP-28111J-07
IGP-28111J-06
IGP-28111J-05
IGP-28111J-04
IGP-28111J-03
IGP-28111J-02
IGP-28111J-01
IGP-28111J-00
IGP-28111J-99
IGP-28111J-98
IGP-28111J-97
IGP-28111J-96
IGP-28111J-95
IGP-28111J-94
IGP-28111J-93
IGP-28111J-92
IGP-28111J-91
IGP-28111J-90
IGP-28111J-89
IGP-28111J-88
190.90
190.80
190.70
190.60
190.50
190.40
190.30
190.20
190.10
190.00
189.90
189.80
189.70
189.60
189.50
189.40
189.30
189.20
189.10
189.00
188.90
188.80
1570.42
1571.24
1572.06
1572.89
1573.71
1574.54
1575.37
1576.20
1577.03
1577.86
1578.69
1579.52
1580.35
1581.18
1582.02
1582.85
1583.69
1584.53
1585.37
1586.20
1587.04
1587.88
IGP-28111J-87
IGP-28111J-86
IGP-28111J-85
IGP-28111J-84
IGP-28111J-83
IGP-28111J-82
IGP-28111J-81
IGP-28111J-80
IGP-28111J-79
IGP-28111J-78
IGP-28111J-77
IGP-28111J-76
IGP-28111J-75
IGP-28111J-74
IGP-28111J-73
IGP-28111J-72
IGP-28111J-71
IGP-28111J-70
IGP-28111J-69
IGP-28111J-68
IGP-28111J-67
IGP-28111J-66
188.70
188.60
188.50
188.40
188.30
188.20
188.10
188.00
187.90
187.80
187.70
187.60
187.50
187.40
187.30
187.20
187.10
187.00
186.90
186.80
186.70
186.60
1588.73
1589.57
1590.41
1591.26
1592.10
1592.95
1593.79
1594.64
1595.49
1596.34
1597.19
1598.04
1598.89
1599.75
1600.60
1601.46
1602.31
1603.17
1604.03
1604.89
1605.74
1606.61
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Important Notice
Performance figures, data and any illustrative material
provided in this data sheet are typical and must be
specifically confirmed in writing by Bookham before
they become applicable to any particular order or
contract. In accordance with the Bookham policy of
continuous improvement specifications may change
without notice. The publication of information in this
data sheet does not imply freedom from patent or other
protective rights of Bookham or others. Further details
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www.bookham.com
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17
BH12884 Rev 2.0 January 2007
©Bookham 2005. Bookham is a registered trademark of Bookham Inc.