FINISAR FTL-1319-3D

Finisar
Product Specification
RoHS Compliant Long-Wavelength GBIC Transceiver
FTL-1319-3D
PRODUCT FEATURES
•
Up to 1.25Gb/s bi-directional
data links
•
1310nm Fabry-Perot laser
transmitter
•
RoHS Compliant and Lead Free
•
Optional Digital Diagnostics
•
Extended operating temperature
range (-10°C to +85°C)
•
Compatible with 3.3 & 5V
systems
•
Hot-pluggable (complies with
GBIC specification Rev. 5.5)
•
Fully metallic enclosure for low
EMI
•
Low power dissipation
APPLICATIONS
•
1.0625 Gb/s Fibre Channel
•
1.25 Gigabit Ethernet
Finisar’s FTL-1319-3D 1310nm GBIC transceivers comply with GBIC Specification
Revision 5.51. They are compatible with Gigabit Ethernet as specified in IEEE 802.32,
Fibre Channel FC-PH, PH2, PH33 and FC-PI-2 Rev. 10.04. They are RoHS compliant and
lead-free per Directive 2002/95/EC5 and Finisar Appl. Note AN-2038.
PRODUCT SELECTION
Part Number
FTL-1319-3D
FTL-1319-3D-DD
© Finisar Corporation November 16, 2007 Rev. C3
Digital Diagnostics
No
Yes
Page 1
FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
I.
Finisar
Pin Descriptions
Pin Name
Pin #
Sequence
RX_LOS
1
2
GND
2
2
GND
3
2
MOD_DEF(0)
4
2
MOD_DEF(1)
5
2
MOD_DEF(2)
6
2
TX_DISABLE
7
2
GND
8
2
GND
9
2
TX_FAULT
(not supported)
GND
10
2
11
1
-RX_DAT
12
1
+RX_DAT
13
1
GND
14
1
VCC
15
2
VCC
16
2
GND
17
1
+TX_DAT
18
1
-TX_DAT
19
1
GND
20
1
Table 1. GBIC to host connector pin assignment
“Sequence” indicates the order in which pins make contact when the device is hot
plugged. See “Table 3: Signal Definitions” in the GBIC Specification Revision 5.5.1
© Finisar Corporation November 16, 2007 Rev. C3
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Finisar
FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
II.
Electrical Power Interface
Finisar FTL-1319-3D GBICs have an extended power supply voltage range of 3.15 V to
5.5 V as described in Table 2. They are compatible with both 3.3V and 5 V systems.
Parameter
Symbol
Min
Is
Typ
Max
Units
200
300
+30
mA
mA
Supply Current
Inrush Current
Isurge
Absolute Supply Voltage
Vmax
-0.3
6
V
Operating Supply Voltage
Vcc
3.15
5.5
V
Notes/Conditions
Hot plug, above steady
state current.
Not to be applied
continuosly
Referenced to GND
Table 2. Electrical power interface
III. Low Speed Signals
RX_LOS and TX_DISABLE are TTL signals as described in Table 3. MOD_DEF(1)
(SCL) and MOD_DEF(2) (SDA), are open drain CMOS signals (see section VIII, “Serial
Communication Protocol”). Both MOD_DEF(1) and MOD_DEF(2) must be pulled up to
host_Vcc. For more detailed information, see sections 5.3.1 – 5.3.8 in the GBIC
Specification Rev. 5.51.
Parameter
GBIC Output LOW
GBIC Output HIGH
GBIC Input LOW
GBIC Input HIGH
Symbol
Min
Max
VOL
0
0.5
Units Notes/Conditions
4.7k to 10k pull-up to host_Vcc,
measured at host side of connector
VOH
host_Vcc - 0.5 host_Vcc + 0.3
V
4.7k to 10k pull-up to host_Vcc,
measured at host side of connector
VIL
0
0.8
V
4.7k to 10k pull-up to Vcc,
measured at GBIC side of
connector
VIH
2
Vcc + 0.3
V
4.7k to 10k pull-up to Vcc,
measured at GBIC side of
connector
Table 3. Low speed signals – electronic characteristics
© Finisar Corporation November 16, 2007 Rev. C3
V
Page 3
Finisar
FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
Parameter
Symbol
Min
Typ
Max
RX_LOS Assert Level
RX_LOS Deassert Level
RX_LOS Hysteresis
RX_LOS Assert Delay
--31
--0.5
t_loss_on
100
RX_LOS Negate Delay
t_loss_off
100
TX_DISABLE Assert Time
t_off
10
TX_DISABLE Negate Time
t_on
1000
TX_DISABLE Reset Time
t_reset
-20
10
Units Notes/Conditions
dBm
dBm
dB
µsec From detection of loss of signal
to assertion of RX_LOS
µsec From detection of presence of
signal to negation of RX_LOS
µsec Rising edge of TX_DISABLE to
fall of output signal below 10%
of nominal
µsec Falling edge of TX_DISABLE
to rise of output signal above
90% of nominal
µsec TX_DISABLE HIGH before
TX_DISABLE set LOW
Table 4. Low speed signal parameters
IV. High Speed Electrical Interface
All high-speed PECL signals are AC-coupled internally.
Parameter
Symbol
Min
Data Input Voltage
Data Output Voltage
PECL rise/fall
Bit Error Rate
Tx Input Impedance
Vin
Vout
tr,tf
BER
Zin
650
370
Rx Output Impedance
Zout
Typ
Max
Units
Notes/Conditions
2000
2000
260
10-12
mV
mV
psec
PECL differential peak - peak
PECL differential peak - peak
20%-80% differential
PRBS 27 - 1 test data pattern
75
Ohm
75
Ohm
Table 5. High-speed electrical interface
© Finisar Corporation November 16, 2007 Rev. C3
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Finisar
FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
V.
Optical Parameters
Parameter
Symbol
TRANSMITTER CHARACTERISTICS
Transmitter Center Wavelength
λc
Transmitter Spectral Width
ΔλRMS
Min
Typ
Max
1270
1310
1355
4
RMS. Also meets
curves in FC-PI 10.0
Figures 18.
dBm Average power coupled
into single mode fiber
dB
%
Conforms to IEEE
802.3 and Fibre
Channel Eye Masks
Pout
-9
Transmitter Extinction Ratio
Transmitter Eye Opening
OMI
--
9
60
Transmitter Rise/Fall Time
tr /tf
260
ps
RIN
160
-120
ps
dB / Hz
RECEIVER CHARACTERISTICS
Optical Input Wavelength
Receiver Reflectance
Optical Input Power (1.25GB/s)
Optical Input Power (1.0625Gb/s)
Total Receiver Jitter
λin
RRX
Pin
Pin
1270
-3
nm
nm
Transmitter Optical Output Power
Total Transmitter Jitter
Relative Intensity Noise
-6
Units Notes/Conditions
20%-80% differential
unfiltered
Peak to peak, filtered
1355
-14
-3
-3
160
nm
dB
-19
dBm BER < 10-12 w/ PRBS
7
-20
dBm 2 - 1 test pattern
ps
Peak to peak, filtered in
loopback
Note: Parameters are specified over temperature and voltage, at end of life unless otherwise noted.
Table 6. Optical parameters
VI.
General Specifications
Parameter
Data Rate
Fiber Length
Fiber Length
Fiber Length
Symbol Min
BR
L
L
L
Typ
Max
Units Notes/Conditions
1.25
1.0625
Gb/sec Fibre Channel, IEEE 802.3
Compatible
10,000
m
9μm Core Single Mode Fiber
550
m
50μm 500MHz-km Fiber
275
m
62.5μm 200MHz-km Fiber
Table 7. General specifications
© Finisar Corporation November 16, 2007 Rev. C3
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FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
Finisar
VII. Environmental Specifications
Note that the GBIC Specification requires an ambient temperature range of 0 to 50°C.
The FTL-1319-3D has an extended range from –10°C to +85°C case temperature as
specified in Table 8.
Parameter
Operating Temp
Relative Humidity
Storage Temp
Eye Safety
Symbol
Min
Top
RH
Tsto
--
-10
0
-40
Typ
Max
85
85
85
Units Notes/Conditions
°C
%
°C
Case Temperature
Non Condensing
CDRH and IEC-825 Class 1 Laser
Product. See Note 1
Note 1: Complies with FDA performance standards for laser products except for deviations pursuant to
Laser Notice No. 50, dated July 26, 2001.
Table 8. Environmental specifications
VIII. Serial Communication Protocol
All Finisar optical GBICs implement serial identification features described for ‘Module
Definition “4”’ as outlined in Annex D of the GBIC Specification1. These GBICs use an
Atmel AT24C01A 128 byte E2PROM at address A0H. For details on interfacing with the
E2PROM, see the Atmel data sheet titled “AT24C01A/02/04/08/16 2-Wire Serial CMOS
E2PROM.”6
The FTL-1319-3D-DD also supports extended diagnostic features as described in Finisar
Applications Note AN-2030, “Digital Diagnostic Monitoring Interface for Optical
Transceivers”8, and additional information is available in SFF standard titled: “Digital
Diagnostic Monitoring Interface for Optical Transceivers”7 (SFF-8472 rev9.3). A
controller IC that monitors system parameters such as laser current, module temperature,
transmitter power, and received power is accessible at address A2H.
I2C clock speed, digital diagnostic accuracy and digital diagnostic range can be found in
the table below. Values in the table represent the worst-case values over temperature,
voltage, and life.
© Finisar Corporation November 16, 2007 Rev. C3
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Finisar
FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
Parameter
I2C Clock Speed
Accuracy
Internal Transceiver
Temperature
Internal Transceiver
Supply Voltage
Tx Bias Current
Tx Output Power
Received Average
Power
Range
Internal Transceiver
Temperature
Internal Transceiver
Supply Voltage
Tx Bias Current
Tx Output Power
Received Average
Power
Symbol
Min Typ
Max
Units Notes/Conditions
0
100,000
Hz
Bus can be driven blind
DDTemperature
-3
+3
°C
Measured at controller IC
DDVoltage
-3
+3
%
Measured at controller IC
DDBias
DDTxPower
-10
-3
+10
+3
%
dB
DDRxPower
-3
+3
dB
DDTemperature
-40
100
°C
DDVoltage
3.0
6.0
V
DDBias
DDTxPower
DDRxPower
0
-13.5
-24
80
1
1
mA
dBm
dBm
100% tested in production
tested at room temp to ±2 dB
100% tested in production
tested at room temp to ±2 dB
Table 9. Digital Diagnostic Accuracy and Range Limits
© Finisar Corporation November 16, 2007 Rev. C3
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FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
Finisar
IX. Mechanical Specifications
Finisar GBICs are compatible with the mechanical specifications outlined in the GBIC
Specification Revision 5.5, Section 61.
Insertion, Extraction, and
Retention Forces
Parameter
GBIC insertion
GBIC extraction
GBIC retention
Symbol
Min
Typ
Max
Units
Notes/Conditions
FI
0
20
Newtons ~4.5 lbs
FE
0
15
Newtons ~3.3 lbs
FR
130
N/A
Newtons Straight out ~29.3 lbs
Table 10. Insertion, extraction, and retention forces
Figure 1. GBIC outline drawing
© Finisar Corporation November 16, 2007 Rev. C3
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FTL-1319-3D Long-Wavelength GBIC Specification – November 2007
Finisar
X.
References
1.
“Gigabit Interface Converter (GBIC) Revision 5.5”. Sun Microsystems Computer
Company et. al., August 16, 1999. http://playground.sun.com/pub/OEmod/
2.
IEEE Std 802.3. IEEE Standards Department, 2002.
3.
“Fibre Channel Physical and Signaling Interface (FC-PH, FC-PH2, FC-PH3)”.
American National Standard for Information Systems.
4.
“Fibre Channel Draft Physical Interface Specification (FC-PI-2 Rev. 10.0).
American National Standard for Information Systems.
5.
Directive 2002/95/EC of the European Council Parliament and of the Council, “on
the restriction of the use of certain hazardous substances in electrical and electronic
equipment.” January 27, 2003.
6.
“AT24C01A/02/04/08/16 2-Wire Serial CMOS E2PROM”. Atmel Corporation.
www.Atmel.com
XI.
For More Information
Finisar Corporation
1389 Moffett Park Drive
Sunnyvale, CA 94089-1134
Tel. 1-408-548-1000
Fax 1-408-541-6138
[email protected]
www.finisar.com
© Finisar Corporation November 16, 2007 Rev. C3
Page 9