AFCT-5705LZ Avago Technologies US Inc., AFCT-5705LZ Datasheet - Page 7
AFCT-5705LZ
Manufacturer Part Number
AFCT-5705LZ
Description
LX SFP Std Delatch RoHS
Manufacturer
Avago Technologies US Inc.
Series
-r
Datasheet
1.AFCT-5705LZ.pdf
(20 pages)
Specifications of AFCT-5705LZ
Mounting Type
SFP
Voltage - Supply
3.14 V ~ 3.47 V
Connector Type
LC Duplex
Applications
Ethernet
Wavelength
1310nm
Data Rate
1.25Gbd
Product
Transceiver
Maximum Rise Time
400 ps, 260 ps
Maximum Fall Time
400 ps, 260 ps
Pulse Width Distortion
0.227 ns, 0.267 ns
Operating Supply Voltage
3.14 V to 3.47 V
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 10 C
Package / Case
SFP-20
Function
SFP Optical Transceivers with Optional DMI for Gigabit Ethernet
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
Singlemode Glass
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Table 2. Pin description
Notes:
1. TX Fault is an open collector/drain output which should be pulled up externally with a 4.7K: – 10 K: resistor on the host board to a supply
2. TX disable input is used to shut down the laser output per the state table below. It is pulled up within the module with a 4.7-10 K: resistor.
3. Mod-Def 0,1,2. These are the module definition pins. They should be pulled up with a 4.7-10 K: resistor on the host board to a supply less
4. LOS (Loss of Signal) is an open collector/drain output which should be pulled up externally with a 4.7 K: – 10 K: resistor on the host board to
5. RD-/+: These are the differential receiver outputs. They are AC coupled 100 : differential lines which should be terminated with 100 : differ-
6. VccR and VccT are the receiver and transmitter power supplies. They are defined as 3.135 – 3.465 V at the SFP connector pin. The in-rush
7. TD-/+: These are the differential transmitter inputs. They are AC coupled differential lines with 100 : differential termination inside the
7
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
<VccT+0.3 V or VccR+0.3 V. When high, this output indicates a laser fault of some kind. Low indicates normal operation. In the low state, the
output will be pulled to < 0.8 V.
than VccT +0.3 V or VccR+0.3 V.
a supply < VccT,R+0.3 V. When high, this output indicates the received optical power is below the worst case receiver sensitivity (as defined by
the standard in use). Low indicates normal operation. In the low state, the output will be pulled to < 0.8 V.
ential at the user SERDES. The AC coupling is done inside the module and is thus not required on the host board. The voltage swing on these
lines must be between 370 and 2000 mV differential (185 – 1000 mV single ended) according to the MSA. Typically it will be 1500mv differen-
tial.
current will typically be no more than 30 mA above steady state supply current after 500 nanoseconds.
module. The AC coupling is done inside the module and is thus not required on the host board. The inputs will accept differential swings of
500 – 2400 mV (250 – 1200 mV single ended). However, the applicable recommended differential voltage swing is found in Table 5.
Name
VeeT
TX Fault
TX Disable
MOD-DEF2
MOD-DEF1
MOD-DEF0
Rate Selection
LOS
VeeR
VeeR
VeeR
RD-
RD+
VeeR
VccR
VccT
VeeT
TD+
TD-
VeeT
Low (0 – 0.8 V): Transmitter on
Between (0.8 V and 2.0 V): Undefined
High (2.0 – 3.465 V): Transmitter Disabled
Open: Transmitter Disabled
Mod-Def 0 is grounded by the module to indicate that the module is present
Mod-Def 1 is clock line of two wire serial interface for optional serial ID
Mod-Def 2 is data line of two wire serial interface for optional serial ID
Function/Description
Transmitter Ground
Transmitter Fault Indication
Transmitter Disable - Module disables on high or open
Module Definition 2 - Two wire serial ID interface
Module Definition 1 - Two wire serial ID interface
Module Definition 0 - Grounded in module
Not Connected
Loss of Signal
Receiver Ground
Receiver Ground
Receiver Ground
Inverse Received Data Out
Received Data Out
Reciver Ground
Receiver Power -3.3 V ±5%
Transmitter Power -3.3 V ±5%
Transmitter Ground
Transmitter Data In
Inverse Transmitter Data In
Transmitter Ground
Engagement
Order(insertion)
1
3
3
3
3
3
3
3
1
1
1
3
3
1
2
2
1
3
3
1
Notes
1
2
3
3
3
4
5
5
6
6
7
7
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