a8e
re
systems
Advance
Data
Sheet
February
2002
NetLight©
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
w6
~
.w
Benefits
.
Upgrade
path
:
-
OEMs
can
offer
longer-reach
and
higher-speed
solutions,
as
the
end
user
needs
upgrades
.
Applications
.
IEEE@
802
.3z
1000BASE-LX
.
IEEE
802
.3z
1000BASE-SX
Available
in
a small
form
factor,
LC
Receptacle
connector
metal
package,
the
NLP12
SFP
Transceiver
is
a
high-per-
formance,
cost-effective,
optical
transceiver
for
Gigabit
Ether-
Description
net
applications
.
Features
.
Multisource
agreement
(MSA)
compliant
SFP
package
.
LC
duplex
receptacle
.
Metal
package
for
superior
EMI
performance
.
1300
nmFP
laser
transmitter with
automatic
output
power
control
(1000BASE-LX
version)
.
850
nm
VCSEL
laser
transmitter with
automatic
output
power
control
(1000BASE-SX
version)
.
Transmitter
disable
input
.
Hot-pluggable
electrical
interface
.
Wide
dynamic
range
.
TTL
signal-detect
output
.
Low
power
dissipation
.
Single
3
.3
V
power
supply
.
ac-coupled
data
inputs
and
outputs
.
Operating
temperature
range
of
0
°C
to
85°C
(1000BASE-LX
only)
.
Serial
identification
(EEPROM)
The
NLP12
small
form-factor
pluggable
(SFP)
trans-
ceiver
is
a
high-speed,
cost
effective
optical
trans-
ceiver
that
is
intended
for
1
.25
Gbits/s Gigabit
Ethernet
1000BASE-LX
and
1000BASE-SX
applica-
tions
.
The
transceiver
features
Agere
Systems'
optics
and
is
packaged
in
a
narrow-width
metal
hous-
ing
with
an
LC
duplex
receptacle
.
This receptacle
fits
into
an
RJ-45 form
factor
outline
.
The
SFP
package
pinout
conforms
to
a
multisource
SFP
transceiver
agreement
.
The
transmitter
features
ac-coupled
differential
data
inputs
.
The
transmitter
also features
aTTL
logic
level
disable
input
and
a
transmitter
fault
indicator
output
.
The
receiver
features
differential
ac-coupled
data
outputs
and
aTTL
logic
level
loss-of-signal
output
.
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
Absolute
Maximum
Ratings
Stresses
in
excess
of
the
absolute
maximum
ratings
can
cause permanent
damage
to
the device
.
These
are
abso-
lute
stress
ratings
only
.
Functional
operation
of
the device
is
not
implied
at
these
or
any
other
conditions
in
excess
of
those
given
in
the
operations sections
of
the
data
sheet
.
Exposure
to
absolute
maximum
ratings
for
extended
periods
can
adversely
affect
device
reliability
.
Parameter
Symbol
Min
Max
Unit
Storage
Temperature
Range
Tst9
-40
85
°C
Case
Temperature
Range
Tc
0
85
°C
Supply
Voltage
VccT,
R
0 3
.8
V
NLP12-10-AA,1300
nm
FP
Table
1
.
Recommended
OperatingConditions
Parameter
Symbol
Min
Typ Max
Unit
Case
Temperature
Range
Tc
0
-
85 °C
Supply
Voltage
VccT,
R
3
.135
-
3
.465
V
D
ata
R
ate
- -
1
.2
5
-
Gb
i
tsts
2
Agere
Systems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
NLP12-10-AA
1300
nm
FP
(continued)
Transceiver
Optical
and
Electrical
Characteristics
Table
2
.
Transmitter
Optical
and
Electrical
Characteristics(TC
=0
°C
to
85
°C,
VCC
=
3
.135
V-3
.465
V)
Parameter
Symbol
Min
Max
Unit
Optical
Output
Power
:
Average
Disabled
Po
PO
DIS
-9
.5
-
-3
-35
dBm
dBm
Optical
Wavelength
kc
1285 1343
nm
Spectral
Width
AXRnas
-
2
.8
nm
Dynamic
Extinction
Ratio
EXT
9
-
dB
Optical
Output
Rise/Fall
Time
(20%-80%)
tR/tF
-
260
ps
Total
Transmitter
Jitter
added
at
TP21
Tj
-
227
ps
Relative
Intensity
Noise
RIN
-
-120
db/Hz
Power
Supply
Current
ICCT
-
150
mA
Input
Data
Voltage-Differentia12
VINp-p
300
1600
mVp-p
Transmit
Disable
Voltage3
VD
Vcc
-
1
.3
VCC V
Transmit
Enable
Voltage3
VEN
VEE
VEE
+
0
.8
V
Transmit
Disable
Assert
Time4
t
-off
-
10 ps
Transmit
Disable
Negate
Times
ton
-
1
ms
Transmit
Fault
Output
Voltage
Level
VFAULTH
VFAULTL
Vcc
-
1
.3
0
VCC
0
.5
V
V
Transmit
Fault
Assert
Time6
t
-fault
-
100 ps
Transmit
Fault
Reset
Time7
t
-reset
10
-
ps
1
.
TP2
refers
to
compliance
point
specified
in
802
.3z,
section
38
.2
.1
.
2
.
Differential
operation
is
necessary
for
optimum
performance
.
3
.
TTL
compatible
interface
.
4
.
Time
from
rising
edge
of
Tx
Disable
to
when
the
optical
output
falls
below
10%
of
nominal
.
5
.
Time
from
falling
edge
of
Tx
Disable
to
when
the
modulated
optical
output
rises
above
90%
of
nominal
.
6
.
Time
from
fault
to
Tx_Fault
on
.
7
.
Time
Tx
Disable
must
be
held high to
reset
Tx
Fault
.
AgereSystems
Inc
.
3
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
NLP12-10-AA,1300
nm
FP
(continued)
Transceiver
Optical
and
Electrical
Characteristics
(continued)
Table 3
.
Receiver
Optical
and
Electrical
Characteristics
(Tc
= 0
°C
to
85
°C,
Vcc
= 3
.135
V-3
.465
V)
Parameter
Symbol
Min
Max
Unit
Average
Sensitivityi
PI
-
-20
dBm
Stressed
Receiver
Sensitivity2
PSTRESS
-
-14
.4
dBm
Maximum
Input
Powers
Pnnax
-3
-
dBm
Optical
Return
Loss
ORL
12
-
dB
Power
Supply
Current
ICCR
-
150
mA
Power
Supply
Noise
Rejection
Ratio
PSNR
-
100
mV
Output
Data-Differential3
VOUTP-p
400
1200
MVP-p
Data
Output
Rise/Fall
Time
tR/tF
-
175 PS
Loss-of-Signal
Voltage
Level
VLOSH
VLOSL
Vcc
-
1
.3
0
VCC
0
.8
V
V
Loss-of-Signal
Assert
Time4
t
loss
on
-
100
las
Loss-of-Signal
Deassert
Times
t
loss
off
-
100
Its
Loss-of-Signal
Assert
Deassert
PLOSA
PLOSD
-34
-34 -20
.5
-20
dBm
dBm
LOS
Hysteresis
I
PHVS
I
0
.5
I
6
I
dB
1
.2
7
-1
PRBS
with
a
BER
of
1
x
10-12
.
2
.
The
stressed
receiver
sensitivity
is
measured
using
the
conformance
test
signal
defined
in
802
.3z,
section
38
.6
.11
.
3
.
Differential
operation
is
necessary
for
optimum
performance
.
4
.
Time
from
LOS
state
to
Rx
LOS
assert
.
5
.
Time
from
nonLOS
state
to
Rx
LOS
deassert
.
4
Agere
Systems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
NLP12-01-AA,
850
nm
VCSEL
Table
4
.
Recommended
OperatingConditions
Parameter
Symbol
Min
Typ
Max
Unit
Case
Temperature
Range
Tc
0
-
70 °C
Supply
Voltage
VccT,
R
3
.135
-
3
.465
V
Data
Rate
- -
1
.25
-
Gbits/s
Transceiver
Optical
and
Electrical
Characteristics
Table
5
.
Transmitter
Optical
and
Electrical
Characteristics
(Tc =
0°
C
to
70°
C,
Vcc
= 3
.135
V
- 3
.465
V)
Parameter
Symbol
Min
Max
Unit
Optical
Output
Power
:
Average
Disabled
Po
PO
DIS
-9
.5
-
0
-35
dBm
dBm
Optical
Wavelength
kc
830 850
nm
Spectral
Width AXRnas
-
0
.85
nm
Dynamic
Extinction
Ratio
EXT
9
-
dB
Optical
Output
Rise/Fall
Time
(20%-80%)
tR/tF
-
260
ps
Total
Transmitter
Jitter
added
at
TP21
Tj
-
227
ps
Relative
Intensity
Noise
RIN
-
-117
db/Hz
Power
Supply
Current
ICCT
-
150
mA
Input
Data
Voltage-Differentia12
VINp-p
300
1600
mVp-p
Transmit
Disable
Voltage3
VD
Vcc
-
1
.3
VCC V
Transmit
Enable
Voltage3
VEN
0 0
.8
V
Transmit
Disable
Assert
Time4
t
-off
-
10
gs
Transmit
Disable
Negate
Times
ton
-
1
ms
Transmit
Fault
Output
Voltage
Level
VFAULTH
VFAULTL
Vcc
-
1
.3
0
VCC
0
.8
V
V
Transmit
Fault
Assert
Time6
t
fault
-
100 gs
Transmit
Fault
Reset
Time7
t
-reset
10
-
gs
1
.
TP2
refers
to
compliance
point
specified
in
802
.3z,
section
38
.2
.1
.
2
.
Differential
operation
is
necessary
for
optimum
performance
.
3
.
TTL
compatible
interface
.
4
.
Time
from
rising
edge
of
Tx_
Disable
to
when
the
optical
output
falls
below
10%
of
nominal
.
5
.
Time
from
falling
edge
of
Tx
Disable
to
when
the
modulated
optical
output
rises
above
90%
of
nominal
.
6
.
Time
from
fault
to
Tx_Fault
on
.
7
.
Time
Tx
Disable
must
be
held high to
reset
Tx
Fault
.
AgereSystems
Inc
.
5
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
NLP12-01-AA,
850
nm
VCSEL
(continued)
Transceiver
Optical
and
Electrical
Characteristics
(continued)
Table 6
.
Receiver
Optical
and
Electrical
Characteristics
(Tc
=
0°
C
to
70°
C,
Vcc
=3
.135
V-
3
.465
V)
Parameter
Symbol
Min
Max
Unit
Average
Sensitivityi
PI
-
-17
dBm
Stressed
Receiver
Sensitivity
:
2
62
.5
gm
Fiber
50
gm
Fiber
PSTRESS
PSTRESS
-
-
-12
.5
-13
.5
dBm
dBm
Maximum
Input
Powers
Pnnax
0
-
dBm
Optical
Return
Loss
ORL
12
-
dB
Power
Supply
Current
ICCR
- 150
mA
Output
Data-Differentia13
VOUTP-p
370
2000
MVP-p
Data
Output
Rise/Fall
Time
tR/tF
-
220
PS
Loss-of-Signal
Voltage
Level
VLOSH
VLOSL
Vcc
-
1
.3
0
VCC
0
.8
V
V
Loss-of-Signal
Assert
Time4
t
loss
on
-
100
las
Loss-of-Signal
Deassert
Times
t
loss
off
-
100
Its
Loss
of
Signal
Assert
Deassert
PLOSA
PLOSD
-34
-34 -17
.5
-17
dBm
dBm
LOS
Hysteresis
I
PHVS
I
0
.5
I
6
I
dB
1
.2
7
-1
PRBS
with
a
BER
of
1
x
10-12
.
2
.
The
stressed
receiver
sensitivity
is
measured
using
the
conformance
test
signal
defined
in
802
.3z,
section
38
.6
.11
.
3
.
Differential
operation
is
necessary
for
optimum
performance
.
4
.
Time
from
LOS
state
to
Rx
LOS
assert
.
5
.
Time
from
nonLOS
state
to
Rx
LOS
deassert
.
6
Agere
Systems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Power
Supply
Information
VCCT
1
I
0
.1
NF
VccR
1
NH
3
.3
V
I
0
.1
NF
T
10NF
I
0
.1
NF
T
10NF
SFP
MODULE
HOST
BOARD
Figure
1
.
Power
Supply
Filtering
of
NLP12
SFP
Transceiver
Pin
Information
1
VEET
2
TX
FAULT
3
TX
DISABLE
4
MOD-DEF(2)
5
MOD-DEF(1)
6
MOD-DEF(0)
7
RATE
SELECT
8
LOS
9
VEER
10
VEER
20 VEET
19
0
18
TD+
17
VEST
16
VccT
15
VccR
14
VEER
13
RD+
12
RD-
11
VEER
TOP
OF
BOARD
BOTTOM
OF
BOARD
(AS
VIEWED
THROUGH
TOP
OF
BOARD)
Figure
2
.
NLP12
SFP
Transceiver, 20-Pin
Configuration,
Top
View
1-1299
(F)
1-1298
(F)
Agere Systems
Inc
.
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Advance
Data
Sheet
Gigabit
Ethernet
Laser
Transceiver
February
2002
Pin
Information
(continued)
Table 7
.
Transceiver
Pin
Descriptions
Pin
Number
Symbol
Functional
Description
Plug
Sequence
Notes
1
VeeT
Transmitter
Ground
1
-
2
TX
Fault
Transmitter
Fault
Indication
3
See
Note
1
.
3
TX
Disable
Transmitter
Disable
3
See
Note
2,
Module
Disables
on
High
or
Open
4
MOD-DEF2
Module
Definition
2 3
See
Note
3,
Two-Wire
Serial
ID
Interface
5
MOD-DEF1
Module
Definition
1
3
See
Note
3,
Two-Wire
Serial
ID
Interface
6
MOD-DEFO
Module
Definition
0 3
See
Note
3,
Grounded
in
Module
7
Rate
Select Select
Between
Full
or
Reduced
Receiver
Bandwidth
3
See
Note
4
.
8
LOS
Loss
of
Signal
3
See
Note
5
.
9
VEER
Receiver
Ground
1
See
Note
6
.
10
VEER
Receiver
Ground
1
See
Note
6
.
11
VEER
Receiver
Ground
1
See
Note
6
.
12
RD-
Inv
.
Received
Data
Out
3
See
Note
7
.
13
RD+
Received
Data
Out
3
See
Note
7
.
14
VEER
Receiver
Ground
1
See
Note
6
.
15
VccR
Receiver
Power
2
See
Note
8
.
16
VccT
Transmitter
Power
2
See
Note
8
.
17
VEET
Transmitter
Ground
1
See
Note 6
.
18
TD+
Transmit
Data
In
3
See
Note 9
.
19
TD-
Inv
.
Transmit
Data
In
3
See
Note 9
.
2
0
VEET
I
Tr
ans
mi
tte
r
G
r
ou
nd
I
1
I
See
N
ote
6
.
1
.
TX
Fault
is
an
open
collector/drain
output,
which
should
be
pulled
up
with
a 4
.7
kn,-10
kQ,
resistor
on
the
host
board
.
Pull-up
voltage
between
2
.0
V
and
VccT,
R
+0
.3
V
.
When
high,
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
.
2
.
TX
-Disable
is
an
input
that
is
used
to
shut
down
the
transmitter
optical
output
.
It
is
pulled
up
within
the
module
with
a 4
.7
kQ,-10
kQ,
resistor
.
Its
states
are
as
follows
:
-
Low
(0
V-0
.8
V)
:
transmitter
on
;
(>0
.8
V,
<
2
.0
V)
:
undefined
.
-
High
(2
.0
V-3
.465
V)
:
transmitter
disabled
.
-
Open
:
transmitter
disabled
.
3
.
MOD-DEF
0,
1,
2
.
These
are the
module
definition
pins
.
They
should
be
pulled
up
with
a 4
.7
kQ,-10
kQ,
resistor
on
the
host
board
.
The
pull-
up
voltage
will
be
VccT
or
VccR
:
-
MOD-DEF
0
is
grounded
by
the
module
to
indicate
that
the
module
is
present
.
-
MOD-DEF
1
is
the
clock
line of
two-wire
serial
interface for
serial
ID
.
-
MOD-DEF
2
is
the
data
line
of
two-wire
serial
interface
for serial
ID
.
4
.
The
rate-select
option
is
not
implemented
.
This
pin
should
not
be
connected
on
the
host
board
.
5
.
LOS
(loss
of
signal)
is
an
open
collector/drain
output,
which
should
be
pulled
up
with
a 4
.7
kQ,-10
kQ,
resistor
.
Pull-up voltage
between
2
.0
V
and
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
.
6
.
VEER
and
VEET
may
be
internally
connected
within
the
SFP
module
.
7
.
RD/+
:
These
are
the
differential
receiver
outputs
.
They
are
ac-coupled
10012,
differential lines,
which
should
be
terminated
with 10012,
(dif-
ferential)
at
the
user
SERDES
.
The
ac
coupling
is
done
inside
the
module
and
is
thus
not
required
on
the
host
board
.
8
.
VccR
and
VccT
are the
receiver
and
transmitter
power
supplies
.
When
the
recommended
supply
filtering
network
is
used,
hot
plugging
of
the
SFP
transceiver
module
will
result
in
an
inrush
current
of
nomore
than
30
mA
greater
than
the
steady
state
value
.
VccR
and
VccT
may
be
internally
connected
within
the
SFP
transceiver
module
.
9
.
TD-/+
:
These
are the
differential
transmitter
inputs
.
They
are
ac-coupled,
differential
lines
with
10012,
differential
termination
inside the
mod-
ule
.
The
ac
coupling
is
done
inside
the
moduleand
is
thus
not
required
on
the
host
board
.
8
Agere
Systems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Electrical
Schematic
1-130OF
Figure 3
.
Example
SFP
Host
BoardSchematic
Transceiver
Timing
Characteristics
Table
8
.
Transceiver
Timing
Characteristics
Parameter
Symbol
Condition
Min
Max
Unit
Time
to
Initialize,
Including
Reset
of
Tx
Fault
Unit
300
ms
Serial
ID
Clock Rate
f-serial-clock
- -
100
kHz
1
.
Condition
:
from
power
on
or
negation
of
Tx
Fault
using
Tx
Disable
.
AgereSystems
Inc
.
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
Transceiver
Timing
Characteristics
(continued)
Module
installed
except
where
noted
.
Vcc
> 3
.15
V
Tx-FAULT
Tx_DISABLE
I
I
TRANSMITTED
SIGNAL
t_init 1-1301
(F)
Figure
4
.
t
init
:
Tx
DISABLE
Negated
Vcc
> 3
.15
V
Tx
FAULT
Tx_DISABLE
TRANSMITTED
SIGNAL
t
init
1-1302(F)
OCCURANCE
OF
FAULT
Tx
FAULT
Tx
DISABLE
TRANSMITTED
SIGNAL
t
fault
1-1305(F)
Figure
8
.
t
-
fault
:
Tx
FAULT
Asserted,
Tx
Signal
Not
Recovered
OCCURANCE
OF
FAULT
Tx-FAULT
Tx
DISABLE
TRANSMITTED
SIGNAL
OOOY
I
L
reset
t
init*
*
SFP
will
clear
Tx
FAULT
IN
<t
init
if
the
failure
is
transient
.
1-1306
(F)
Figure 9
.
t
-
reset
:
Tx
Disable
Asserted
Then
Negated,
Tx
Signal
Recovered
Figure 5
.
t
init
:
Tx_DISABLE
Asserted
Vcc
> 3
.15
V
Tx
FAULT
Tx
DISABLE
I
TRANSMITTED
SIGNAL
Kwomy
!a
t_init
INSERTION
1-1303(F)
Figure
6
.
t
init
:
Tx_DISABLE
Negated
Module
Hot
Plugged
OCCURANCE
OF
FAULT
Tx
FAULT
Tx
DISABLE
TRANSMITTED
SIGNAL
t
fault
t
reset
t
init*
*
SFP
will
clear
Tx
FAULT
IN
<t
init
if
the
failure
is
transient
.
1-1307
(F)
Figure
10
.
t
-
fault
:
Tx
Disable
Asserted
Then
Negated,
Tx
Signal
Not
Recovered
Tx
FAULT
Tx
DISABLE
TRANSMITTED
SIGNAL
t
-
off
L
-
on
1-1304
(F)
Figure 7
.
t
-
off
and
ton
:
Tx_DISABLE
Asserted
Then
Negated
OCCURANCE
OPTICAL
SIGNAL
OF
LOSS
LOS
t
loss
on
~--~
~--~
t
loss
off
1-1308
(F)
Figure
11
.
t
loss
on
and
t
-
loss-off
10
AgereSystems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
EEPROM
Information
Table
9
.
EEPROM
Serial
ID
Memory
Contents,
1000BASE-LX
Version
Address
Hex
ASCII
Address
Hex
ASCII
Address
Hex
Address
Hex
0 3
-
34
20
-
68
Note
1
98
Note
4
1
4
-
35
20
-
69
Note
1
99
Note
4
2 7
-
36
0
-
70
Note
1
100
Note
4
3 0
-
37
0
-
71
Note
1
101
Note
4
4 0
-
38
0
-
72
Note
1
102
Note
4
5 0
-
39
0
-
73
Note
1
103
Note
4
6 2
-
40
4E N
74
Note
1
104
Note
4
7 0
-
41
4C
L
75
Note
1
105
Note
4
8 0
-
42
50
P
76
Note
1
106
Note
4
9 0
-
43
31
1
77
Note
1
107
Note
4
10
0
-
44
32 2
78
Note
1
108
Note
4
11
1
-
45
2D
-
79
Note
1
109
Note
4
12
OD
-
46
31
1
80
Note
1
110
Note
4
13
0
-
47
30 0
81
Note
1
111
Note
4
14
OA
-
48
2D
-
82
Note
1
112
Note
4
15
64
-
49
41
A
83
Note
1
113
Note
4
16
0
-
50
41
A
84
Note 2 114
Note
4
17
0
-
51
20
-
85
Note 2 115
Note
4
18
0
-
52
20
-
86
Note 2 116
Note
4
19
0
-
53
20
-
87
Note 2 117
Note
4
20
41
A
54
20
-
88
Note 2 118
Note
4
21
47
G
55
20
-
89
Note 2 119
Note
4
22
45
E
56
Note 5
-
90
20 120
Note
4
23
52
R
57
Note 5
-
91
20
121
Note
4
24
45
E
58
Note 5
-
92
0
122
Note
4
25
20
-
59
Note 5
-
93
0
123
Note
4
26
53
S
60
0
-
94
0
124
Note
4
27
59
Y
61
0
-
95
Note 3 125
Note
4
28
53
S
62
0
-
96
Note 4 126
Note
4
29
54
T
63
Note 3
-
97
Note 4 127
Note
4
30
45
E
64
0
-
31
4D
M
65
1
A
-
32
53
S
66
0
-
33
20
-
67
0
-
1
.
Addresses
68-83
specify
a
unique
device
serial
number
.
2
.
Addresses
84-91
specify
the
date
code
in
the
form
of
two-digit
year,
two-digit
month,
and
two-digit
day
of
the
month
.
3
.
Addresses
63 and 95 are
checksums
.
Address
63
is
the
checksum
for
bytes
0-62,
and
address 95
is
the
checksum
for
bytes
64-94
.
4
.
MSA-defined,
vendor-specific
data,
read
only
.
5
.
Addresses
56-59
specify
module
revision
level
.
AgereSystems
Inc
.
11
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
EEPROM
Information
(continued)
Table 10
.
EEPROM
Serial ID
Memory
Contents,
1000BASE-SX
Version
Address
Hex
ASCII
Address
Hex
ASCII
Address
Hex
Address
Hex
0 3
-
34
20
-
68
Note
1
98 Note 4
1
4
-
35
20
-
69
Note
1
99 Note 4
2 7
-
36
0
-
70
Note
1
100 Note 4
3 0
-
37
0
-
71
Note
1
101
Note 4
4 0
-
38
0
-
72
Note
1
102 Note 4
5 0
-
39
0
-
73
Note
1
103 Note 4
6
1
-
40
4E N
74
Note
1
104 Note 4
7 0
-
41
4C
L
75
Note
1
105 Note 4
8 0
-
42
50
P
76
Note
1
106 Note 4
9 0
-
43
31
1
77
Note
1
107 Note 4
10 0
-
44
32 2
78
Note
1
108
Note
4
11
1
-
45
2D
-
79
Note
1
109
Note
4
12
OD
-
46
30 0
80
Note
1
110 Note 4
13 0
-
47
31
1
81
Note
1
111
Note
4
14 0
-
48
2D
-
82
Note
1
112
Note
4
15 0
-
49
41
A
83
Note
1
113
Note
4
16
1
B
-
50
41
A
84
Note 2 114 Note 4
17 37
-
51
20
-
85
Note 2 115 Note 4
18 0
-
52
20
-
86
Note 2 116
Note
4
19 0
-
53
20
-
87
Note 2 117
Note
4
20
41
A
54
20
-
88
Note 2 118 Note 4
21
47
G
55
20
-
89
Note 2 119
Note
4
22 45
E
56
Note 5
-
90 20
120 Note 4
23 52
R
57
Note 5
-
91
20
121
Note 4
24 45
E
58
Note 5
-
92
0 122 Note 4
25 20
-
59
Note 5
-
93
0 123 Note 4
26 53
S
60
0
-
94
0 124 Note 4
27 59
Y
61
0
-
95
Note 3 125 Note 4
28 53
S
62
0
-
96
Note 4 126 Note 4
29 54
T
63
Note 3
-
97
Note 4 127
Note
4
30 45
E
64
0
-
31
4D M
65 1A
-
32 53
S
66
0
-
33 20
-
67
0
-
1 .
Addresses
68-83
specify
a
unique
device
serial
number
.
2
.
Addresses
84-91
specify
the
date
code
in
the
form
of
two-digit
year,
two-digit
month,
and
two-digit
day
of
the
month
.
3
.
Addresses
63 and
95
are
checksums
.
Address
63
is
the
checksum
for
bytes
0-62,
and address 95
is
the
checksum
for
bytes
64-94
.
4
.
MSA-defined,
vendor-specific
data,
read
only
.
5
.
Addresses
56-59
specify
module
revision
level
.
12
Agere
Systems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Electrostatic
Discharge
Caution
:
This
device
is
susceptible
to
damage
as
a
result
of electrostatic
discharge
(ESD)
.
Take
proper
precautions
during
both
handling
and
testing
.
Follow
EIA®
Stan-
dard
EIA-625
.
Although
protection
circuitry
is
designed
into
the
device,
take
proper
precautions
to
avoid
exposure
to
ESD
.
Agere
Systems
employs
a
human-body
model
(HBM)
for
ESD
susceptibility
testing
and
protection-design
evaluation
.
ESD
voltage
thresholds
are
dependent
on
the
critical
parameters
used
to
define
the
model
.
A
standard
HBM
(resistance
=
1
.5
ktl,
capacitance
=
100
pF)
is
widely
used
and,
therefore,
can be used
for
comparisonpurposes
.
The
HBM
ESD
threshold
estab-
lished
for
the
NLP12
is
±1000
V
.
Table
11
.
Regulatory
Compliance
Qualification
and
Reliability
To
help
ensure
high
product
reliability
and
customer
satisfaction,
Agere
Systems
is
committed
to
an
inten-
sive
quality
program
that starts
in
the design
phase
and
proceeds
through
the
manufacturing
process
.
Optoelectronic
modules
are
qualified
to
Agere
Sys-
tems'
internal
standards
as
well
as
other
appropriate
industry
standards
using
MIL-STD-883
test
methods
and
procedures,
and
using
sampling
techniques
con-
sistent
with
Telcordia
TechnologiesTm
requirements
.
In
addition,
AgereSystems
has
been
certified
to
be
in
full
compliance
with
the
latest
ISO®
9001
Quality
Sys-
tem Standards
.
Feature Test
Method
Performance
Laser
Eye
Safety
U
.S
.
21
CFR
(J)
1040
.10
and
CDRH
compliant
and
Class
1
laser
1040
.11,
IEC®
60825-1
1988,
safe
.
FDA
Accession
Number
IEC
60825-2
1997
0121593-02
(NLP12-10)
Electrostatic
Discharge
(ESD)
to
MIL-STD
883C,
Method
3015
.4
Class
1
(>
1000
V)
Electrical
Pins
Electrostatic
Discharge
(ESD)
to
IEC61000-4-2
;
1999
Withstand
discharges
of
15
kV
using
Optical
Connector
a
human-body
model
probe
Electromagnetic
Interference
(EMI)
FCC
Part 15
Subpart
J Class
B,
Compliant
with
standards
CI
SPR
22
:1997,
EN
55022
:1998
Class
B,
VCCI
Class
I
Immunity
IEC
61000-4-3-1998
Less
than
1
dB
change
in
receiver
sensitivity
with
field
strength
of
3
Wm
RMS,
from
10
MHz
to
1
GHz
.
Component
UL®1950,
CSA
C22
.2
#950,
IEC
60950
:
1999
Fl
a
mm
ab
ili
ty
I
U
L 94
V-
0
AgereSystems
Inc
.
13
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
Outline
Drawings
Dimensions
are
in
inches
and
(millimeters)
.
Package
Outline
(56
.50)
1
r
I I
55
4
0)
0
0
.528
0
.5
(13
40) (13
'
. . .
l
0
.425
(10
.80)
Iri
d d
I-d
0
.217
(5.50)
0
.246
(6
.25)
39
70)
.3
1-1312
(F)
Recommended
Panel
Opening
0
.640
~(16
.25t0
.1)~
I
Y
~~
0
.07
t
0
.4
(1 .7
t
0
.9)
0
.14
(3 .5
t0
.3)
0
.41
-
-
0
.39
(10)
REF
(10
.4
t
0
.1)
I
\\\\\\\\\\\\\\\\~S
SECTION
Y-Y
0
.02
(0
.4
t0
.1)
BEZEL
OPENING
BELOW
PC
BOARD
1-1309
(F)
14
Agere
Systems
Inc
.
I
Y
~J
0
.60
L
(15
.25
t
0
.1)
AdLib OCR Evaluation
Advance
Data
Sheet
February
2002
NetLight
NLP12
SmallForm-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Outline
Drawings
(continued)
Dimensions
are
in
inches
and
(millimeters)
.
Printed
Wiring
Board
Layout
1
.36
(34
.5)
0
.39
(10
.00)
3
PLACES
SEE
NOTE
1
-Y-
0
.28
0
.28
00
.03
SEE
NOTE
1
SEE
DETAIL
X
(7
.2)
(7
.1)
O
(0
.85
t
0
.05)
100 10
0
+
0
0
.10
X
Y
CROSS-HATCHED
\
B-
0
.
(2
.5)
.
(2
.5)
-A-
SEE
NOTE
2
AREA
DENOTES
i
BS
C
COMPONENT
AND
0
.14
TRACE
KEEP-OUT
(3.68)
(EXCEPTCHASSIS
GROUND)
0
.07
F(1
.7)
0
.34
0
.22
(8
.58)
(5
.68)
IPIN
1
0
, `
0
.33
O
.I7
(~
.08)
o
(8.48)
I
(11
.93)
0
.56
0
-
-
-
0
.38
(14
.25)
- -
o
(9
.6)
0
.64
0
(16
.25)
°
0
.07
0
.19
(1
.7)
(4
.8)
-
f8
0
.04
0
.08
f8 (0
.95
t
0
.05)
(2 .0
+
o
0
.1©
X
AO
11
PLACES
9
HOLES
SEE
NOTE
3
0
0
.04
THIS
AREA
DENOTES
J
0
.20
0
.08
14
(2'0)
)
8
(1
.05
t0
.05)
COMPONENT
KEEP-OUT
(5
.0
(TRACES
ALLOWED)
0
.39
11
PLACES
1+1
00
.
1©
X
AO3
(10
.0)
SEE
NOTE
2
SEE
NOTE
2
10
HOLES
1
.06
3
PLACES
(26
.8)
1
.63
(41
.3)
1
.67
(42
.3)
1-1311F
Notes
:
1
.
Datum
and
basic
dimensions
established
by customer
.
2
.
Pads
and
vias
are
chassis
ground
.
3
.
Through
holes,
plating
optional
.
AgereSystems
Inc
.
15
AdLib OCR Evaluation
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
Gigabit
Ethernet
Laser
Transceiver
Advance
Data
Sheet
February
2002
Outline
Drawings
(continued)
Dimensions
are
in
inches
and
(millimeters)
.
Printed-Wiring
Board
Layout
(continued)
0
.20
-
(5
.0)
0 .13
(3
.2)
0
.04
~_(o
.9)
20
GJ
0
.41
1
j
(10
.53)
0
.43
(10
.93)
0
.38
0
.03
0
.47
(9I6)
F
(0
.8)
9
PLACES
(11
.93)
1
0
.03
(0
.8)
9
PLACES
00
.06
0
(1
.55
t
0
.05)
1+
1
0
0
.1©
A
S~
B~S
SEE
NOTE
2
HOLES
DETAIL
X
J
L
0 .20
(0 .5
t 0
.03)
1+1
0
.06
©
AOS BOS
0
.08
20
PLACES
(2
t 0
.05)
1+
1
0
.06
~S
A~S
B
S~
TYP
1-1310F
Note
:
Through
holes,
plating
optional
.
16
Agere
Systems
Inc
.
AdLib OCR Evaluation
Advance
Data
Sheet
NetLight
NLP12
Small
Form-Factor
Pluggable
(SFP)
February
2002
Gigabit
Ethernet
Laser
Transceiver
Laser
Safety
Information
Class
I
Laser
Product
All
versions
of
the
transceiver
are
Class
I
laser
products
per
CDRH,
21
CFR
1040
Laser
Safety
requirements
.
All
versions
are
Class
I
laser
products
per
IEC
825-1 :1993
.
The
transceiver
will
be
classified
with
the
FDA
under
Accession
Number
0121593-02
(NLP12-10)
.
CAUTION
:
Use
of
controls,
adjustments,
and
procedures
other
than
those
specified
herein
may
result
in
hazardous
laser
radiation
exposure
.
This
product
complies
with
21
CFR
1040
.10
and
1040
.11
.
Wavelength
=
1310
nm
(1000BASE-LX
version)
Wavelength
=
850
nm
(1000BASE-SX
version)
Maximum
power
=
1
.58
mW
Because
of
size
constraints,
laser
safety
labeling
is
not
affixed to
the
module
but
is
attached
to
the
outside
of
the
shipping carton
.
Product
is
not
shipped
with
power
supply
.
Notice
Unterminated
optical
receptacles
may
emit
laser
radiation
.
Do
not
view
with
optical
instruments
.
Ordering
Information
Description
Device
Code
Comcode
SFP
LC
Receptacle
Transceiver
for
1
.25
Gbits/s
5
km
NLP12-10-AA
700010638
1000BASE-LX
applications
SFP
LC
Receptacle
Transceiver
for
1
.25
Gbits/s
550
m
NLP12-01-AA
700016894
1000BASE-SX
applications
IEEE
is
a
registered
trademark
of
The
Institute
of
Electrical
and
Electronics
Engineers,
Inc
.
EIA
is
a
registered
trademark
of
The
Electronic
Industries
Association
.
IEC
is
a
registered
trademark
of
The
International
Electrotechnical
Commission
.
UL
is
a
registered
trademark
of
Underwriters
Laboratories,
Incorporated
.
Telcordia
Technologies
is
a trademark
of
Telcordia
Technologies,
Inc
.
ISO
is
a
registered
trademark
of
The
International
Organization
for
Standardization
.
For
additional
information,
contact your
Agere
Systems
Account
Manager
or
the
following
:
INTERNET
:
http
://www
.agere
.com
E-MAIL
:
docmaster0agere
.com
N
.
AMERICA
:
Agere
Systems
Inc
.,
555
Union
Boulevard,
Room
30L-15P-BA,
Allentown,
PA
18109-3286
1-800-372-2447,
FAX
610-712-4106
(In
CANADA
:
1-800553-2448,
FAX
610-712-4106)
ASIA
:
Agere
Systems
HongKong
Ltd
.,
Suites
3201
&
3210-12,
32/F,
Tower
2,
The
Gateway,
Harbour
City,
Kowloon
Tel
.
(852)
3129-2000,
FAX
(852)
3129-2020
CHINA
:
(86)
21-5047-1212
(Shanghai),
(86)
10-6522-5566
(Beijing),
(86)
755-695-7224
(Shenzhen)
JAPAN
:
(81)
3-5421-1600
(Tokyo),
KOREA
:
(82)
2-767-1850
(Seoul),
SINGAPORE
:
(65)
778-8833,
TAIWAN
:
(886)
2-2725-5858
(Taipei)
EUROPE
:
Tel
.
(44)
7000
624624,
FAX
(44)
1344
488045
Agere
Systems
Inc
.
reserves
the
right
to
make
changes
to
the
product(s)
or
information
contained
herein
without
notice
.
No
liability is
assumed
as a
result
of
their
use or
application
.
NetLight
is
a
registered
trademark
of
Agere
Systems
Inc
.
Copyright
0
2002
Agere
Systems
Inc
.
All
Rights
Reserved
s
y
s
tems
February
2002
a
"
e
re
DS01-310OPTO
8
AdLib OCR Evaluation
