a8e
re
systems
NetLightO
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
Clock
Recovery
Data
Sheet
December
2001
.
Wide
dynamic
range
receiver with
InGaAs
PIN
photodetector
Available
in
asmall
form
factor,
plastic
package,
the
1430H5
are
high-performance,
cost-effective
transceivers
for
SONET/SDH
long-reach applications
at
622
Mbits/s
.
Features
.
SONET
OC-12
LR-1/SDH
L4
.1
Compliant
(ITU-T
G
.957
Specifications)
.
Small
form
factor,
RJ-45
size,
multisourced
20-pin
package
. Requires
single
3
.3
V
power
supply
. Clock
recovery
.
Fiber
pigtail
.
Uncooled
1300
nm
laser
transmitter
with
automatic
output
power
control
.
Transmitter
disable
input
. Analog
alarm
outputs
.
LVTTL
signal-detect
output
.
Low
power
dissipation
.
Raised
ECL
(LVPECL)
logic
data
interfaces
.
Operating
case
temperature range
:
-40
°C
to
+85
°C
.
Agere
Systems
Inc
.
Reliability
and
Qualification
Program
for
built-in
quality
and
reliability
Description
The
1430H5-Type
transceiver
is
a
high-speed,
cost-
effective
optical
transceiver
that
is
compliant
with
the
International
Telecommunication
Union
Telecommu-
nication
(ITU-T)
G
.957
specifications
for
use
in
SONET
and
SDH
long-reach
applications
.
The
1430H5
operates
at
the
OC-12/STM-4
rate of
622
Mbits/s
.
The
transceiver
features
Agere
Sys-
tems'
optics
and
is
packaged
in
a
narrow-width
plas-
tic
housing
with
two
1
meter
fiber
pigtails
terminated
with
LC
connectors
.
The
20-pin
package
and
pinout
conform
to
a
multisource
transceiver
agreement
.
The
transmitter
features
differential
LVPECL
logic
level
data
inputs,
a
LVTTL
logic
level
disable
input
.
The
receiver
features
differential
LVPECL
logic level
data
and
clock
outputs,
and
a
LVTTL
logic level
signal-detect
output
.
AdLib OCR Evaluation
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Data
Sheet
December
2001
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
Supply
Voltage
VCC
0 3
.6
V
Operating
Case
Temperature
Range
Tc
-40
85
°C
Storage
Case
Temperature
Range
Tstg
-40
85
°C
Lead
Soldering
Temperature/Time
- -
250/10
°C/s
Operating
Wavelength
Range
I
~,
I
1
.1
I
1
.6
I
nm
Pin
Information
TX
O
20 19 18 17 16
AA1*7A
15
1
.
4
1
.
3
1
*22
11
20-PIN
MODULE
-
TOPVIEW
1
2
3 4
567
RX
O
8
9 10
1-967(F)
.b
Figure
1
.
1430H5-Type
Transceivers,
20-Pin
Configuration,
Top
View
Table
1
.
Transceiver
Pin
Descriptions
Pin
Symbol
Name/Description
Logic
Number
Family
Receiver
MS MS
Mounting
Studs
.
The
mounting
studs
are
provided
for
transceiver
mechani-
NA
cal
attachment
to
the
circuit
board
.
They
may
also
provide
an
optional
con-
nection
of
the
transceiver
to
the
equipment
chassis
ground
.
1
Photode-
Photodetector
Bias
.
This
lead supplies
bias
for
the
PIN
photodetector
diode
.
NA
tector
Bias
2
VEER
Receiver
Signal
Ground
.
NA
3
VEER
Receiver
Signal
Ground
.
NA
4
CLK-
Received
Recovered
Clock
Out
.
The
rising
edge
occurs
at
the
rising
edge
of
LVPECL
the
received
data
output
.
The
falling
edge
occurs
in
the
middle
of
the
received
data
bit
period
.
5
CLK+
Received
Recovered
Clock
Out
.
The
falling
edge
occurs
at
the
rising
edge
LVPECL
of
the
received
data
output
.
The
rising
edge
occurs
in
the
middle
of
the
received
data
bit
period
.
6
VEER
Receiver
Signal
Ground
.
NA
7
VCCR
Receiver
Power
Supply
.
NA
8
SD
Signal Detect
.
LVTTL
Normal
operation
:
logic
one
output
.
Fault
condition
:
logic
zero output
.
9
RD-
Received
DATA
Out
.
No
Internal
terminations
will
be
provided
.
LVPECL
10
I
RD+
I
Received
DATA
Out
.
No
internal
terminations
will
be
provided
. I
LVPECL
2
Agere
Systems
Inc
.
AdLib OCR Evaluation
Data
Sheet
December
2001
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Pin
Information
(continued)
Table
1
.
Transceiver
Pin
Descriptions
(continued)
Pin
Number
Symbol
Name/Description
Logic
Family
Transmitter
11
VCCT
Transmitter
Power
Supply
.
NA
12
VEET
Transmitter
Signal
Ground
.
NA
13 TDIS Transmitter
Disable
.
LVTTL
14
TD+
Transmitter
DATA
In
.
LVPECL
15
TD-
Transmitter
DATA
In
Bar
.
LVPECL
16
VEET
Transmitter
Signal
Ground
.
NA
17
Bmon-
Laser Diode
Bias Current
Monitor-Negative
End
.
The
laser
bias
current
is
accessible
as
a
dc-voltage
by
measuring
the
voltage
developed
across
pins
17
and
18
.
NA
18
BMON+
Laser Diode
Bias Current
Monitor-Positive
End
.
See
pin
17
description
.
NA
19
PMON-
Laser Diode
Optical
Power
Monitor-Negative
End
.
The
back-facet
diode
monitor
current
is
accessible
as
a
dc-voltage
by
measuring
the
voltage
devel-
oped
across
pins
19
and
20
.
NA
20
I
PMON+
I
Laser
Diode
Optical
Power
Monitor-Positive
End
.
See
pin
19
description
.)
NA
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
EIAO
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
1430H5
transceiver
is
±1000
V
.
Application
Information
The
1430
receiver
section
is
a
highly
sensitive
fiber-
optic
receiver
.
Although
the
data
outputs
are
digital
logic
levels
(LVPECL),
the
device should
be
thought
of
as an
analog
component
.
When
laying
out
system
application
boards,
the
1430
transceiver
should
receive
the
same
type
of
consideration
one
would
give
to
a
sensitive
analog
component
.
Printed-Wiring
Board
Layout
Considerations
A
fiber-optic
receiver
employs
a
very
high
gain,
wide
bandwidth
transimpedance
amplifier
.
This
amplifier
detects
and
amplifies
signals
that
are
only
tens
of
nA
in
amplitude
when
the
receiver
is
operating
near
its
sensi-
tivity
limit
.
Any
unwanted
signal
currents
that
couple
into
the
receiver
circuitry
cause a
decrease
in
the
receiver's
sensitivity
and
can
also
degrade
the
perfor-
mance
of
the
receiver's
signal
detect
(SD)
circuit
.
To
minimize
the
coupling
of
unwanted
noise
into
the
receiver,
careful
attention
must
be
given
to
the
printed-
wiring
board
.
At a
minimum,
a
double-sided
printed-wiring
board
(PWB)
with
a
large
component-side
ground
plane
beneath
the
transceiver
must
be
used
.
In
applications
that
include
many
other
high-speed
devices,
a
multi-
layer
PWB
is
highly
recommended
.
This
permits
the
placement
of
power
and
ground on
separate
layers,
which
allows
them
to
be
isolated
from
the
signal
lines
.
Multilayer
construction
also
permits
the
routing
of
sen-
sitive
signal
traces
away
from
high-level,
high-speed
signal
lines
.
To
minimize
the
possibility
of
coupling
noise
into
the
receiver
section,
high-level,
high-speed
signals
such
as
transmitter
inputs
and
clock
lines
should
be
routed
as
far
away
as
possible
from
the
receiver
pins
.
Agere
Systems
Inc
.
3
AdLib OCR Evaluation
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Data
Sheet
December
2001
Application
Information
(continued)
Noise
that
couples
into
the
receiver
through
the
power
supply
pins
can
also
degrade
performance
.
It
is
recommended
that
the
pi
filter,
shown
in
Figure
3,
be
used
for
both
the
transmitter
and
receiver
power
supplies
.
Data,
Clock,
and
Signal Detect
Outputs
The
data,
clock,
and
signal
detect
outputs
of
the
1430
transceiver
are
driven
by
open-emitter
NPN
transistors,
which
have
an
output
impedance
of
approximately
7
52
.
Each
output
can
provide
approximately
50
mA
maxi-
mum
current
to
a
50
52,
load
terminated
to
Vcc-
2
.0
V
.
Due
to
the
high
switching
speeds
of
ECL
outputs,
transmission
line
design
must
be used
to
interconnect
components
.
To
ensure
optimum
signal
fidelity,
both
data
outputs
(RD+/RD-)
and
clock
outputs
(CLK+/CLK-)
should
be
terminated
identically
.
The
sig-
nal lines
connecting
the
data
clock
outputs
to
the
next
device
should
be
equal
in
length
and
have matched
impedances
.
Controlled
impedance
stripline
or micro-
strip
construction
must
be used
to
preserve
the
quality
of
the signal
into
the
next
component
and
to
minimize
reflections
back
into
the
receiver,
which
could
degrade
its
performance
.
Excessive
ringing
due
to
reflections
caused
by
improperly
terminated
signal
lines
makes
it
difficult
for
the
component
receiving
these
signals
to
decipher
the
proper
logic
levels
and
can
cause
transi-
tions
to
occur
where
none
were
intended
.
Also,
by
min-
imizing
high-frequency
ringing,
possible
EMI
problems
can be avoided
.
The
signal-detect
output
is
LVTTL
logic
.
A
logic
low
at
this
output
indicates
that
the
optical
signal
into
the
receiver
has
been
interrupted
or
that
the
light
level
has
fallen
below
the
minimum
signal
detect
threshold
.
This
output
should
not
be
used
as an
error rate
indicator,
since
its
switching
threshold
is
determined
only
by
the
magnitude
of
the
incoming
optical
signal
.
Transceiver
Processing
The
transceiver
and
plug
can
withstand
normal
wave
soldering
and
aqueous
spray
cleaning
processes
.
However,
the
transceiver
is
not hermetic,
and
should
not
be
subjected
to
immersion
in
cleaning
solvents
.
The
transceiver
case
should
not
be
exposed
to
temper-
atures
in
excess
of
125
°C
.
The
fiber
pigtail
cannot
exceed
85
°C
.
The
transceiver
pins
can
be
wave
sol-
dered
at
250
°C
for
up
to
10
seconds
.
Transceiver
Optical
and
Electrical
Characteristics
Table 2
.
Transmitter
Optical
and
Electrical
Characteristics
(Tc =
-40
°C
to
+85
°C
;
Vcc
= 3
.135
V-3
.465
V)
Parameter
Symbol
Min
Max
Unit
Average
Optical
Output
Power
L-4
.1
Po
-3
.0
2
.0
dBm
Optical
Wavelength
L-4
.1
kc
1280 1335
nm
Spectral
Width
AX20
-
1
nm
Side-mode
Suppression
Ratio
SMSR
30
-
dB
Dynamic
Extinction
Ratio
EXT
10
-
dB
Power
Supply
Current
ICCT
-
200
mA
Input
Data
Voltage
:
Low
High
Vii
VIH
Vcc
-
1
.810
Vcc
-
1
.165
Vcc -
1
.475
Vcc -
0
.880
V
V
Transmit
Disable
Voltage
VD
Vcc
-
1
.165
VCC V
Transmit
Enable
Voltage
VEN VEE
VEE
+0
.8
V
Laser
Bias
Voltage
VBIAS
0 0
.70
V
Laser
Back-facet
Monitor
Voltage
I
VBF
I
0
.01
I
0
.20
I
V
4
Agere
Systems
Inc
.
AdLib OCR Evaluation
Data
Sheet
December
2001
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Transceiver
Optical
and
Electrical
Characteristics
(continued)
Table
3
.
Receiver
Optical
and
Electrical
Characteristics
(Tc
=
-40
°C
to
+85
°C
;
Vcc
= 3
.135
V-3
.465
V)
Parameter
Symbol
Min
Max
Unit
Average
Sensitivity
L-4
.1
~
PI
-
-28
dBm
Maximum
Input
Power
L-4
.1~
PMAX
-8
-
dBm
Link
Status Switching
Threshold
:
Decreasing
Light
L-4
.1
Increasing
Light
L-4
.1
LSTD
LSTi
-45
-
-29
-28
.5
dBm
dBm
Link
Status
Hysteresis
HYS
0
.5
6
.0
dB
Power
Supply
Current
ICCR
-
200
mA
Output
Data
Voltage/Clock
Voltage
:
Low
High
VOL
VOH VCC-
1
.86
VCC-1
.025
VCC-
1
.50
VCC-
0
.88
V
V
Signal
Detect
Output
Voltage
:
Low
High
VOLVOH
0
.0
2
.4
0
.8
Vcc
V
V
Clock Duty
Cycle
DC
45
55
Output Clock
Random
Jitter
Jc
-
0
.01
UI
Output Clock
Random
Jitter
Peaking JP
-
0
.1
dB
Clock/Data
Alignment
L-4
.1
(See
Figure
2
.)
TCDA
-0
.2
0
.2
ns
Jitter
Tolerance/Jitter
Transfer
Telcordia
Technologies7m
GR-253-CORE
and
ITU-TG
.958
Compliant
"
For
1
x 10-10
BER
with
an
optical
input
using
223
-
1
PRBS
.
DATAouT
50%
-----~
---------------------------
ii
CLOCKoUT
TCDA
1-725(F)
.b
Figure
2
.
Clock/Data
Alignment
Agere
Systems
Inc
.
5
AdLib OCR Evaluation
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Data
Sheet
December
2001
Qualification
and
Reliability
To
help
ensure
high
product
reliability
and
customer
satisfaction,
Agere
Systems
is
committed
to
an
intensive
qual-
ity
program
that
starts
in
the
design
phase
and
proceeds
through
the
manufacturing
process
.
Optoelectronic
mod-
ules
are
qualified to
Agere
Systems'
internal
standards
using
MIL-STD-883
test
methods
and
procedures
and
using
sampling
techniques
consistent
with
Telcordia
Technologies
requirements
.
The
1430
transceiver
is
required
to
pass
an
extensive
and
rigorous
set
of qualification
tests
.
This
qualification
program
fully
meets
the
intent
of
Telcordia
Technologies
reliability
practices
GR-468-CORE
requirements
.
In
addition,
the
design,
development,
and
manufacturing
facilities
of
Agere
Systems'
Optoelectronics
unit
have
been
certified
to
be
in
full
compliance
with
the
latest
ISO®-9001
quality
system
standards
.
Electrical
Schematic
BMor-
BMoN+
Pnnor-
PnnoN+
17 18 19 20
15
k52
15
11Q1
10
52
40092
VEET
15
k52
15
kQ
TD-
TRANSMITTER
,
10
DRIVER
TD+
TDis
VCCT
SFF
TRANSCEIVER
VCCR
VPD
RD+
RECEIVER
RD-
POST- CLK+
AMPLIFIER/
CDR
CLK-
SD
VEER
Notes
:
Li
= L2 =
1
RH-4
.7
RH*
C1=C2=10nFt
C3
=4
.7
RF-10
RF
C4=C5=4
.7RF-10RF
*
Ferrite
beads
can
be
used
as
an
option
.
t
For
all
capacitors,
MLC
caps
are
recommended
.
Figure 3
.
Power
Supply
Filtering
for
the
Small
Form
Factor
Transceiver
12,16
15
14
13
11
VCC
7
IC4 IC5
Li
T
J_
1
=C2=C3
=C1
10
2,3,6
1-968(F)
.d
6
Agere
Systems
Inc
.
AdLib OCR Evaluation
Data
Sheet
December
2001
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Application
Schematics
Vcc
(+3
.3
V)
Vcc
(+3
.3
V)
A
.
Transmitter
Interface
(LVPECL
to
LVPECL)
Vcc
(+3
.3
V)
Vcc
(+3
.3
V)
B
.
Receiver
Interface
(LVPECL
to
LVPECL)
1-970(F)
Figure
4
.
3
.3
V
Transceiver
Interface
with
3
.3
V
ICs
Agere
Systems
Inc
.
7
AdLib OCR Evaluation
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Data
Sheet
December
2001
Outline
Diagrams
Package
Outline
Dimensions
are
in
inches
and
(millimeters)
.
u
v
v
v v
v
e
a
m
1430
TRANSCEIVER
0
B
D
B
1
.474
1
~
~
(37
.44)
1
.
0)_
_(
1
.907
T
(12
.0)
UUUUUUUUUU
0
.014
(0
.36)
0.018
(0 .46)
-SH
If
0
.040
(1
.02)
jr
~
I
0
.125
(3.17)
f
0
.385
(9.78)
(2
.92)
0
.070
(1
.78)
r
0
.350
(8
.89
0
.299
(7.59)
o
aoooa o o
~
$o
O
O
w
0
_
I
y
is
a
"
Dimension
does
not
comply
with
multisource
agreement
.
~0
.512~
I
_
(13
.00)
'
I
1-1086
8
Agere
Systems
Inc
.
AdLib OCR Evaluation
Data
Sheet
December
2001
NetLight
1430H5-Type
SONET/SDH
Long-Reach
Transceivers
with
ClockRecovery
Outline
Diagrams
(continued)
Printed-Wiring
Board
Layout
Dimensions
are
in
inches
and
(millimeters)
.
(0
.11
(2x)
QS
2
.29
MAX-
(0
.090)
AREA
FOR
EYELETS
3
.00
(0
.118)
6
.00
(0
.236)
3
.08
(0
.121)
2
.00
(0.79)
(2x)
QS
2
.29
MAX
2
.01
(0
.090)
(0
.79)
7
.59
(2x) QS
1
.4
t
0
.1
NOTE
1
(0
.055
t0
.004)
}
8
0
.00
A
4
.57
8
.89
(0
.1
.80)
(0
.350)
r
(9x)
1
.78J
(0
.070)
1
(2x)
0
0
.81
t 0
.1
(0
.032
t 0
.004)
}
8
0
.00
A
(0
.140)
~(4x
_VP
)
QS
1
.4
t
0
.1
NOTE
2
)~1
(0 .055
t0
.004)
)
.376-
)
'
(
0400
)
}
8
0
.00
A
NOTES
:
1
.
HOLES
FOR
MOUNTING
STUDS
MUST
BE
TIED
TO
CHASSIS
GROUND
.
2
.
HOLES
FOR
HOUSING
LEADS
MUST
BE
TIED
TO
SIGNAL
GROUND
.
1-1271
F
"
The
hatched
areas
are
keep-out
areas
reserved
for
housing
standoffs
.
No
metal
traces
of
ground
connection
in
keep-out
area
.
t
Twenty-pin
module
shown
;
10-pin
module
requires only
16
PWB
holes
.
Agere
Systems
Inc
.
9
AdLib OCR Evaluation
NetLight
1430H5-Type
SONET/SDH
Data
Sheet
Long-Reach
Transceivers
with
ClockRecovery
December
2001
Laser
Safety
Information
Class
I
Laser
Product
FDA/CDRH
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
IECO
60825-1
:1993
.
The
transceiver
has
been
classified
with
the
FDA
under
accession
number
8720009
.
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
.
8
.8
gm/1 25
gm
single-mode
fiber
pigtails
and
connector
Wavelength
=
1310
nm
Maximum
power
=
1
.6
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
.
Unterminated
optical
connectors
may
emit
laser
radiation
.
Do
not
view
with
optical
instruments
.
Ordering
Information
Description
Device
Code
Comcode
2x10
Single-mode
Transceiver
for
OC-12/STM-4
Long-reach
(155
Mbits/s) with
Fiber
Pigtails
and
LC
Connector
1430H5LL
108455072
EIA
is
a
registered
trademark
of
The
Electronic Industries
Association
.
Telcordia
Technologies
is
a trademark
of
Telcordia
Technologies,
Inc
.
ISO
is
a
registered
trademark
of
The
International
Organization
for
Standardization
.
IEC
is
a
registered
trademark
of
the
International
Electrotechnical
Commission
.
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
02001
Agere
Systems
Inc
.
All
Rights
Reserved
S S
tems
Printed
in
U
.S .A
.
December
2001 a ere
y
DS02-078METR
8
AdLib OCR Evaluation
