Mitsubishi MF-27WTA-M01MA073 2.7gb/s multi-rate wdm transmitter Datasheet

Mitsubishi Electric Corp.
Datasheet
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Description
The MF-27WTA transmitters are designed
for use in transmission systems and
high-speed
data
communication
applications. This transmitter operates
from 155Mb/s up to 2.7Gb/s data rate.
This device has a cooled DFB Laser
Diode and ATC function for 100GHz grid
WDM applications.
„
Features
• Data rates 155Mb/s to 2.7Gb/s
• ITU-T/SONET compliant STM-16 / OC-48
• Two adjacent wavelength selectable at 100GHz WDM spacing of C-Band
• Transmission target distance up to 90km / 160km (1800ps/nm / 3200ps/nm)
• Optical average power output +7dBm typical
• Operating case temperature range: -5 to +70 °C
• With Cooled-DFB-LD direct modulation
• Clocked-mode (using D-FF) and Non-clocked-mode available
• +5V , +3.3V power supply
• 24pin package
• Package size 73 × 51 × 12.7 mm
• Multi-source WDM Transmitter
„
Applications
• Telecommunications ITU-T/SONET STM-16/OC-48
• Metropolitan area networks
• High speed data communications
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 1 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Ordering Information
Type number
Output Power
MF-27WTA-M01MAxxx
MF-27WTA-M02MAxxx
Type number for sample
MF-27WTA-M0199999*
MF-27WTA-M0299999*
+7dBm ave.
(10mW peak)
Output Power
+7dBm ave
(10mW peak)
Class
Target
distance
L-16.2
90 km
U-16.2
160 km
Class
Target
distance
L-16.2
90 km
U-16.2
Optical
connector
Wavelength code
(xxx)
MU / PC
See wavelength
table
Optical
connector
Note
MU / PC
for evaluation
purpose only
160 km
*:Please contact MITSUBISHI sales office for detail.
„
Wavelength table
Unit : nm
Code
W a v e le n g th 1
W a v e le n g th 2
Code
W a v e le n g th 1
W a v e le n g th 2
Code
W a v e le n g th 1
W a v e le n g th 2
007
009
011
013
015
017
019
021
023
025
027
029
031
033
035
1 5 2 8 .7 7
1 5 2 9 .5 5
1 5 3 0 .3 3
1 5 3 1 .1 2
1 5 3 1 .9 0
1 5 3 2 .6 8
1 5 3 3 .4 7
1 5 3 4 .2 5
1 5 3 5 .0 4
1 5 3 5 .8 2
1 5 3 6 .6 1
1 5 3 7 .4 0
1 5 3 8 .1 9
1 5 3 8 .9 8
1 5 3 9 .7 7
1 5 2 9 .5 5
1 5 3 0 .3 3
1 5 3 1 .1 2
1 5 3 1 .9 0
1 5 3 2 .6 8
1 5 3 3 .4 7
1 5 3 4 .2 5
1 5 3 5 .0 4
1 5 3 5 .8 2
1 5 3 6 .6 1
1 5 3 7 .4 0
1 5 3 8 .1 9
1 5 3 8 .9 8
1 5 3 9 .7 7
1 5 4 0 .5 6
037
039
041
043
045
047
049
051
053
055
057
059
061
063
065
1 5 4 0 .5 6
1 5 4 1 .3 5
1 5 4 2 .1 4
1 5 4 2 .9 4
1 5 4 3 .7 3
1 5 4 4 .5 3
1 5 4 5 .3 2
1 5 4 6 .1 2
1 5 4 6 .9 2
1 5 4 7 .7 2
1 5 4 8 .5 1
1 5 4 9 .3 2
1 5 5 0 .1 2
1 5 5 0 .9 2
1 5 5 1 .7 2
1 5 4 1 .3 5
1 5 4 2 .1 4
1 5 4 2 .9 4
1 5 4 3 .7 3
1 5 4 4 .5 3
1 5 4 5 .3 2
1 5 4 6 .1 2
1 5 4 6 .9 2
1 5 4 7 .7 2
1 5 4 8 .5 1
1 5 4 9 .3 2
1 5 5 0 .1 2
1 5 5 0 .9 2
1 5 5 1 .7 2
1 5 5 2 .5 2
067
069
071
073
075
077
079
081
083
085
087
089
091
093
1 5 5 2 .5 2
1 5 5 3 .3 3
1 5 5 4 .1 3
1 5 5 4 .9 4
1 5 5 5 .7 5
1 5 5 6 .5 5
1 5 5 7 .3 6
1 5 5 8 .1 7
1 5 5 8 .9 8
1 5 5 9 .7 9
1 5 6 0 .6 1
1 5 6 1 .4 2
1 5 6 2 .2 3
1 5 6 3 .0 5
1 5 5 3 .3 3
1 5 5 4 .1 3
1 5 5 4 .9 4
1 5 5 5 .7 5
1 5 5 6 .5 5
1 5 5 7 .3 6
1 5 5 8 .1 7
1 5 5 8 .9 8
1 5 5 9 .7 9
1 5 6 0 .6 1
1 5 6 1 .4 2
1 5 6 2 .2 3
1 5 6 3 .0 5
1 5 6 3 .8 6
note : These values are center wavelengths. All values are referred to vacuum.
When WSC pin is open (or low) module outputs wavelength 1.
When WSC pin is high module outputs wavelength 2.
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 2 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Block Diagram
LD Module
Integrated device
VCC
VCC
LD
PD
OPT.OUT
Cooler
Sensor
SELC
DI+
A.T.C
Driver IC
DICKI+
WSC
TDA
BACK(+)
CKIModulation
A.P.C
LDA
ref
Control
„
SDC
Absolute Maximum Ratings
Stress below listed absolute maximum rating may cause permanent damage to the module.
This is a stress only and functional operation of the module is not implied at these or any other conditions
in excess of those given in the operational sections of this data sheet.
Exposure to Absolute Maximum Rating for extended periods may affect module reliability.
Parameter
Operating Case Temperature Range
Operating Relative Humidity
Storage temperature
Supply Voltage
Supply Voltage
Input Clock/Data DC Voltage
Input Clock/Data Amplitude
Input Clock/Data Amplitude
SDC, SELC, WSC Input Voltage
Minimum Fiber Bend radius
Lead Soldering Temperature
Conditions
note 1
No condensation
allowed
No condensation
allowed
Single-end
Differential
10 sec max
Symbol
Tc
min
-5
max
+70
unit
°C
RHop
5
85
%
Tstg
-40
°C
Vcc
Vtec
-
-0.3
-0.3
0
-0.3
30
-
+70
(note 2)
+6.0
+3.65
Vcc
2
1
Vcc
250
V
V
V
Vpp
Vpp
V
mm
°C
note 1 : Air flow 1.0m/sec (approximately 200 LFPM)
note 2 : +85°C max is acceptable for 72hours.
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 3 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Optical characteristics
All parameters are specified over the operating case temperature.
Measurement conditions are at NRZ PN223-1 and 50% duty cycle data signal.
Parts Number
condition
MF-27WTA-M01MAxxx
MF-27WTA-M02MAxxx
min.
min.
SDH/SONET
typ.
max.
L-16.2 / LR-2
typ.
max.
U-16.2
units
-
Center wavelength
note 1
1528.77
-
1563.86
1528.77
-
1563.86
nm
Wavelength deviation
BOL
-50
-
+50
-50
-
+50
pm
Wavelength deviation
EOL
-100
-
+100
-100
-
+100
pm
Optical rise/fall time
20/80%
-
-
170
-
-
170
psec
Optical source
-
Optical output
average power (BOL)
-
+6
+7
+8
+6
+7
+8
dBm
Shutdown optical power
-
-
-
-40
-
-
-40
dBm
note 2
-
0.3
1
-
0.3
1
nm
SMSR
-
30
-
-
30
-
-
dB
Extinction ratio
-
8.2
-
-
8.2
-
-
dB
Dispersion
-
1800
-
-
3200
-
-
ps/nm
Dispersion penalty
-
-
-
2
-
-
2
dB
Return loss
-
-
-
-24
-
-
-24
dB
Spectral width
SLM
SLM
-
note 1 : Wavelength is according to ITU-T G.692; 100GHz grid( +/- 0.1nm). See wavelength table.
note 2 : Based on maximum width of center wavelength peak.(measured 20 dB down
from maximum amplitude under modulation condition PN223-1).
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 4 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Electrical characteristics
All parameters are specified over the operating case temperature.
Measurement conditions are at NRZ PN223-1 and 50% duty cycle data signal.
Parameters
Cond
Symb
Min
Typ
Max
Unit
Positive supply voltage
note 3
VCC
4.75
5
5.25
V
Positive supply current
-
ICC
-
-
400
mA
TEC supply voltage
note 3
VTEC
3.1
3.3
3.5
V
TEC supply current
-
ITEC
-
-
1200
mA
Total
Single-ended
note 4
note 5
-
-
-
5.2
W
SV
0.4
0.8
1.3
Vpp
-
0.155
-
2.7
Gb/s
SDC,SELC,WSC High level input
Isource=200uA
-
2
-
Vcc
V
SDC,SELC,WSC Low level input
Isink=-10uA
-
0
-
0.8
V
LDA,TDA High level output
Isource=4mA
-
2.7
-
Vcc
V
LDA,TDA Low level output
Isink=-0.5mA
-
0
-
0.5
V
Normalized back face voltage
note 6
-
-
500
-
mV
Normalized back face accuracy
note 6
-
- 10
-
+ 10
%
-
-
Power dissipation
Input sensitivity data & clock
voltage
Bit rate
Logic level inputs
TTL compatible
-
note 3 : Tolerable broadband noise on the power rail is under 50mVpp with frequency range of 50Hz to 1MHz.
note 4 : Internally, AC coupled with 50 Ω termination.
note 5 : If transmitter is used at more than 1.25Gb/s bit rate, Clocked-mode must be selected.
note 6 : Back face voltage is measured with a GND reference and normalized at the beginning of life relative to
the initial optical output power.
For example, a 50% drift in output power correlates to a 50% variation on the detected back face voltage.
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 5 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Pin assignment and description
No.
Symbol
1
TEC_GND
2
7)
Description
Ground for TEC
4)
No.
Symbol
Description
24
VCC
Positive power supply
23
GND
Ground
22
CKI-
False clock input
21
GND
Ground
20
CKI+
19
GND
Ground
18
DI-
False data input
Monitoring for back facet
BACK(+)
PD current
(Analog-output)
3
7)
LDA
Laser Degrade Alarm
5)
(TTL-output)
4
SDC
5
SELC
6
GND
Shut Down Command
3)
(TTL-input)
Clock mode select
2)
(TTL-input)
Ground
4)
True clock input
1)
Temperature Deviation
7
TDA
6,7)
Alarm
(TTL-output)
8
NUC
No user connection
17
GND
Ground
9
NUC
No user connection
16
DI+
True data input
10
WSC
15
GND
Ground
8)
Wavelength Selection
Command (TTL-input)
11
GND
Ground
14
VTEC
TEC supply voltage
12
NIC
No Internal Connection
13
VCC
Positive power supply
1) : The falling edge of CKI+ clock input signal is at the DI+ data eye pattern crossing point.
2) : When open (or low) the module operates in Clocked-mode. When high the module operates in Non-clocked-mode.
3) : When open (or low) the module is in the operating mode. When high the module is in the shut down mode (no optical output power).
4) : TEC_GND must be connected with GND.
5) : When provided a digital alarm indicates that the laser is degraded. The active level is a low level.
6) : Alarm indicating when the laser temperature exceeds the threshold level. The active level is a high level.
7) : BACK(+), LDA and TDA pin cannot drive capacitive load. Acceptable capacitance is less than 50pF.
8) : When open (or low) the module outputs wavelength 1. When high the module outputs wavelength 2. (See wavelength table.)
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 6 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Outline drawing
All Dimensions are in [mm]
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 7 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
„
Reliability reference
- Telcordia GR-468-CORE for device level
„
Laser safety information
- This product is classified Class 1M Laser Product according to IEC 60825-1.
LASER RADIATION
DO NOT VIEW DIRECTLY WITH OPTICAL INSTRUMENTS
CLASS 1M LASER PRODUCT
„
Input / Output interface equivalent circuit
(1) Data / Clock input interface
Transmitter
PECL Device
50ohm line
330ohm
330ohm
50ohm
(2) SDC, SELC, WSC input interface
TTL Device
Transmitter
100kohm
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 8 of 9
MITSUBISHI (OPTICAL DEVICES)
MF-27WTA-M0xMAxxx
2.7Gb/s Multi-rate WDM Transmitter
(3) BACK(+) output interface
LD Module
Vcc
Vcc
PD
LD
(1) High Impedance Interface
(RL > 100kohm)
(2) Capacitive Load Stability < 50pF
BACK(+)
Power Control
This product is sensitive to electrostatic discharge. Take precautions to prevent ESD; use
wrist straps, grounded work surfaces and recognized anti-static techniques when handling.
Mitsubishi reserves the right to change the circuitry and specifications without notice at any time.
No liability is assumed as a result of their use or application. No rights under any patent accompany
the sale of any such product(s) or information.
The end of document
UQ9-04-006 Ed:1.0 Date:22.Dec.2004
Page 9 of 9
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