LNFE01YBA series are the optical communication laser diodes for DWDM
(Dense Wavelength Division Multiplexing) system. The wave length is from
1529.55 nm to 1560.61 nm with 100 GHz interval, enabling high dense data
transfer.
2.54
19
φ0.9
8.9
12.7
6
±1
6
±1
I
Features
8
20.83
26
30
0.2
φ5.6
4-φ2.2
G
Supports 40 ITU-grid wavelengths
G
Built-in Peltier thermoelectric cooler (TEC)
G
Wide operating temperature range. (Casing : -20 to +85°C)
5.6
0.5
Butterfly-type 14-pin
I
Applications
G
CATV
G
Internet
I
Block Diagram
#7
Cooler
PD
#1
LD
Case
No.
1
2
3
4
5
6
7
Function
Thermistor
Thermistor
LD bias (cathode)
PD anode
PD cathode
Cooler anode
Cooler cathode
No.
8
9
10
11
12
13
14
Function
GND
GND
NC
LD anode , GND
LD RF
LD anode , GND
NC
#8
#14
¶ The products and specifications are subject to change without any notice. Please ask for the latest product standards to guarantee the satisfaction of your product requirements.
1 Kotari Yakemachi, Nagaokakyo, Kyoto, 617-8520 Japan
E00102AE
Tel. (075) 951-8151
http://www.panasonic.co.jp/semicon/
New publication, effective from Sep. 18. 2001.
5
I
Absolue Maximum Rating
Parameter
LD forward current
LD reverse voltage
PD reverse voltage
PD forward current
Operating temperature (case)
Storage temperature
TEC voltage
TEC current
Symbol
IF
VR(LD)
VR(PD)
IF(PD)
T
C
Tstg
V
C
I
C
TLD=Top
Condition
Rating
250
2
10
1
-20 to 85
-40 to 85
4
1.8
Unit
mA
V
V
mA
°C
°C
V
A
I
Optical & Electrical Characteristics
Parameter
Threshold current
Operating current
Operating voltage
Slope effciency
Fiber output power
Peak wavelength
Wavelength drift
Wavelength temperature
tuning coefficient
Side-mode suppression ratio
Operating tamperature(LD)
PD Dark current
PD Current
Spectral linewidth
Laser chirp
Optical isolation
Optical return loss
Optical modulation depth
Note
*1)
η=10/{Iop-Ith(25°C)}
SMSR
Top
Id
Im
∆v
FM
ISO
ORL
OMD
VR(PD)=5 V
IF=Iop,VR(PD)=5 V
IF=Iop,CW,FWHM
IF=Iop,fm=500 MHz
TLD=25 °C,λc=1550 nm
IF=Iop
IF=Iop
IF=Iop
30
15
50
35
40
9
10
35
0.2
3000
6
100
11
dB
°C
µA
µA
MHz
MHz/mA
dB
dB
%
Symbol
Ith
Iop
Vop
η
*1
Pf
λp
∆λ
∆λ/∆TLD
IF=Iop,TLD=Top
IF=Iop,TLD=Top
T
C
= 0 to 60 °C
IF=Iop
0.07
Condition
TLD=25 °C
BOL,Pf=10 mW
min
0.10
10
typ
(See sheet No.4)
0.05
nm
nm/°C
max
40
150
3
Unit
µΑ
mA
V
mW/mA
mW
I
Optical & Electrical Characteristics(Continue)
Parameter
Composite second order
distortion
Composite triple order
distortion
Carrier to noise ratio
Thermistor resistance
Cooler capacity
TEC voltage
TEC current
CNR
Rth
∆T
V
C
I
C
IF=Iop,see notes2,3and 4
T
C
=25°C
T
C
=85°C
∆T=70°C,Iop
∆T=70°C,Iop
57
9.5
75
10
10.5
3.5
1.5
dB
kΩ
°C
V
A
CTB
IF=Iop,see notes2,3and 4
-68
dBc
Symbol
CSO
Condition
IF=Iop,see notes2,3and 4
min
typ
max
-53
Unit
dBc
Notes
*2) Link budget 15 dB (passive) with -5 dBm received optical power.
*3) Receiver equivalent input current noise density : 7 pA/√ Hz. Photodetector resposivity : 0.9 A/W.
*4) Eight channel CW measurement : channel frequencies set at 553.25, 559.25, 565.25, 571.25, 577,25, 583.25,
589.25, and 595.25MHz. CNR and CTB measured at 577.25MHz. OSC measured at 42 MHz.
Six channel CW measurement : Channel frequencies set at 7, 13, 19, 25, 31 and 37MHz.
CNR measured at 7 MHz. CTB measured at 19 MHz. OSC measured at 6 MHz
I
Fiber Pigtail Specification
Parameter
Type
Model-field diameter
Jacket diameter
Pigtail length
Connector type
Specifications
SM
10 ± 1
0.9
1.25 ± 0.1
SC-APC
µA
mm
m
Unit
I
Wavelength Model No.
Channel No.
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
Frequency (THz)
192.1
192.2
192.3
192.4
192.5
192.6
192.7
192.8
192.9
193.0
193.1
193.2
193.3
193.4
193.5
193.6
193.7
193.8
193.9
194.0
194.1
194.2
194.3
194.4
194.5
194.6
194.7
194.8
194.9
195.0
195.1
195.2
195.3
195.4
195.5
195.6
195.7
195.8
195.9
196.0
Center Wavelenght(nm)
1560.61
1559.79
1558.98
1558.17
1557.36
1556.56
1555.75
1554.94
1554.13
1553.33
1552.52
1551.72
1550.92
1550.12
1549.32
1548.51
1547.72
1546.92
1546.12
1545.32
1544.53
1543.73
1542.94
1542.14
1541.35
1540.56
1539.77
1538.98
1538.19
1537.40
1536.61
1535.82
1535.04
1534.25
1533.47
1532.68
1531.90
1531.12
1530.33
1529.55
Tolerance(nm)
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
± 0.4
Panasonic Model No.
LNFE01YBA021
LNFE01YBA022
LNFE01YBA023
LNFE01YBA024
LNFE01YBA025
LNFE01YBA026
LNFE01YBA027
LNFE01YBA028
LNFE01YBA029
LNFE01YBA030
LNFE01YBA031
LNFE01YBA032
LNFE01YBA033
LNFE01YBA034
LNFE01YBA035
LNFE01YBA036
LNFE01YBA037
LNFE01YBA038
LNFE01YBA039
LNFE01YBA040
LNFE01YBA041
LNFE01YBA042
LNFE01YBA043
LNFE01YBA044
LNFE01YBA045
LNFE01YBA046
LNFE01YBA047
LNFE01YBA048
LNFE01YBA049
LNFE01YBA050
LNFE01YBA051
LNFE01YBA052
LNFE01YBA053
LNFE01YBA054
LNFE01YBA055
LNFE01YBA056
LNFE01YBA057
LNFE01YBA058
LNFE01YBA059
LNFE01YBA060
Caution for Using Laser Diodes
(1) A laser beam is harmful to human eyes. Never look at active laser directly or through lens.
(2) Caution must be exercised in preventing electrostatic damage while handling the laser diode. To ensure
human grounding (via 1 MΩ) , use a conductive mat on the floor, conductive sole shoes, conductive containers,
etc. Always ground the tip of solder iron.
(3) Laser diode can be damaged by abnormal pulses from nearby equipment. For example, fluorescent lamps
should never be turned on/off near laser diodes.
(4) Never exceed the absolute maximum rated values. It is especially important not to exceed the absolute
maximum output even momentarily.
(5) Check the transition characteristics of the entire driving circuit including the power supply. Take appropriate
measures to avoid events such as spike current generated when the power switch is turned on/off which may
exceed the laser diode's maximum rating.
(6) The maximum rated values are set for ambient temperature of 25°C. The maximum allowable optical
power output will drop as the temperature rises, resulting in limitation of operating range. Allowance must be
made for this phenomenon.
(7) We recommend keeping the actual design targets below 2/3 the maximum ratings.
(8) Appropriate protective circuitry must be provided in each laser circuit.
(9) Attention must be paid to providing adequate means for heat dissipation.
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