DtSheet

NEC NX8503CG-CC

NEC's 1550 nm
InGaAsP MQW DFB LASER DIODE NX8503BG-CC
IN COAXIAL PACKAGE NX8503CG-CC
FOR 155 Mb/s AND 622 Mb/s APPLICATIONS
FEATURES
DESCRIPTION
• PEAK EMISSION WAVELENGTH:
λP = 1550 nm
NEC's NX8503BG-CC and NX8503CG-CC are 1550 nm Coaxial Module DFB (Distributed Feed-Back) laser diode with
single mode fiber. Multiple Quantum Well (MQW) structure is
adopted to achieve stable dynamic single longitudinal mode
operation over a wide temperature range of -10 to +85°C.
• OPTICAL OUTPUT POWER:
Pf = 2.0 mW
• LOW THRESHOLD CURRENT:
The module is ideal as a light source for Synchronous Digital
Hierarchy (SDH) system, STM-1, log-haul L-1.2, L-1.3 and
STM-4, long-haul L-4.2, L-4.3 ITU-T recommendations.
ITH = 15 mA @ TC = 25°C
• InGaAs MONITOR PIN-PD
• WIDE OPERATING TEMPERATURE RANGE:
TC = -10 to +85°C
• WITH SC-UPC CONNECTOR
• BASED ON TELCORDIA RELIABILITY
ELECTRO-OPTICAL CHARACTERISTICS (TC = -10 to +85°C, unless otherwise specified)
PART NUMBER
SYMBOLS
Pf
PARAMETERS AND CONDITIONS
Optical Output Power from Fiber, CW
VOP
Operating Voltage, Pf = 2.0 mW
ITH
Threshold Current
TC = +25°C
NX8300BG-CC, NX8300CG-CC
UNITS
MIN
TYP
MAX
mW
2.0
V
1.1
1.6
mA
mA
15
25
50
2
PTH
Threshold Output Power, IF = ITH
µW
IMOD
Modulation Current
Pf = 2.0 mW, TC = 25°C
Pf = 2.0 mW
mA
mA
15
13
25
40
60
W/A
W/A
dB
0.050
0.030
-3
0.080
0.130
0.150
∆ηd
Pf = 2.0 mW, TC = 25°C
Pf = 2.0 mW
Temperature Dependence of Differential Efficiency,
ηd (@ TC °C)
∆ηd = 10 log
ηd (@ 25 °C)
Kink
Kink, Pf = Up to 2.4 mW (Refer to defenitions)
ηd
λp
∆λ/∆T
∆λ
SMSR
Differential Efficiency
Peak Emission Wavelength, Pf = 2.0 mW
Temperature Dependence of Peak Emission Wavelength
Spectral Width, Pf = 2.0 mW, -20 dB down width
Side Mode Suppression Ratio, Pf = 2.0 mW
100
-1.6
%
nm
±20
1550
1570
nm/°C
0.1
0.12
nm
0.3
1.0
dB
1530
30
Cut-off Frequency, -3 dB, VR = 5 V, Pf = 2.0 mW
tr
Rise Time, 10 to 90%, Ppk = 2.0 mW, IF = ITH
ns
0.5
tf
Fall Time, 90 to 10%, Ppk = 2.0 mW, IF = ITH
ns
0.5
Im
Monitor Current, VR = 5 V, Pf = 2.0 mW
µA
ID
Monitor Dark Current
nA
nA
VR = 5 V, TC = 25 °C
VR = 5 V
GHz
40
fc
2.0
200
1000
1.0
10
2000
50
500
continued next page
California Eastern Laboratories
NX8503BG-CC, NX8503CG-CC
ELECTRO-OPTICAL CHARACTERISTICS cont. (TC = -10 to +85°C, unless otherwise specified)
PART NUMBER
NX8503BG-CC, NX8503BG-CC
SYMBOLS
PARAMETERS AND CONDITIONS
UNITS
Ct
Monitor PD Terminal Capacitance, VR = 5 V, f = 1 MHz
pF
Linearity, VR = 5 V, Pf = 0.2 to 2.0 mW (Refer to defenitions)
%
LINm
γ
RIN
Tracking Error, Im = const. (Refer to defenitions)
Relative Intensity Noise, Ref = -14dB
ABSOLUTE MAXIMUM RATINGS1
(TC = -20 to +85°C, unless otherwise specified)
SYMBOLS
UNITS
RATINGS
IF
Forward Current of LD
PARAMETERS
mA
150
Pf
Optical Output Power
from Fiber
mW
5.0
VR
Reverse Voltage of LD
V
2.0
2.0
IF
Forward Current of PD
mA
VR
Reverse Voltage of PD
V
15
TC
Operating Case Temperature
°C
-10 to +85
TSTG
Storage Temperature
°C
-40 to +85
TSLD
Lead Soldering
Temperature (10 s)
°C
260
%
85
RH
Relative Humidity
(non-condensing)
Note:
1. Operation in excess of any one of these parameters may result
in permanent damage.
MIN
TYP
1.0
MAX
20
10
dB
0.5
dB/Hz
-135
1.0
NX8503BG-CC, NX8503CG-CC
PARAMETER DEFINITIONS
Kink : kink
Pf
(mW)
IF - Pf
2.4
dPo
dPK
PK
IF - ηd
0
kink =
|dPK|
x 100 [%]
PK
dPK = dPo MAX
PK ≤ 2.4 (mW)
IF
(mA)
Linearity : LINm
Pf
(mW)
2.0
LINm =
PK
|dPL|
x 100 [%]
PL
dPL = dPo MAX
0.2 < PL < 2.0 (mW)
PL
dPL
dPo
0.2
0
Im
(mA)
Tracking Error : γ
Pf
(mW)
TC = 25°C
γ = |10 log
2.0
Pf
2.0
| [dB]
TC = -10 to +85C
Pf
0
Im
Im
(mA)
TYPICAL CHARACTERISTICS (TC = 25 ºC, Unless otherwise specified)
OPTICAL OUTPUT POWER vs.
FORWARD CURRENT
OPTICAL OUTPUT POWER vs.
MONITOR CURRENT
3.0
Optical Output Power PI (mW)
+85
2.0
1.0
0
20
40
TC = –10 ºC
+25 ºC
ºC
ºC
+25
-10
TC =
Optical Output Power PI (mW)
ºC
3.0
60
80
Forward Current IF (mA)
100
2.0
+85 ºC
1.0
0.0
0.4
0.8
Monitor Current IF (mA)
1.2
NX8503BG-CC, NX8503CG-CC
TYPICAL CHARACTERISTICS (TC = 25 ºC, Unless otherwise specified)
FORWARD CURRENT vs.
FORWARD VOLTAGE
OPERATING CURRENT AND THRESHOLD CURRENT
vs. CASE TEMPERATURE
100
50
Ith
10
1
-40
Forward Current IF (mA)
Operating Current Iop (mA)
Threshold Curent Ith (mA)
Iop @ Pr = 2 mW
-20
0
20
40
100
80
60
40
30
20
10
0
0.5
Case Temperature Tc (ºC)
TEMPERATURE DEPENEDENCE OF
DIFFERNTIAL EFFICIENCY
Peak Emission Wavelenght ηp (nm)
Differemtial Effieciency ηd (W/A)
0.06
-20
0
20
40
60
80
100
Case Temperature Tc (ºC)
10
0
-10
-20
-30
-40
-50
-60
1555.0
1560
1555
1550
1545
-40
-20
0
20
40
60
80
Case Temperature Tc (ºC)
SPECTRUM
Relative Intensity (dB)
2.5
2.0
1565
0.12
-70
1545.0
1.5
TEMPERATURE DEPENEDENCE OF
PEAK EMISSION WAVELENGHT
0.18
0.00
-40
1.0
Forward Voltage VF (V)
1565.0
Wavelength λ (nm)
REMARK The graphs indicate nominal charachteristics.
100
NX8503BG-CC, NX8503CG-CC
OUTLINE DIMENSIONS (Units in mm)
NX8503CG-CC
NX8503BG-CC
Optical Fiber (SMF)
Length: 0.5 m
With SC Connector
Optical Fiber (SMF)
Length: 0.5 m
With SC Connector
ø0.9
ø7.0±0.2
ø0.9
ø7.0±0.2
6.0
6.0
18.3±1.0
15.0
25.5±1.0
8.0±0.3
0.5±0.3
4.0±0.2 2.2
ø2.2
28.3±1.0
8.0±0.3
3.2
7.3
0.5
1.2±0.2
ø0.45±0.05
20.0±1.0
ø0.45±0.05
19.5±1.0
12.7±0.2
17.0±0.2
16.0
PIN CONNECTIONS
4
7.2±0.3
3.7±0.3
3
2
2
1
3
LD
CASE
4
1
PD
7.0±0.2
CASE
3
1.0±0.1
P.C.D. = ø2.0
4–R1.25±0.2
2
PD
1
P.C.D. = ø2.0
2–ø2.5
8.5±0.2
4
LD
PIN CONNECTIONS
12.0±0.15
OPTICAL FIBER CHARACTERISTICS
PARAMETER
SPEC
Mode Field Doameter
9.5±1
Cladding Diameter
125±2
Maximum Cladding Noncircularity
2
Maximum Core/Cladding Concentricity
1.6
Outer Diameter
0.9±0.1
Cut-off Wavelength
1100 to 1270
Minimum Fiber Bending Radius
30
Fiber Length
500±50 MIN
Flammability
UL1581 VW-1
ORDERING INFORMATION
UNIT
µm
µm
%
%
mm
nm
mm
mm
PART NUMBER AVAILABLE CONNECTOR FLANGE TYPE
NX8503BG-CC
With SC-UPC Connector Flat Mount Flange
Vertical Mount
NX8503CG-CC
Flange
35±2 mm
8.99±0.5 mm
SC-UPC Connector
Fiber Length: 500±50 mm
Life Support Applications
These NEC products are not intended for use in life support devices, appliances, or systems where the malfunction of these products can reasonably be expected
to result in personal injury. The customers of CEL using or selling these products for use in such applications do so at their own risk and agree to fully indemnify
CEL for all damages resulting from such improper use or sale.
03/03/2003
A Business Partner of NEC Compound Semiconductor Devices, Ltd.
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