85 Cel Fiber Optics - Emitters 251
| Part | RoHS | Manufacturer | Fiber Optic Type | Mounting Feature | Maximum Supply Voltage | Terminal Finish | Maximum Operating Temperature | Minimum Operating Temperature | Spectral Width | Fiber Type | Transmission Type | No. of Channels | Connection Type | Nominal Supply Voltage | Supply Current | Body Length/Diameter | Body Width | Rise Time | Package Style (Meter) | Sub-Category | Body Height | Nominal Operating Wavelength | Minimum Supply Voltage | Minimum Operating Wavelength | Communication Standard | Maximum Operating Wavelength | Data Rate | Maximum Fall Time | Minimum Return Loss | Minimum Threshold Current | Additional Features | JESD-609 Code | Built-in Features |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
Renesas Electronics |
DFB LASER MODULE EMITTER |
PANEL MOUNT |
1.6 V |
Tin/Lead (Sn/Pb) |
85 Cel |
-20 Cel |
SMF |
2 |
SC-UPC CONNECTOR |
1.1 V |
.5 mA |
7 mm |
.1 ns |
20.4 mm |
1490 nm |
1488 nm |
1492 nm |
2500 Mbps |
.15 ns |
10 mA |
e0 |
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|
Renesas Electronics |
LASER DIODE EMITTER |
THROUGH HOLE MOUNT |
1.5 V |
Tin/Lead (Sn/Pb) |
85 Cel |
-40 Cel |
1.2 nm |
SMF |
DIGITAL |
1 |
1.1 V |
5.6 mm |
.15 ns |
5.07 mm |
1308 nm |
1297 nm |
1319 nm |
1250 Mbps |
.15 ns |
7 mA |
e0 |
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|
Renesas Electronics |
DFB LASER MODULE EMITTER |
PANEL MOUNT, THROUGH HOLE MOUNT |
85 Cel |
-40 Cel |
9/125, SMF |
DIGITAL |
2 |
SC/UPC CONNECTOR |
7 mm |
1310 nm |
1290 nm |
1330 nm |
40 mA |
ISOLATOR |
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|
Renesas Electronics |
LASER DIODE MODULE EMITTER |
THROUGH HOLE MOUNT |
1.3 V |
85 Cel |
-40 Cel |
1.5 nm |
9/125, SMF |
DIGITAL |
SC/PC CONNECTOR |
1.1 V |
.2 ns |
1310 nm |
1260 nm |
1360 nm |
.3 ns |
25 mA |
IT ALSO OPERATES AT 1290 TO 1330 NM WAVELENGTH, IT ALSO HAVE A SPECTRAL WIDTH OF 1.3 NM, IT ALSO HAVE THRESHOLD CURRENT OF 10 MA |
LASER DIODE, MONITOR PHOTODIODE |
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|
Renesas Electronics |
LASER DIODE EMITTER |
THROUGH HOLE MOUNT |
1.5 V |
Tin/Bismuth (Sn/Bi) |
85 Cel |
-40 Cel |
1.5 nm |
SMF |
1 |
1.1 V |
.2 mA |
4.2 mm |
.7 ns |
5.07 mm |
1530 nm |
1480 nm |
1580 nm |
.7 ns |
20 mA |
e6 |
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|
Renesas Electronics |
LASER DIODE EMITTER |
THROUGH HOLE MOUNT |
1.5 V |
85 Cel |
-40 Cel |
1 nm |
SMF |
DIGITAL |
1.1 V |
5.6 mm |
.15 ns |
CAN |
1312 nm |
1263 nm |
GBE, ITU-T, SDH, STM-1, STM-4, TELCORDIA |
1360 nm |
.15 ns |
10 mA |
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|
|
Renesas Electronics |
DFB LASER MODULE EMITTER |
PANEL MOUNT |
1.6 V |
Tin/Bismuth (Sn/Bi) |
85 Cel |
-20 Cel |
SMF |
2 |
SC-UPC CONNECTOR |
1.1 V |
.5 mA |
7 mm |
.1 ns |
20.4 mm |
1530 nm |
1528 nm |
1532 nm |
2500 Mbps |
.15 ns |
10 mA |
e6 |
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|
Renesas Electronics |
LASER DIODE EMITTER |
THROUGH HOLE MOUNT |
1.5 V |
85 Cel |
-40 Cel |
1 nm |
DIGITAL |
1.1 V |
5.6 mm |
.15 ns |
CAN |
1310 nm |
1290 nm |
ITU-T, STM-1, STM-4 |
1330 nm |
.15 ns |
7 mA |
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|
Broadcom |
DFB LASER MODULE EMITTER |
SURFACE MOUNT |
85 Cel |
-40 Cel |
1 nm |
SMF |
DIGITAL |
FC/PC CONNECTOR |
13.21 mm |
7.37 inch |
.125 ns |
5 mm |
1308 nm |
1280 nm |
OC-48, SONET, STM-16 |
1335 nm |
2500 Mbps |
.125 ns |
2 mA |
PIN PHOTODIODE, ISOLATOR, THERMISTOR |
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|
|
Broadcom |
THROUGH HOLE MOUNT |
2.2 V |
85 Cel |
-40 Cel |
Fiber Optic Emitters |
655 nm |
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|
|
Broadcom |
SURFACE MOUNT |
85 Cel |
20 Cel |
Fiber Optic Emitters |
850 nm |
Fiber optic emitters are electronic devices that are used in fiber optic communication systems to convert electrical signals into optical signals. They are a critical component of fiber optic networks, enabling high-speed data transmission and processing over long distances.
Fiber optic emitters use different technologies to generate the optical signal, including light-emitting diodes (LEDs) and laser diodes. LEDs are the most common type of fiber optic emitter and are used in a wide range of applications, while laser diodes are used in applications that require high-speed and high-power optical signals.
Fiber optic emitters typically consist of a semiconductor material that generates photons when an electrical current is passed through it. The photons are emitted as light, which is then transmitted through the fiber optic cable to carry information over long distances.
Fiber optic emitters come in different configurations and designs, depending on the application and the required performance. They can be integrated into a fiber optic network or mounted in a separate enclosure, depending on the application and the space available.