Matte Tin (Sn) Fiber Optics - Transceivers 8
| Part | RoHS | Manufacturer | Fiber Optic Type | Mounting Feature | Maximum Supply Voltage | Terminal Finish | Maximum Operating Temperature | Minimum Operating Temperature | Rx Data Rate | Tx Data Rate | Emitter or Detector Type | Fiber Type | Nominal Optical Power Output | Connection Type | Nominal Supply Voltage | Body Length/Diameter | Body Width | Package Style (Meter) | Sub-Category | Body Height | Nominal Operating Wavelength | Minimum Supply Voltage | Minimum Operating Wavelength | Communication Standard | Maximum Operating Wavelength | Minimum Return Loss | Additional Features | JESD-609 Code | Built-in Features | Sensitivity Level |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
Broadcom |
TRANSCEIVER |
BOARD/PANEL MOUNT |
3.5 V |
Matte Tin (Sn) |
1250 Mbps |
1250 Mbps |
LASER DIODE, PIN PHOTODIODE |
9/125, 50/125, 62.5/125, MMF, SMF |
.501 mW |
LC CONNECTOR |
3.3 V |
48.2 mm |
15 inch |
10.8 mm |
1310 nm |
3.1 V |
1270 nm |
GBE |
1570 nm |
12 dB |
2X5 ARRAY |
e3 |
AMPLIFIER |
-20 dBm |
|||||
|
|
Broadcom |
TRANSCEIVER |
BOARD/PANEL MOUNT |
3.5 V |
Matte Tin (Sn) |
1250 Mbps |
1250 Mbps |
LASER DIODE, PIN PHOTODIODE |
9/125, SMF |
.237 mW |
LC CONNECTOR |
3.3 V |
48.2 mm |
15 inch |
10.8 mm |
1310 nm |
3.1 V |
1270 nm |
GBE |
1570 nm |
12 dB |
OPTICAL OUTPUT POWER FOR THESE FIBER TYPE 50/125, 62.5/125, MMF: 0.188MW, 2 X 10 ARRAY |
e3 |
AMPLIFIER |
-20 dBm |
|||||
|
|
Broadcom |
TRANSCEIVER |
SURFACE MOUNT |
5.25 V |
Matte Tin (Sn) |
70 Cel |
0 Cel |
622 Mbps |
622 Mbps |
LED, PIN PHOTODIODE |
50/125, 62.5/125, MMF |
.019 mW |
SC CONNECTOR |
5 V |
39.6 mm |
25.4 inch |
Fiber Optic Transceivers |
9.8 mm |
1330 nm |
4.75 V |
1270 nm |
ATM, OC-12, SDH, SONET, STM-4, STS-12 |
1380 nm |
e3 |
AMPLIFIER |
|||||
|
|
Broadcom |
TRANSCEIVER |
THROUGH HOLE MOUNT |
5.25 V |
Matte Tin (Sn) |
70 Cel |
0 Cel |
622 Mbps |
622 Mbps |
LED, PIN PHOTODIODE |
9/125, 62.5/125, MMF |
.019 mW |
SC CONNECTOR |
5 V |
39.6 mm |
29.6 inch |
Fiber Optic Transceivers |
11.89 mm |
1330 nm |
4.75 V |
1270 nm |
ATM, ITU-T-G.957, OC-12, SDH, SONET, STM-4 |
1380 nm |
e3 |
AMPLIFIER |
|||||
|
|
Broadcom |
TRANSCEIVER |
BOARD/PANEL MOUNT |
5.25 V |
Matte Tin (Sn) |
70 Cel |
0 Cel |
622 Mbps |
622 Mbps |
LASER DIODE, PIN PHOTODIODE |
9/125, 62.5/125, SMF |
.007 mW |
SC CONNECTOR |
5 V |
39.6 mm |
29.6 inch |
Fiber Optic Transceivers |
11.89 mm |
1313 nm |
4.75 V |
1274 nm |
ATM, ITU-T-G.957, OC-12, SDH, SONET, STM-4 |
1356 nm |
e3 |
AMPLIFIER |
|||||
|
|
Broadcom |
TRANSCEIVER |
BOARD/PANEL MOUNT |
3.465 V |
Matte Tin (Sn) |
80 Cel |
0 Cel |
2700 Mbps |
2700 Mbps |
LASER DIODE, PIN PHOTODIODE |
50/125, MMF |
.354 mW |
3.3 V |
34.12 mm |
17.5 inch |
Fiber Optic Transceivers |
13.12 mm |
850 nm |
3.135 V |
830 nm |
OC-192, SONET |
860 nm |
12 dB |
10 X 10 ARRAY |
e3 |
AMPLIFIER |
-11.7 dBm |
|||
|
|
Broadcom |
TRANSCEIVER |
SURFACE MOUNT |
3.63 V |
Matte Tin (Sn) |
85 Cel |
-40 Cel |
LED, PIN PHOTODIODE |
50/125, 62.5/125, MMF |
.014 mW |
LC CONNECTOR |
3.3 V |
48.19 mm |
13.59 inch |
Fiber Optic Transceivers |
9.8 mm |
1308 nm |
2.97 V |
1270 nm |
ATM, OC-3, SDH, SONET, STM-1 |
1380 nm |
2 X 5 ARRAY, OPTICAL OUTPUT POWER FOR 62.5/125 FIBER TYPE: 0.026MW |
e3 |
AMPLIFIER |
||||||
|
|
Broadcom |
TRANSCEIVER |
PANEL MOUNT, THROUGH HOLE MOUNT |
3.63 V |
Matte Tin (Sn) |
1062.5 Mbps |
1062.5 Mbps |
VCSEL |
50/125, 62.5/125, MMF |
.334 mW |
LC CONNECTOR |
3.3 V |
48.19 mm |
13.59 inch |
9.8 mm |
850 nm |
2.97 V |
830 nm |
GBE |
860 nm |
12 dB |
IT ALSO HAVE ETHERNET DATA RATE OF 1250 MBPS; WD-MAX |
e3 |
AMPLIFIER |
-17 dBm |
Fiber optic transceivers are electronic devices that are used in fiber optic communication systems to transmit and receive optical signals. They are designed to both transmit and receive data over a fiber optic network, allowing for two-way communication between devices.
Fiber optic transceivers typically consist of a transmitter, a receiver, and control circuitry. The transmitter converts electrical signals into optical signals, which are then transmitted over the fiber optic cable. The receiver converts the incoming optical signal into an electrical signal, which is then processed by the control circuitry.
Fiber optic transceivers use different technologies to transmit and receive optical signals, including:
1. Direct modulation: Direct modulation uses an LED or laser diode to directly modulate the optical signal in response to an electrical signal.
2. External modulation: External modulation uses an electro-optic modulator to modulate the optical signal in response to an electrical signal.
3. Coherent detection: Coherent detection uses a local oscillator to synchronize the optical signal with a reference signal, enabling precise phase and amplitude measurements of the optical signal.
Fiber optic transceivers 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.