D-Net`S AOC Breakout Cables Service
● Compatibility Assistance: D-NET offers compatibility services to guarantee that its optical modules are fully compatible with equipment from prominent manufacturers.
● Personalized Services: D-NET provides OEM customization options for its products, allowing customers to request colored logo labels tailored to their specific needs.
● Standard Delivery Timeframe: 3 Days
● Comprehensive Shipping Solutions: D-NET partners with reputable courier services including SF, FedEx, DHL, UPS, and more to ensure dependable shipping options.
Products Features
● Features 4 channels of 850nm VCSEL and PIN
● Electrical interface is compliant with SFF-8436 specifications
● Supports a data rate of 40GE
● Hot-pluggable QSFP form factor
● Equipped with four double LC connector receptacles
● Incorporates built-in digital diagnostic functions
● Operating case temperature range: 0°C to +70°C
● Requires a 3.3V power supply voltage
● UL-certified cables are available as an option
Module Block Diagram
Absolute Maximum Ratings
|
Parameter |
Symbol |
Min |
Type |
Max |
Unit |
|
Storage Temperature |
TSTG |
-20 |
|
85 |
℃ |
|
Case Operating Temperature |
TCase |
0 |
|
70 |
℃ |
|
Supply Voltage |
VCC |
-0.5 |
3.3 |
3.6 |
V |
|
Input Voltage |
Vilvttl |
-0.5 |
|
VCC+0.5 |
V |
|
Damage Threshold |
DT |
3 |
|
dBm |
Recommended Operating Conditions
|
Parameter |
Symbol |
Min |
Type |
Max |
Unit |
|
Case Operating Temperature |
TCase |
0 |
|
70 |
℃ |
|
Supply Voltage |
VCC |
3.15 |
3.3 |
3.45 |
V |
|
Differential data input voltage per lane |
Vdin |
200 |
1200 |
mV |
|
|
Signaling rate per lane |
Dr |
2.5 |
10.3125 |
Gbit/s |
|
|
Differential Termination Resistance |
Zin |
80 |
100 |
120 |
Ω |
|
Module power |
P |
1.5 |
W |
Transmitter Characteristics
|
Parameter |
Symbol |
Min |
Type |
Max |
Unit |
|
Center wavelength |
λc |
840 |
850 |
860 |
nm |
|
RMS Spectral Width |
Pm |
0.6 |
nm |
||
|
Average Launch Power per Lane |
PAVG |
-8.2 |
-1 |
+2.4 |
dBm |
|
Optical Extinction Ratio |
ER |
3 |
4 |
dB |
|
|
Total Jitter |
TJTx |
120 |
ps |
||
|
Transition time (20% to 80%) |
τR ,τF |
100 |
ps |
||
|
Differential data input voltage per lane |
VINpp |
120 |
1600 |
mV |
Note: Tested with a PRBS31 test pattern,TOP = 0 to 70℃, VCC = 3.15 to 3.45 V
Receiver Characteristics
|
Parameter |
Symbol |
Min |
Type |
Max |
Unit |
|
Center wavelength |
λc |
840 |
850 |
860 |
nm |
|
Sensitivity |
Psen |
-12 |
-10 |
dBm |
|
|
Bit Error Ratio |
BER |
10-12 |
|||
|
Optical Return Loss Tolerance |
RL |
12 |
dB |
||
|
Differential data output voltage per lane |
VOUTpp |
320 |
450 |
mV |
|
|
Differential Termination Resistance |
Zout |
80 |
100 |
120 |
Ω |
|
Transition time (20% to 80%) |
tR, tF |
100 |
ps |
||
|
LOS De-Assert |
LOSD |
-15 |
dBm |
||
|
LOS Assert |
LOSA |
-30 |
dBm |
||
|
LOS Hysteresis |
0.5 |
2 |
dB |
Note: Tested with a PRBS31 test pattern,TOP = 0 to 70℃, VCC = 3.15 to 3.45 V
Pin Descriptions
Pin Definition
|
Parameter |
Symbol |
Name/Description |
|
1 |
GND |
Ground |
|
2 |
Tx2n |
Transmitter Inverted Data Input |
|
3 |
Tx2p |
Transmitter Non-Inverted Data Input |
|
4 |
GND |
Ground |
|
5 |
Tx4n |
Transmitter Inverted Data Input |
|
6 |
Tx4p |
Transmitter Non-Inverted Data Input |
|
7 |
GND |
Ground |
|
8 |
ModSelL |
Module Select |
|
9 |
ResetL |
Module Reset |
|
10 |
Vcc Rx |
+3.3V Power Supply Receiver |
|
11 |
SCL |
2-wire serial interface clock |
|
12 |
SDA |
2-wire serial interface data |
|
13 |
GND |
Ground |
|
14 |
Rx3p |
Receiver Non-Inverted Data Output |
|
15 |
Rx3n |
Receiver Inverted Data Output |
|
16 |
GND |
Ground |
|
17 |
Rx1p |
Receiver Non-Inverted Data Output |
|
18 |
Rx1n |
Receiver Inverted Data Output |
|
19 |
GND |
Ground |
|
20 |
GND |
Ground |
|
21 |
Rx2n |
Receiver Inverted Data Output |
|
22 |
Rx2p |
Receiver Non-Inverted Data Output |
|
23 |
GND |
Ground |
|
24 |
Rx4n |
Receiver Inverted Data Output |
|
25 |
Rx4p |
Receiver Non-Inverted Data Output |
|
26 |
GND |
Ground |
|
27 |
ModPrsL |
Module Present |
|
28 |
IntL |
Interrupt |
|
29 |
Vcc Tx |
+3.3V Power supply transmitter |
|
30 |
Vcc1 |
+3.3V Power supply |
|
31 |
LPMode |
Low Power Mode |
Continued Table
|
Parameter |
Symbol |
Name/Description |
|
32 |
GND |
Ground |
|
33 |
Tx3p |
Transmitter Non-Inverted Data Input |
|
34 |
Tx3n |
Transmitter Inverted Data Input |
|
35 |
GND |
Ground |
|
36 |
Tx1p |
Transmitter Non-Inverted Data Input |
|
37 |
Tx1n |
Transmitter Inverted Data Input |
QSFP Side Mechanical Design Diagram
Unit: mm
|
L |
L1 |
L2 |
L3 |
W |
W1 |
W2 |
H |
H1 |
H2 |
|
|
Max |
72.2 |
- |
122 |
4.35 |
18.5 |
- |
6.2 |
8.6 |
12.1 |
5.35 |
|
Type |
- |
- |
- |
- |
- |
- |
- |
- |
- |
- |
|
Min |
68.8 |
16.5 |
118 |
4.05 |
18.1 |
2.2 |
5.8 |
8.4 |
11.7 |
5.05 |
Cable Side Mechanical Design Diagram
Cable Length Tolerant
|
Cable Length(Unit: m) |
Tolerant(Unit: cm) |
|
<1.0 |
+5/-0 |
|
1.0~4.5 |
+15/-0 |
|
5.0~14.5 |
+30/-0 |
|
≥15.0 |
+2%/-0 |
|
LC cable |
+5/-0 |
Optical Interface
|
Channel |
Optical Interface |
|
TX1 |
LC1 side A |
|
TX2 |
LC2 side A |
|
TX3 |
LC3 side A |
|
TX4 |
LC4 side A |
|
RX4 |
LC4 side B |
|
RX3 |
LC3 side B |
|
RX2 |
LC2 side B |
|
RX1 |
LC1 side B |
Order Information
|
PN |
Cable Information |
|
850M10GQAU-8LC#XXX |
OM3 MMF with UL Certification |
|
850M10GQA-8LC #XXX |
OM2 MMF without UL Certification |
|
XXX |
Cable(MMF)Length |
|
001 |
001=1m |
|
050 |
050=50m |
|
100 |
100=100m |
FAQ
1. How does the cable handle the breakout from QSFP+ to 8x LC connectors?
A: The cable employs a breakout design that divides the QSFP+ interface into eight separate LC connectors, providing versatility in connecting to various devices or network ports.
2. What is the maximum transmission distance for the 40G QSFP+ to 8X LC Breakout AOC Active Optical Cable?
A: The maximum transmission distance can vary depending on the specific cable model and manufacturer, but typically, Active Optical Cables (AOCs) like this one can support distances up to several meters to tens of meters.
3. What are the benefits of using an Active Optical Cable (AOC) over a traditional copper cable?
A: AOCs (Active Optical Cables) provide numerous advantages compared to copper cables, such as reduced latency, increased bandwidth, superior electromagnetic interference (EMI) resistance, and the ability to transmit over longer distances without experiencing signal degradation.
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